 Method of obtaining derivatives of n-arylbenzamide or salts thereof
专利摘要:
N-arylbenzamide derivatives of formula (I) <CHEM> wherein Z is oxygen or sulfur, R1, R2, R3 are hydrogen or a substituent, R4 is an heteroaryl group linked to the nitrogen atom by a carbon atom, selected from possibly substituted isoxazole, isothiazole, pyrazole, imidazole, thiadiazole, oxadiazole or pyridazine. These compounds can be used as herbicides. 公开号:SU1160932A3 申请号:SU823381405 申请日:1982-01-20 公开日:1985-06-07 发明作者:Уэйн Бьюроу Кеннет (Младший) 申请人:Эли Лилли Энд Компани (Фирма); IPC主号:
专利说明:
Y is an integer of 0-4; K 1 or 2, Rg, Ry and Rg - independently of one another - a hydrogen atom, alkyl, chlorine-C-C-alkyl, C-C-alkenyl, C -, - C-alkoxy-C-C, alkal, C.-C4.-alkylthio-C -, - C (alkyl, C-C-alkoxy-C-C /} alkylthio, or a group : 1 {sn2u (o), - (sn2) QI (RgV or (CH2) y. (CH2) w Q2 ten de K and Y have the indicated meanings; m is an integer from O to 2; p O or 1; Rg and K vodin independently of the other is a hydrogen or chlorine atom, C-C-alkyl or C-C-alkenyl; QI and Qj are, independently of each other, a -CHj-group or a sulfur atom, provided that Q is both a sulfur atom, y is not equal to O, provided that Rj is a hydrogen atom, only if R is 1I-A t s v H where A and B have the indicated meanings, and provided that R and R are different from a hydrogen atom, when R is a group Nn f n where A, B, CuI X have the indicated values, or their salts, distinguished by the fact that the amine of the general formula H, N-R, where R has the indicated meanings, is reacted with a benzoic acid derivative of the general formula C-Ci (Ii) where R, R have the indicated meanings, and the resulting benzamide of formula I, where Z is an oxygen atom, if necessary, is reacted with phosphorus pentasulfide or p-methoxyphenylthiophosphine sulfide dimer in an aprotic organic solvent at 50-150 ° C to obtain the compound of formula I, where Z is a sulfur atom, and The desired product is in free form or in salt form. one The invention relates to methods for producing new chemical compounds, more specifically to a method for producing new derivatives of N-aryl benzamide of the general formula I: RJ Z II S-GN-K4 oxygen or sulfur atom; Z is hydrogen or haloR, C-Cd-alkyl or gene, C-C4-alkoxy; R- is a hydrogen or halogen atom, C., - C-alkyl, C-C-alkoxy, C-C4 alkylthio or trifluoromethyl; RJ is a hydrogen or halogen atom, C — C. Alkyl, C C. alkoxy, or C — C alkylthio, provided that when one of R, R, or R j is alkyl, one or both of the other phenyl ring substituents are different from a hydrogen atom; R4 - aryl group -fr T.B 5 Rsw-. or NX BS A -) CH-group. or a nitrogen atom; B is a nitrogen atom or a CH group, provided that one of A and B is a CHa group of the other is a nitrogen atom; X is an -NH- group or an oxygen or sulfur atom, provided that X is different from the -NH- group if A is a nitrogen atom. and B - / CH-group; R: hydrogen atom or C —C alkyl; Rg is a hydrogen atom or a group / Nb “C-RT.” to "H-s an integer from 0 to 4; de y k 1 or 2; e, R, RS independently of each other, a hydrogen atom, C — C alkyl, chloro-C — C-alkyl, C, jC alkenyl, C — C-alkoxy C-, —C-alkyl, C — C-alkylthio-C-C (, -alkyl , C-C-alkoxy-C-Cjj-alkylthio, or a group one )) m 40 Q, jR9) ft or (CH2lj /; (CH2) m -. B, oQ2 40 de y and k m n have the indicated meanings; is an integer from 0 to 2; -O or 1; EZ -independently on each other and RIO is hydrogen or chlorine, C-C-alkyl or C-C alkenyl; , - independently from each other, a group —CHj- or a sulfur atom, provided that if Qj is both an atom sulfur, y is not equal to O, and provided that RJ is a hydrogen atom of hydrogen only if R is a group T H de A and B have the indicated meanings, and provided that R and Ri are different from a hydrogen atom when -E.- group N-A or n where A, B, RJI X have the indicated values, or their salts, which can be used as highly effective herbicides. A known method for producing benzamide derivatives of the formula. ABOUT " II I (II) J2 where D is an oxygen atom or sedoy; methyl or ethyl; R - C-C-alkyl, methoxy or cyanomethyl; or R, and R BfMecTe is a (CHj) group, provided that if R gC5-C4-alkyd, methoxy or cyanomethyl R cannot be methyl, which is implied that the 2-substituted benzoyl chloride of the formula where D has the indicated meanings, is reacted with an amine formulas Rj4 / where R 2 has the indicated values, in an organic solvent, such methylene chloride, tetrahydrofuran, in the presence of an acceptor, is acidic, such as an excess of amine, alkali metal hydroxide, alkali metal carbonate, triethylamine or pyridine 1 J. There is also known a method for preparing phenylthioamide D from the corresponding phenyl amide by reacting the latter with p-methoxyphenylthiophosphine sulfide diamer or phosphorus pentasulfide in an aprotic organic solvent at 50-150 ° C l2l. . Known (1,1-dimesh1ethyl) phenoxy-N, N-diethylbenzamide and (1,1-dimethylethyl) phenoxy} -H-propylbenzamide, showing SZ herbicides. These m-phenoxbenzamide derivatives are close analogues of the compounds of formula I in structure and action. However, the derivatives of m-phenoxybenzamide possess insufficiently high herbicidal activity during pre-emergence and post-emergence treatment of seeds in greenhouse conditions. The purpose of the invention is to obtain new derivatives of N-arylbenzamide, which have higher herbicide activity. This goal is achieved based on the known reaction of l acylation of an amine with benzoyl chloride and, if necessary, on the known reaction of reacting an amide 2 with a thianer agent in the method of obtaining N-arylben3 amide derivatives of formula I or their salts, which consists in Hj H-R, where R has the indicated meanings, is reacted with a benzoic acid derivative of the formula Vc-ci where K, R and R- have the indicated meanings, and the resulting benzamide of the formula I, where Z is an oxygen atom, if necessary, is reacted with phosphorus pentasulfide or with a dimer; p-methoxyphenylthiophosphine sulfide in an aprotic organic solvent with SO-ISO C to obtain Compounds of the formula I, where Z is a sulfur atom followed by cleavage in free form or as a salt. The acylation reaction can be carried out by mixing the benzoic acid derivative with an approximately equimolar amount of arylamine in a solvent such as tetrahydrofuran, diethyl ether, dichloromethane, dioxane, dimethyl sulfoxide, dimethylformamide, benzene, toluene, and the like. If necessary, the base can be used in the acylation reaction to function as an acid acceptor. Commonly used bases include sodium carbonate, sodium hydride, potassium carbonate, sodium hydroxide, pyridine, triethylamine, and similar bases. The acylation usually ends after 2-90 hours when the reaction is carried out at 20-200 ° C, preferably at 30-120 ° C. The reaction product, N-arylbaczamide, can be isolated by simply removing the reaction solvent, for example, by distillation under reduced pressure. The product can be further purified if necessary by any of the traditional methods, including crystallization from 0 solvents such as ethanol, methyl acetate, diethyl ether, toluene, and the like, by chromatography on solid supports such as silica or alumina, and other 5 methods. Compounds of the formula I obtained according to the inventive method: (1-ethyl-1-methylpropyl) -5-isoxazoo, 6-dimethiroxybenzamide; N-p (1,1-dimethylethyl) -5-isoxazolyl 2,6-dimethoxybenzamide; (1-methylcyclohexane 1) -5-i: zoxazolyl 2,6-dimethoxybenzamide jN-Ce-C 1,1-dimethylethyl) pyridazin-3-ylZ-2,6-dimethoxyben 5 zamide and (1-ethyl-1-netilpropyl) Pyridazin-3-ylZ-2, 6-dimethoxybenzamide have the most optimal complex of herbicidal properties. ( 0 Salts of compounds of formula I can be prepared by reacting a benzamide derivative of formula I with a strong base, such as sodium hydride, in an ether solvent, such as 5 tetrahydrofuran or diethyl ether. Salt formation can be carried out at O - 50 ° C, usually at room temperature. Example 1. (1-Ethyl-1methylpropyl) -5-isoxazolyl} -2,6-dimethoxybenzamide. Obtaining 5-amino-3- (1-ethyl-1metshtshpil) -isoxazole, 16.5 kg of methyl 1-ethylbutyrate are reacted with 60 kg of butyl lithium diisopropylamine and 19.1 kg of methyl iodide to give 17.4 kg of methyl 2-ethyl-2-methyl butyric acid; 7.5 kg of the ester thus obtained in the reaction from 3.25 kg of acetonitrile and 5.03 g of sodium hydride in 33 l of tetrahydrofuran to obtain 1-ethyl-1methylpropyl cyanomethyl ketone. The ketone thus obtained is reacted with 4, 35 kg of hydroxylamine hydrochloride and 2.54 kg of sodium hydroxide in 44 liters of water to produce 5.65 kg of 5-amino-3- (1-ethyl-1-methylpropyl) isoxazole, Preparation of 2,6-dimethoxybenzoyl chloride 8.5 kg of 2,6-dimethoxybenzoic acid was dissolved in 60 liters of toluene, and the solution was stirred at ambient temperature while adding 6.8 liters of thionyl chloride per hour during 45 minutes. After the addition, the reaction mixture is cooled to room temperature, and the solvent is distilled off under reduced pressure, washed with 25 l of petroleum ether, cooled and filtered to obtain a solid crude product. The product is stirred for one hour with 25 liters of fresh petroleum ether, then cooled to 10 ° C and filtered to obtain 8.94 kg of 2,6-dimethoxybenzoyl chloride Synthesis of (1-ethyl-1-methylpropyl) -5-isoxazolyl-2,6-dimethoxybenzamide. To a stirred solution of 3.36 K 5-amino-3- (1-ethyl-1-methylpropyl) isoxazole in 65 liters of toluene, 4.015 kg of 2,6-dimethoxybenzoyl chloride are added in portions over 30 minutes. The reaction mixture is heated under reflux until boiling and stirred for 48 hours. Then it is cooled to room temperature and concentrated to a volume of about 25 by distilling off the solvent under reduced pressure. The product precipitates and is collected by filtration, washed with fresh toluene, and dried in the air to obtain 6.084 kg of (1-eTyl-1-methylpropyl) -5-isoxazolyl -2, 6-dimethoxybenzamide. T. pl. 172-174C. Yield 91%. Calculated,%: C 65.04; H 7.28; N 8.43. C, aH ,,, N, 04 Found,%: C 64.79; H 7.02; N 8.28. Example 2. N-C3- (1,1-Dimethylethyl) -5-isoxazolyl 22,6-di-npropoxy benzamvd. Polipinium 2,6-di-n-propoxy-benzoyl chloride. Mets1-2,6-dihydroxybenzoate is reacted with n-propyl iodide in the presence of sodium hydride to form metrs1-2 6-di-n-propoxybenzoate. The ester thus obtained is scrubbed by reaction with 40% aqueous potassium hydroxide in ethanol to give 2,6-di-n-propbxybenzoic acid; 20 g of acid are reacted with 30 g of thionyl chloride in 100 ml of benzene at reflux for five hours. Removal of the solvent under reduced pressure and purification of the product by distillation gives 4.88 g 2,6-di-n-propoxybenzoyl chloride. Bp 135-140 ° C at a pressure of 0.2 torr. To a stirred solution of 2.8 g of 5-amino-3- (1,1-dimesh1-ethyl) nsoxazole in 40 ml of tetrahydrofuran containing 4.5 ml of triethylamine, a solution of 4.88 g of 2.6 is added dropwise over 10 minutes -di-n-propoxybenzoyl chloride in 10 ml of tetra- hydrofuran. After the addition, the reaction mixture is heated at reflux for 72 h. Then the reaction mixture is cooled to room temperature. temperature, and the solvent was distilled off under reduced pressure. The residue is dissolved in a mixture of dichloromethane and in; the organic layer is separated, washed with fresh water. dried, and the solvent is distilled off to obtain an oil. The oil is crystallized from Skell B and diethyl ether to obtain 750 mg of K-C3- (1,1-dimethyl-1-ethyl) -5-isoxazolyl} -2, 6-di-N-propoxybenzamnd. T. pl. . Yield 10%. Calculated,%: C, 66.64; H 7.83; N 7.77. C2H28 ", 0, 2 4 C 67.65; H 7.78; Found,% N, 7.32. Example 3 N-C5- (1-Ethylcyclohexyl) -3-isoxazolyl-2,6 dimethoxybenzamide. Preparation of 3-amino-5- (1-ethylcyclohexyl) isoxazole; Acetonitrile is reacted with 1-e-1-methoxycarbonylcyclohexane in the presence of sodium hydride to obtain 1-ethyl-1- (2-cyanoacetyl) cyclohexane; 55 g of the latter compound are dissolved in 200 ml of diethyl ether containing 20.5 g of absolute methanol, and the solution is stirred and cooled to approximately 5 ° C. Then, hydrogen chloride gas is bubbled through the reaction mixture for 45 minutes, after which the reaction mixture is kept at 0 ° C for 12 hours. Removal of the reaction solvent by distillation under reduced pressure yields a yellow solid, which is dissolved in 300 m of fresh absolute methanol and treated with 97 g of triethylamine and 22 g of hydroxylamine hydrochloride. The reaction mixture is heated at 50 ° C for hours, and then cooled to room temperature and diluted with 25 ml of concentrated hydrochloric acid. The acidic reaction mixture is heated at 50 ° C for 12 hours, cooled to room temperature and concentrated to a dry residue by distilling off the solvent under reduced pressure. The residue thus obtained was dissolved in water, and the aqueous mixture was made alkaline by the addition of 20% sodium hydroxide. The product is extracted into diethyl ether, which is then washed with water, dried and the solvent is distilled off. Distillation of the product gives 14 g of 3-amino-5- (1-ethylcyclohexyl) isoxazole. T. kip 135-140 ° С pressure 0.1-0.05 tor. I. A solution of 14 g of 3-amino-5- (1-ethylhgclohexyl) -isoxazole and 14.4 g of 2,6-dimethoxybenzoyl chloride in 100 m of toluene is heated to reflux and stirred for 11 hours. Then, the reaction mixture was cooled to room temperature, and the solvent was removed by distillation under reduced pressure to obtain a solid 2-10 substance. The solid is dissolved in 200 mA dichloromethane, washed with dilute sodium hydroxide and brine, dried and the solvent is distilled off. The product is crystallized from dichloromethane and disodium ether to give 15.5 g. (1-ethylcyclohexyl) -3-isoxazolyl -2, 6-dimethoxybenzamide. T. square 179-181 ° C. Yield 60%. %: C 67.02; H 7.31; Calculated, 7.82 ClflH ,, N, 0 Found,%: C, 66.81; H 7.02; N 7.54. The following representative compounds are prepared by the reaction of an aminoisoxazole with 2,6-dialkoxybenzoyl chloride derivatives according to the general procedures of Examples 1-3 to give the corresponding N-isoxazolyl-2,6-dialkoxybenzamides. Example 4 N-p- (1,1-Dimethyl-2-chloroethyl-5-isoxazolyl 7-2, 6-dimethoxybenzamide. T. square 172-173 ° C. . Yield 33%; Calculated,%: C, 56.72; H 5.65; N 8.27; C1 10.46 C ,, H ,, C1N, 0 Found,%: C 56.49; H 5.66; N 8.08; C1 10.52. Example 5 (2,2-Dimeylpropyl) -5-isoxazolyl -2,6-dimeoksibenzamid. T. square 152-154С. Yield 24%; Calculated,%: C 64.13; H 6.97; 8.80. C ,, H ,, N, 0, Found,%: C 64.07; H 6.76; N 8.62. Example 6 (1,1-Dimethyl ethyl) -5-isobasol-2,6-dimethoxybenzamide. T. square 172-173 ° C. Yield 66%. Calculated,%: C 63.14; H 6.62; N 9.20. C. . O, Found,%: C 62.90; H 6.52; N 8.94. Example 7 (1,1-Dimethylethyl) -3-isoxazolyl -2,6-dimethoxybenzamide. . t. square 182-183 ° C. Yield 27%. Calculated,%: C 63.14; H 6.62; N 9.20. . N. O%: C 63.14; H 6.64; Found 9. 07 eleven. 1160932 example. (1,1-Dimethylethyl) 5-isoxaeolyl-2, 6-dimethoxybenzamide I.T. square 126-128 ° C. Yield 3.5%. Calculated,%: C 65.24; H 7.00 {N 8.45. . Found,%: C65.00; H 6.80; N 8.39. example 9. (1,1-Dimethylpropyl) -5-isoxazolyl} -2,6-dimethoxybenzamide. T. square | 40-142C. Yield 50%. Calculated,%: C 64.13; H 6.97; N 8.80 C ,, HiiN, 0 Found,%: C 63.86; H 6.71; N 9.05. Example 10 (1,1-Dime- 20 mc1 pentyl) -5-isoxazolyl -2,6-dimethoxybenzamide. T. square 132-1ZZS. Exit 31%. Calculated,%: C 65.88; H 7.57; N 8.09. . O Found,%: C 65.88; H 7.42; N 7.86. Example 11 Y-C3- (2-Cyclohexyl-1, 1-dimethylethyl) -5-isoxazo-30, 6-dimethoxybenzamide T. pg Nb-IVS. Yield 21%. Calculated,%: C 68.37; H 7.82; . N 7.25 C22 3oNa04 Found: C 68.12; H 7.57; N 6.99. Example 12 K-C3- (1-Cyclohex-1-methylethyl) -5-isoxazolyl 3, 6-dimethoxybenzamvd. T. square 158-160. Yield 91%. Calculated,%: C 67.72; H 7.58; N 7.52. C ,,, H, jN, 0, Found,%: C 67.56; H 7.37; N 7.56. PRI me R 13. (1,1-Dimetry-2-phenylethyl) -5-isoxazolyl J-2 6-dimethoxybenzamide. T. square 108-110 ° C. Yield 9%. Calculated,%: C 69.46; H 6.36; N, 7.36; Found: C, 69.28: H, 6.53; N 7.12 N 7 Example 14. (1-Ethyl-1 methylbutyl) -5-isoxazolyl -2,6-dimethoxybenzamide. N 5 N et meti mp N N qi di 25 N N di N N qi 40 me N N met met current N 8 cyc met. square 149-15GS. Yield 41%. Calculated,%: C, 65.88; H, 7.57; 8.09 C ,, H ,, N, 0 Found,%: C 65.59; H 7.35; 7.87. Example 15 (1,1-Diylpropyl) -5-isoxazolyl-2,6-ditoxybenzamide. T. square 163-165C. Yield 13%. Example 16 N-C3- (1,1-Dinel-3-butenyl) -5-isoxazolyl J-2J6-dithium mitz. T. square 160-162C. Yield 22%. Calculated,%: C 65.44; H 6.71; 8.48 Ci8H ,, N, 0 Found,%: C 65.23; H 6.50; 8.39. Example 17 N-f3- (1-Methylclohexyl) -5-isoxazolyl -2,6 methoxybenzamide. T. square 1b1-1b3 ° C. Output. 54%. Calculated,%: C, 66.26; H 7.02; 8.13 ei9H, N, o Found,%: C 66.06; H 6.80; 8.28. Example 18 (1,1-Dimeltetradecyl) -5-iso-azazolyl-2,6-methoxybenzamide. T. square 57-59C. Yield 9%. Calculated% J C 71.15; H 9.38; 5.93; Found: C, 71.34; H 9.15; 5.81. Example 19 (1-Ethylclohexyl) -5-isoxazolyl -2,6-ditoxybenzamide. T. square 177-179C. Yield 34%. Calculated,%: C 67.02; H 7.31; 7.82 CioHnN OV Found; C, 66.74; H 7.07; 7.90. example 20. N-Sz- (1,1, E-Triilbutyl) -5-isoxazolyl -2,6-dimesybenzamide. :, T. square 146-148 ° C. Yield 12%. Calculated,% C 65.88; H 7.57; , 09. CibH2, N, 0, Found,%: C. 65.70; H 7.50; , 87. Example 21 (1-Methyllopentyl) -5-isoxazolyl-2,6-dioxybenzamide. 131160932 T. square 128-130 ° C. Yield 10%. Calculated,%: C 65.44; H 6.71; N 8.48. C, dN2, H, 0, Found,%: C 65.24; H 6.59; N 8.22. PRI me R 22. S-C5- (. 1,1-Dimethyl6-butyl) -3-isoxazolyl 2,6-dimethoxybenzamide. T. square 133-135C. Yield 48%. Calculated,%: C 65.04; H 7.28; N8.43C1BHg4N20 Found: C, 65.25; H 7.01; N 8.19. V o Example 23. N-C3- (1,1,2,2Tetramethylpropyl) -5-isoxazolyl-2,6 dimethoxybenzamide. T. square 174-175 ° C. Calculated,%: C 65 88; H 7.57; N 8.09. C ,, Ig, N, 04 Found,%: C 65.97; H 7.32; N 8.33. Example 24 (1-Ethylpropyl) -5-isoxazolyl -2,6-dimethoxy-benzamide. T. square 157-159 ° C. Yield 53%; Calculated,%: C 64.13; H 6.97, N 8.80 CI, H ,, N, O, Found,%: C 63.87; H 6.77; N8.56; ; Example 25 (1-Ethyl-1-methylpropyl) -3-isoxyzolyl-2,6-N dimethoxybenzamide, T. square 165-166 ° C. Yield 49%. Calculated,%: C 65.04} H; 7.28; N 8.43 C ,, H ,, N. , 04 Found: C, 64.94; And 7.01; N 8.21. Example 26 (1,1-Dimethyl-ethyl) -5-isoxazolyl 32,6-dimethoxybenzamide. T. square 123-125 ° C. Yield 11%. Calculated,%: C 65.04; H 7.28; N 8.43N C, 8Hi4N, Found,%: C 64.50; H 7.04; 50 N 7.89. 1 Example 27. N-t3- (2-MeTOKCH-li 1,1-dimetshtSh1) -5-isoxazole1 -2,6 dimethoxybenzamide. . T. square 201-203 ° C. Vkod 19%. 55N Calculated,%: C 61.06; H 6.63; N 8.38 C HiiNjOsN N. ti 5 then N N ci me N 20 N 1 o 3 N 1 me N ° 1 di Found%: C 61.50; H 6.36; 8.51 Example 28. N-. C3- (1, 1-Dimethylbutyl) -5-isoxyazolyl -2,6-dimexibenzamide. T. square 141-143 ° C. Yield 9%. Vmsleno,%: C 65.04; H 7 28; 8.43 C, H, N, 0; Found,%: C 64.79; H 7.04; 8.26. Example 29 C-H3 (1-Popsh1clohexyl) -5-isoxazolyl) -2,6-ditoxybenzamide. T. square 202-204 ° C. Exit 38%. Calculated,%: C 67.72; H 7.58; 7.52. C ,, H. ,, N, 0, Found,%: C 67.48; H 7.58; 7.56. Example 30 N-C3- (1-Methyl (2,4-dichlorophene / ethyl) -5-isoxyl -2, 6-dimethoxybenzamide. T. square 154-156 ° C. Yield 25%. Calculated,%: C 55.89; H 4.47; 21- C1 15 71. N. O Found,%: C 56.09; H 4.46; 6.01; C1 15.45. Example 31. K-13- (1-Methylphenylethyl) -5 isoxazolyl 3-2,6-ditoxybenzamide. T. yl 185-187 ° C. Yield 30%. Calculated,%: C 68.84; H 6.05; UDJHrl 7 65 Cj, HjjN204 Found,%: C 69.04; H 5.93: 7.44. Example 32 N-C3- (1-Methylenylpropyl) -5-isoxazolyl -2,6-methoxybenzamide. T. square 183-185 ° C. Yield 29%. Calculated,%: C 69.46; H 6.36; 7.36. Found%: C 69.26; H 6.13: 7.54. Example 33 N-C3 - (1-Methyl, / phenylmetsi / ethIl) -5-isoxazo 2, 6-dimethoxybenzamide. T. square 123-125 ° C. Yield 13%. Calculated,%: C 66.65; H 6.10; 7.07 C2zH24N20s Found: C: 66.84; And 5.88; 6 86 15 11609 Example 34. C-C3- (1-Ethylcycloheptyl) -5-isoxazole1} -2,6-dimethoxybenzamide. T. square 163-165 ° C. Yield 32%. , Calculated,%: C 67.72; H 7.58; 5 N 7.52; Found: C, 67.64; And 7.78; By 7.25. . Example 35 (1-Cycle-Yu hexyl-1-methylpropyl) -5-isoxazolyl} 2, 6-dimethoxybenzamide. T. gsh 173-175 ° C. Yield 22%; Calculated,%: C 68.37; H 7.82; N 7.25. t5 CziHjaNjO Found,%: C 68.29; H7.53; N 7.27. Example 36 (1-Methoxy1-methylethyl) -5-isoxazolyl -2,6-di-20 methoxybenzamide. T. square 232-234 ° C. Yield 37%. Calculated,%: C 59.99; H 6.29; N 8.74 CitHjjNjGj 25 Found,%: C 59.87; H 6.07; N 8.73. According to the procedures of Examples 1-3, the aminoisoxazole is reacted with an appropriately substituted RZ benzoyl halide to form the desired N-isoxazolyl benzamides. Example 37 (1-Ethyl1-methylpropyl) -5-isoxazolyl -2-fluoro6-methoxybenzamide. 35 T. square 133-135C. Yield 26%. Calculated ,,%: C 63.74; H 6.61; N 8.74 CHNOF. Naida; about:%: C 63.97; H 6, PRI me R 38. (1,1-Dimethylethyl) -3-isoxazolyl -2,6-dichlorobenzamide. T. Ш1. 249-250 ° C. - Calculated,%: C 53.69; H 4.51; N 8.94 C. , HnCljN, j02 Found,%: C 53.89; H 4.54; N 8.77. Example 39 N-t3- (1,1-Dime. tylethyl) -5-isoxazolyl-2,6-dichlorobenzamide. T. square 235-237C. Yield 22%. 55 Calculated,%: C 53.69; H 4.51; N 8.94; C1 22.64 C ,, H CljNjOj 216 Found,%: C 53.74; H 4.56; N 8.96; cf 22.83. PRI me R 40, N-t3- (1,1-Dimethylethyl) -5-isoxazolyl -2,6-difluorobenzamide. T. square 153-154C. Calculated,%: C 60.00; H 5.04; N 10.00 s Found,%: C 59.91; H 4.83; N 10.16. Example 41 N-GZ- (1-Ethyl1-methylpropyl) -5-isoxazolyl -2chloro-6-methoxybenzamide. T. square 173-174C. Yield 42%. Calculated,%: C 60.62; H 6.28; N 8.32 C; Found,%: C 60.74; H 6.02; N 8.54. Example 42 (1-Ethyl1-methylpropyl) -5-isoxazolyl -2,4,6 trimethoxybenzamide. T. square 150-152 ° C. Yield 40%. Calculated,%: C, 62.97; H 7.23; N, 7.73; Found: C, 63.01; H 7.05; N 7.72. Example 43 K-C5- (1-Etsh11-methylpropsh1) -3-isoxazole1. 2,4, 6-trimethoxybenzamide. T. square 165-170 C. Yield 41%. Calculated,%: C, 62.97; H 7.23; N, 7.73; Found: C, 62.94; H 6.99; N 7,94 pm and R 44. S-NW- (1-Ethyl-. 1-methoxymethylpropyl) -5-isoxazole1} 2, 6-dimethoxybenzamide. PRI me R 45. (1,1 Diethyl-2-propenyl) -5-isoxazolyl 2,6-dimethoxybenzamide. PRI me R 46. (1,1-Dimethylethyl) -5-isoxazolyl -2,5-dimethoxybenzamide. T. square 166-168C. Yield 53%. Calculated,%: C 63.14; H 6.62; N 9.20. NjO Found,%: C 63.38; H 6.71; N 9.01 EXAMPLE 47. (1,1-Dimethylstil) -5-isoxazyl-3,5-dimethylbenzamide. 17/1160932 T. square 121-123 ° C. Yield 45%. Calculated,%: C, 70.56; H 7.40: N 10.29. C ,, H, N, 0, Found,%: C 70.82; H 7.25; N 10.21. PRI me R 48. N - (, 3-IlponHn-5isoxazolyl) -2,6-dimethoxybenzamide. T. square 124-126 ° C. Yield 29%. Calculated,%: C 62.06; H 6.25; N 9.65 C, rH «N, 0, Found,%: C 62.34; H 6.46; N 9.55. Example 49 N- (3-Propyl-5-15 m isoxazolyl) -2,6-dimethylbenzamide. T. square 120-122 ° C. , Calculated,%: C 69.74; H 7.02; N 10.84. C ,, H, 3N, 0, Found,%: C 69.9d; H 6.82; N 10.58. Example 50 (1,1-flHMethylethyl) -5-isoxazolyl-3,4-dimethoxybenzamide. T. square 164-1B6S. Yield 37%. Calculated,%: C 63.14; H 6.62; N 9.20 G ,, H. ,, N, 0, Found,%: C 63.27; H 6.41; N 9.12. Example 51 L-C3- (1,1-Dimethyl. ethyl) -5-isoxazolyl-3,5-dimethoxybenzamide. T. square 115-117 ° C. Yield 49%. Calculated,%: C 63.14; H 6.62; N 9.20; CibH, oN, 04; Found: C, 63.40; H 6.37; N 9.30 Example 52. N-C3- (1-Methylethyl) -5-isoxazolyl 3-2 6-dimethoxybenzamide. T. square 143-144C. Yield 52%. Calculated,%: C 62 ,. 49; H 5.59; N 9.72; C, Found,%: C 62.20; H 5.46; N 9.51. I Example 53. H - {; 3- (1,1-Dime-50-tylethyl) -5-isoxazolyl 2,4,6-trimeSh1-N benzamide. T. square 177 179 ° C. Yield 22%. 1Calculated,%: C 71.30; H 7.74; yl N 9.7855 C T jiNjO. Found:%: C 71.34; H 7.45; N 9.78. 21zol 1di. T kc N me mee NB N 30 1 or 35 mei N 40 N ti n N Example 54. (1-Ethyl (methoxymethyl / -propyl) -5-isoxyl-1-2, 6-dimethoxybenzamide. T. square 167-168 ° C. Yield 26%. Example 55 N- {3- (1-Ethylmethylpentyl) -5-isoxazolyl -2,6methoxybenzamide. T. square 150-152 ° C. Yield 34%. Example 56. (1,1-Dimethylethyl) -5-isoxazolyl 3-2,6-dimethiobenzamide. T. square 179-181C. Yield 32%. Calculated,%: C, 70.56; H 7.40; in 29 C ,, H ,, N, 0, Found,%: C, 70.35; H 7.19; 10.02. Example 57 N-Cs- (2,2-Dityl-3-2-methyl-1-propenyl-cycloopyl) -5-isoxazolyl -2,6-dimethoxynzamide. T. square 92-94C. Yield 8%. Calculated,%: C 68.09; H 7.07; 7.56 Cj. H. Found,%: C 68.16; H 6.83; 7.42. Example 58 (1-Ethylmethoxypropyl) -5-isoxazolyl -2,6methoxybenzamide. T. square 174-176 ° C. Yield 7%. Example 59 (1,1-Dimethylethyl) -5-isoxazole1 -2,6-diethylnzamide. T. square 173-175 C. Yield 7%. Calculated,%: C, 71.97; H 8.05; 9.33. -Found,%: C 72.20; H 8.24; 9.21. Example 60 (1,1-Dimelethyl) -5-isoxazolyl 2,4,6-trimexibenzamide. T. square 115-118 ° C. Yield 26%. Calculated,%: C 61.07; H 6.63; 8.38 C ,, H ,, N, OS Found,%: C 60.88; H 6.76; 8.12. PRI me R 61. N-Q5- (1-Ethylmethylpropyl) -1,3,4-thiadiazol-2 -2, 6-dimethoxybenzamide. 2-Amino-5- (1-eth1-1-melpropil) -, 3,4-thiadiazole creep. A solution containing 13.0 g of 2-ethylmethylbutyric acid and 9.1 g of semikarbazid tir191 in 125 ml of dioxane, stirred and heated to 90 ° C. 15.3 g of phosphorus oxychloride are added dropwise to the stirred reaction mixture over 30 minutes. After the addition is complete, the reaction mixture is heated at 90 ° C for 6 hours. The mixture is then cooled to 30 ° C and added. to 100 g of ice. The aqueous mixture is alkalinized by addition of ammonium hydroxide, and the basic solution is extracted several times with ethyl acetate. The extracts are combined, washed with water, dried, and the solvent is distilled off under reduced pressure to obtain 17.0 g of 2-amino-5- (1-ethyl 11-methylpropyl) -1,3,4-thiadiazole. T. Ш1. 138-140 ° C. To the resulting stirred solution of 9.2 g of thiadiazole in 100 ml of tetrahydrofuran containing 4.0 g of pyridine, 11.0 g of 2,6-dimethoxybenzoyl chloride are added in one portion. The reaction mixture is heated to reflux for 3 hours and then cooled to and filtered. The solvent is removed from the filtrate by distillation under reduced pressure to obtain a solid, which upon crystallization of 1D1I from 2B ethanol gives 6.3 g of (1-ethyl-1-methylpropyl) -1,3,4-thiadiazol-2-yl, 6- dimethoxybenzamide. T. square 208-210С. Exit 36%. Calculated,%: C 58.43; H 6.63; N 12.02. C. H. Found,%: C 58.34; H 6.58; N 11.79. Example 62 (1-Ethyl1-methyl (propyl) -1.3, D-thiadiazol-2yl} -benzamide. To a stirred suspension of 3, 3 g of 2-amino-5- (1-ethyl-1-methylpropyl) 1, 3,4-thiadiazle in 30 ml of tetrahydrofuran, 2.8 g of benzoyl chloride are added in one portion. The reaction mixture was stirred at room temperature with 1.6 g of pyridine in 20 MP of tetrahydrofuran added dropwise over 30 minutes. After the addition is complete, the reaction mixture is heated to reflux for 3 hours. The mixture is then filtered to remove pyridine hydrochloride, and the filtrate is washed several times with 1N. hydrochloric acid solution. The organic layer was separated, and the solvent was removed by distillation under reduced pressure to obtain a yellow gum, which was crystallized from ethanol and water, to obtain 1.85 g of (1-ethyl-1-methylpropyl) -1.3, 4-thiadiazol-2 -il benz (mida. T. square 98-100С. Yield 35%. Calculated,%: C, 62.25; H 6.62; N 14.52; S 11.08 C. Found,%: C 62.01; H 6.39; N 14.27; S 11.22. Example 63 (1-Ethyl1-methylpropyl) -1,3,4-thiadiazole-2nlZ-2, b-diethylbenzamide. Preparation of 2,6-Diethylbenzoyl Chloride 2,6-Diethyl cyanobenzene is obtained by converting 2,6-diethylaniline to a diazonium salt, followed by reacting the diazonium salt with copper cyanide. The hydrolysis of 2,6-diethyl cyanobenzene is carried out by reacting with sodium hydroxide in ethylene glycol to obtain 2,6-diethylaminocarbonyl ben zene. The latter compound reacts with phosphoric acid to produce 2-diethylbenzoic acid. The reaction of benzoic acid with thionyl chloride gives 2,6-diethylbenzoyl chloride as an oil. A solution of 1.85 g of 2-amino-5- (1-ethyl1-methylpropyl) -, 3,4-thiadiazole and 2.21 g of 2,6-dieth1benzosil chloride in 50 ml of toluene is heated at the boil under reflux for 1. 6 hours and then cooled, and the solvent is removed by distillation under reduced pressure to obtain a solid residue. The solid is crystallized from 2B ethanol to obtain 1.25 g of N-C5- (1-ethyl-1-methylpropyl 1) 1, 3,4-thiadiazol-2-yl -2,6-diethylenebenzamide. T. square 186-188С. Exit 36%. Calculated,%: C 66.05; H 7.88; N 12.16; S 9.28; Found: C, 66.18; H 7.82; 11.87; S 9.16. Example 64 (1,1-Dimetsh1-2- (methyltis) ethylJ-1,3,4-thiadiazol-2-sh1 -2, 6-dimethoxybvnzamid, Preparation of 2-amino-5-1,1-dimethyl2- (methylthio), 3 , 4-thiadiazole. Lithium diisopropylamide is obtained by the reaction of 51.0 g of diisopropylamine with 227 ml of n-butyl lithium in 350 ml of tetra-21160932 rahidrofuran at -5 ° C. To the stirred reaction mixture, 22.0 g of isobutyl acid is added dropwise over 30 minutes. After the addition, the reaction mixture is warmed to 25 ° C and stirred for one hour. The mixture is then cooled again and 24.1 g of chloromethyl methyl sulfide is added dropwise. The reaction mixture is allowed to warm to 25 ° C and stirred at this temperature for 12 hours. Then, the excess solvent was removed by distillation under reduced pressure, and the residue was added to 50 g of ice containing 50 ml of 1N hydrochloric acid solution. . Noah acid. The aqueous acidic mixture is extracted several times with diethyl ether, and the extracts are combined, washed with water, dried and the solvent is distilled off to obtain 22.0 g of 2,2-dimethylmethylthiopropionic acid as an oil, 9.0 g of the acid thus obtained is dissolved in 120 ml dioxane containing 25 g of thiosemicarbazide, and the reaction mixture is heated at 90 ° C for 30 minutes, after which 10.1 g of oxy-JQ phosphorus chloride are added dropwise to the reaction mixture for 10 minutes. After the addition is complete, the mixture is heated at 90 ° C for 12 hours. After cooling the reaction mixture to room temperature, the solvent is decanted, and the solid precipitate is dissolved in warm water. The aqueous mixture is alkalinized to pH 8 with ammonium hydroxide, and -. This alkaline solution is then extracted with ethyl acetate. Combination extracts. -. rinsed, washed with water, dried, and the solvent is distilled off under reduced pressure to give 4.2 g of 2-amino SD, 1-dimethyl-2- (methyl), 3, 4-thiadiazole, T. square 117-120 ° C. 3.0 g of the thiadiazole thus obtained are reacted with 3.4 g of 2,6-dimethoxybenzoyl chloride in 30 ml of tetrahydrofuran containing 1.3 g of pyridine. The reaction is carried out at 106 ° C ® for 16 h. After cooling the reaction mixture to room temperature, the solvent was distilled off under reduced pressure to obtain the product as an oil. The oil is purified by chromatography on silica gel using diethyl ether as eluant, and then crystalline 1, this is then N, Nn or NN N, N 18 N and N 1, 2N N 2 2 from ethyl acetate with a volume of 94 g (1,1-dimethyl-2- (methylthio) yl-1,3,4-thiadiazol-2-yl -2,6-dimeksibenzamida, T, mp, 165-1b7 ° C, Vyd 35%, C 52.29 ; H 5.76; Calculated,%: 11.43; S 17.45. . - „HZ. WITH. Found,%: C 52.38; H 5.47; 11.20; S 17.40, C ispo. Using the general techniques from 61-64, an appropriately substituted 2-amino-1,3,4-thiadiazole is introduced to react with the benzoyl halo derivative to obtain the following characteristic (1,3,4-thiadiazole-2-pcs) benzamides, Example 65 , (1-Cyclohekl-1-methyle type) -1,3,4-thiadia ol-2Z-2, 6-dimethoxybenzamide, T, mp, 241-243 ° C, Yield 38%, Calculated,%: C 61, 67; H 6.99; 10.79, C ,. H2TN3O3 Found;%: C 61.68; H 6.76; 10.77, EXAMPLE 66, N-C5- (1,1-Diethylopyl) -1,3,4-thiadiazol-2-yl3-2,6-methoxybenzamide, T, B1, 216-218 ° C. Yield 31%, Calculated,%: C 59.48; H 6.93; 11.56. Found,%: C 59.65; H 6.73; 11.37, P m and m, e 67. (2,2-Dimelpropyl) -1,3,4-thiadiazol-2-yl -2,6 methoxybenzamide, T, pl. 188-190С, Yield 43%, Calculated,%: C 57.29; H 6.31; 12.53, SnN2p DOSE%: C 57.27; H 6.10; Found, 12.31, Example 68, (2-Methoxy1-dimesh1ethyl) -1,3,4-thiadiazolyl -2, 6-dimethoxybenzamide, T, mp, 172-174 ° C, Yield 56%, Calculated,% 54.68; H 6.02; 11.96, Found,%: C 54.56; H 5.95; 11.72, Example 69, (1,1-Dimel-2-Fensch-ethyl) -1,3,4-thiadiazolyl J-2, 6-dimethoxybenzamide, T, pl. 167-169C, Yield 29%, 231160932 Calculated,%: C 63.45; H 5.83; N 10.57; S 8,07 C. H NjOjS Found,%: C 63.71; H 5.82; . N 10.71; S 8.05. Example 70 (2-Cyclohexyl-1, 1-dimethylethyl) -1,3,4-thiadiazol-2-yl -2, 6-dimethoxybenzamide. T. square 191-193 ° C. 77%. Calculated; %: C, 62.50; H 7.24; N 10.41; S 7.95 С ,, H „H, Oz8 Found,%: C 62.63; H 7.22; N 10.43; S 7.99. Example 71 N-C5- (1,1-Dimethylhexyl) -1,3,4-thiadiazol-2-yl3, 6-dimethoxybenzamide. T. square 120-122C. Yield 66%. Calculated,%: C 60.45; H 7.21; N 11.13; S 8.49. C, 9H27 "ZOZ5 Found,%: C 60.64; H 7.00; N 11.27; S 8.75. Example 72 (1-Ethyl1-methylpropyl) -1,3,4-thiadiazole-2ylD-2-methoxy-3, 6-dichlorobenzamide. T. square 194-196 ° C. Output Calculated,%: with 49,49; H 4.93; ); N 10.82. C HijCljNjOjS Found,%: C 49.69; H 5.10; N 11.04. Example 73 (1-Ethylpentyl) -1,3,4-thiadiazol-2-sh1 J-2,6dimethoxybenzamide. T. square 120-122 ° C. Yield 69%. Calculated,%: C 59.48; H 6.93; N 11.56. Found,%: C 59.74; H 6.90 ;, 40 N, 11.45. Example 74 (1-Methylcyclohexyl) -1,3,4-thiazol-2-ylJ2, 6-dimethoxybenzamide. T. Ш1. 211-213C. Exit 47%. Imprinted,%: C 59.81; H 6.41; N 11, 63. C „N, NzOz8. Found,%: C 60.03; H 6.13; N 11.83. Example 75 N-C5- (1-Methylpropyl) -1, 3,4-thiadiazol-2-yl -2,6 dimethoxybenzamide. T. square 137-140 ° C. Yield 27%. Calculated,%: C 56.06; H 5.96; N 13.07. C "H ,,, N, 0, S N 1 5 2 N N with d N N t d N N 30 lo 2, 35 N N qi 2, 45 N N 50 hl ad 55 N N Found%: C 56.27; H 6.03; 12.85. Example 76. L-G5- (1-Ethylmethylbutyl) -1,3,4-thiadiazol-2-yl} 6-dimethoxybenzamide. T. square 145-146C. Yield 15%. Calculated,%: C 59.48; H 6.93; 11, 56. C ,, Found,%: C 59.33; H 7.03; 11.49. Example 77. N-G5- (Cyclohexlmethyl) -1,3,4-thiadiazol-2-yl -2,6methoxybenzamide. T. square 152-154 ° C. Yield 54%. Calculated;%: C 59.81; H 11.63; S 8.87. C ,, E2, iJ,. Found,%: C 59.87; H 6.40; 11.34; S 8.62. Example 78 (2,2-flH Melbutyl) -1,3,4-thiadiazol-2-yl 3-2,6 methoxybenzamide. T. square 168-169 ° C. Yield 42%. Calculated,%: C 58.43; H 6.63; 12.02. С ,, Н, ЗКзОз8 Found,%: С 58.70; H 6.79; 11.77. Example 79 (1-Methylcycropyl) -1,3,4-thiadiazol-2-yl, -dimethoxybenzamide, T. square 197-198 ° C. Yield 41%. Calculated,%: C 56.41, j H 5.37; 3.16. C yH NjOjS. Found,%: C 56.19; H-5.25; 2.99. Example 80, H-C5- (1-Methyllopentyl) -1,3,4-thiadiazol-2-yl3-dimethoxybenzamide. T. PC. 218-220C. Yield 22%. Calculated,%: C 58.77; H 6.09; 2.09. . SchO. B Found,%: C 58.98; H 6.34 ;: 2.09. Example 81 (2,2-Dir-1-methylcyclopropyl) -1,3,4-thiazol-2 or 72, 6-dimethoxybenzamide. T. square 235. -236С. Exit 63%. Calculated,%: C, 46.40; H 3.89; 0.82. C, yN isCl. Found,%: C 46.66; H 3.64; 0.60. Example 82 N-t5- (1,2-flH Methylpropyl) -1,3,4-thiadiazol-2-yl 2, 6-dimethoxybenzamide, T. square 169-17GS. Yield 50%. Calculated,%: C 57.29; H 6.31; 5 N 12.53. C. ih N. OjS Found,%: C 57.29; H 6.02; N 12.37. Example 83 (one. 1-Dime-U-3-butenyl) -1,3,4-thiadiazol-2-yl V 2,6-dimethoxybenzamide. T. square 170-172 ° C. Exit 38%. Calculated,%; C, 58.77; H 6.09; N 12.09; S 9.23. 15 . Found,%: C 58.75; H 5.89; N 11.91; S 8.98. Example 84 (1-Etsh1-1methylpropyl) -, 3,4-thiadiazol-2-yl} - 20 2-chlorobenzamId. T. square 233-234C. Yield 49%. Calculated,%: C 55.63; H 5.60; N 12.98. . H, j CiNjOS Found;%: C 55.40; H 5.36; N 12.81. Example 85. L-5CH1-Ethyl-1methylpropyl) -, 3,4-tIadiazol-2-yl 2-methoxybenzamide. ZO T. square 114-11.5 ° C. Vkrd 25%. Calculated,%: C 60.16; And 6.63; N 13.16. . Found,%: C 59.96; H 6.42; jj N 13.05. Example 86 (1-Ethyl-1metshshropyl) -1,3,4-thiadiazole-2-yl 2, 6-dimesh1 benzamide. T. square 191-192 ° C. Yield 32%. 40 Calculated,% J C 64,32; H 7.30; N 13.24. C. Found,%: C 64.47; H 7.41; N 13.46. 45, PRI me R 87. (1-Ethyl1-methylpropyl) -1,3,4-thiadiazol-2yl3-2- (methylthio) benzamide. T. square 145-147C. Yield 62.1%. Calculated,%: C 57.28; H 6.31; 50 N 1-2,53; S 19.11. CuHj. Found,%: C 56.99; H 6.06; -N 15.50; S 19.35. . Example 88 H-3-CE Ethyl-55 cyclohexyl) -1,3,4-thiadiazol-2-yl 2,6-dimethoxybenzamide. T. square 222-224 ° C. Yield 25%. N N but I N qi 2, N N 1j yl N N, 4 s N N N among di iN Calculated,%: C 60.78; H 6.71; 11.19. Found,%: C 60.63; H 6.85; 10.92. Example 89 M-C5- (1,1-Diethyl) -1,3,4-thiadiazol-2-yl -2, b-ditoxybenz amide. T. square 210-212 ° C. Yield 61%. Calculated,%: C 60.45; H 7.21; 11.13. C „H2, S, Oz8 Found,%: C 60.47; H 6.94; 10.97. Example 90 (1,1,2-Tritylpropyl) -1,3,4-thiadiazl-2-ylJ6-dimethoxybenzamide. T. square 197-199 ° C. Yield 22%. Calculated,%: C 58.43; H 6.63; 12.02; S 9.18; C Hj NjOjS Found,%: C 58.66; H 6.43; 12.02; S 9.03. Example 91 (1-Ethylclopentyl) -1,3,4-thiadiazol-2-yl3-dimethoxybenzamide. T. square 226-228 ° C. Yield 62%. Calculated,%: C 59.81; H 6.41; 11.63; S 8.87. C jHyNjOjS Found,%: C 59.91; H 6.16; 11.71; S 9.08. PRI me R 92. (1-Ethylmethylpropyl) -1,3,4-thiadiazol-2 -2, 6-dichlorobenzamide. T. square 27b-277 ° C. Yield 39%. Calculated,%: C 50.28; H 4.78; 11.73; S 8.95; C1 19.79. C, jH ,, Cl, N, OS Found,%: C 50.52; H 4.54; 11.56; S 8.69; C1 20.03. PRI me R 93. K-5-Metsh1-1,3, thiadiazol-2-yl -2,6-dimethoxybenide. T. square 187-188 ° C. Yield 85%. Calculated,%: C 51.60; H 4.69; 15.04; CijH jNjOjS Found,%: C 51.72; H 4.50; 15.05. Example) 94. (Methoxytyl) -1,3,4-thiadiazol-2-W13-2.6 methoxybenzamide. T. Ш1. -164-166C. Yield 51%. Calculated,%: C 50.48; H 4.89; 13.58; S 10.37. C, 3H, jN, 0, S 27 Found,%: C 50.63; H 4.74; N 10.39. Example 95. (1-Methyl-propylbutyl) -1,3,4-thiadiazol-2yl -2, 6-dimethoxybenzamide. T. pl. 161-1b3 ° C. Yield 40%. Calculated,%: C 60.45; H 7.21 N 11.18; S 8.49. C, N, w, 5. Found,%: C 60.66; H 7.03; N 10.85; S 8.27. Example 96. N-C5- (1,1,2,2Tetramethylprop1p) -1,3,4-thiadiazol2-yl1-2, 6-dimethoxybenzamide. M.p. 245-247 ° C. Yield 51%. Calculated,%: C 59.48; H 6.93; N 11.56; S 8,82. C. Found,%: C 59.58; H 6.70; N 11.44; S 8.93. Example 97. (1-Ethyl1-methylpropyl) -1,3,4-t. Iadiazol-2yl -2, 6-dimethoxy-4- (trifluoromethyl) benzamide. M.p. 252-254 ° C. Yield 20%. Excess%: C C 51.79; H 5.31 N 10.07; S 7.68; F 13.65. C "N N30,5 Found,%: C 51.52; H 5.07; N 9.97; S 7.84; F 13.70, Example 98. (2-Chloro, 1-dimethylethyl) -1,3, -4-thiadiazol2-yl} -2, 6-dimethoxybenzamide. , T. pl. 202-204 ° C. Yield 69%. Calculated,%: C 50.63; H 5.06; N 11.81; S 9.00 С „Н ,, С1ЫЗО, 8 Found,%: C 50.86; H 5.14; N 11.90; S 8.59. Example 99. (1,1-Dimethylpentyl) -1, 3,4-thiazolol-2-ylJ2, 6-dimethoxybenzamide. M.p. 160-162 ° C. Vkod 30%. Calculated,%: C 59.48; N 11.56; S 8,82. S ,, H ,, H, Oz8 Found.%: C 59.69; H 6.77; N 11.34; S 8,81. I Example 100. N- 5-Cyclohexyl-1, 3,4-thiadiazol-2-yl -2,6 dimethoxybenzamide .. M.p. 206-208 ° C. Yield 55%. Calculated,%: C 58.77; H 6.09; N 12.09; S 9.23. C, TH ,, N, 0, S Found,%: C 58.48; H 6.30; N 11.85; S 9.42. 16093228 Example 101. (1,1-Dimethylbutyl) -1,3,4-thiadiazol-2-yl} 2, 6-dimethoxybenzamide. M.p. 167-169 ° C. Yield 45%. 5 Calculated,%: C 58.43; H 6.63; N 12.02; S 9.18. Found,%: C 58.65; H 6.79; N 12.25; S 8.87. Example 102. Y-C5-Cyclobutyl-1, 3,4-thiadiazol-2-yl -2,6-dimethoxybenzamide. M.p. 195-197 ° C. Yield 65%. Calculated,%: C 56,41; H 5.37; 5 N 13.16; S 10.04. G.yHnNjOjS Found,%: C 56.13; H 5.18; N 12.89; S 9.96. Example 103 M-5- (1-Ethyl 20 1-methylpropyl) -1,3,4-thiadiazole-2yl3-4-methoxybenzamide. T. pl. 138-140 ° C. Exit 63%. Higher,%: C 60.16; H 6.63; N 13.16; S 10.04. . C ,, H2, CRW, 5 Found,%: C 59.90; H 6.47; N 13.10; S 9.82. Example 104. (1-Ethyl1-methylpropyl) -1,3,4-thiadiazol-230 or 2-2,4,6-trimethoxybenzam. T. pl. 183.5 ° C. Yield 65%. Calculated,%: C 56.97; H 6.64; N 11.07; S 8.45. C ,, 35Found,%: C 57.15; H 6.63; N 11.86; S 8.38. Example 105. (1-Pipsh1cyclohexyl) -, 3,4-thiazolol-2-Wl2, 6-dimethoxybenzamide. T. pl. 190-192 ° C. Vkod 56%. Calculated,%: C, 61.67; H 6.99; N 10.79; S.8.23. C ,, H ,, N, 03S Found,%: C 61.46; H 6.76; N 10., 53; S 8.44. Example 106. N-C5- (1,1,2Trimethyl-2-butenyl) -1,3,4-thiadiazol2-yl -2, 6-dimethoxybenzamide. M.p. 215-216 ° C. Yield 60%. Calculated,%: C 59.81; H 6.41; N 11.63; S 8.87. Found,%: C 59.54; H 6.14; N 11.56; S 8.80. Example 107. (1,1,2-TpH methylbutyl) -1,3,4-thiadiazol-2-yl -2.6 dimethoxybenzamz. 29 m.p. 181-183 ° C. Yield 69%. Calculated,%: C 59.48; H 6.93 N 11.56, S 8.82. - C .. Found. %: C 39.46; H 6.61; N 11.36; S 8.32. Example 108. (1,1,3 methylbutyl) -1,3,4-thiadiazol-2-yl 2,6-dimethoxybenzamide. M.p. 195-197 ° C. Yield 66%. Calculated,%: C 59.48; H 6.93 N 11.56. ..S C 59.40; H 6.77; Found,% 11.58. Example 109. (1,1-D Methylpropyl) -1,3,4-thiadiazol-2-and 2,6-dimethoxybenzamide. M.p. 227-229 ° C. Yield 67%. Calculated,%: C 57.29; H 6.31 N 12.53; S 9,56. C ,, E, SCHO, 5 Found,%: C 57.09; H 6.03; 12.27; S 9.76. Example 110. N-5-Phenylthyl-1,3,4-thiadiazol-2-yl -2,6-di-toxibenzamide. M.p. 190-192 ° C. Yield 80%. Calculated,%: C 60.83; H 4.32 11.82; S 9.02. . Found,%: C 60.78; H 4.86; 12.05; S 8,88. Example 111. N-L5- (1,1 methylethyl) -, 3,4-thiadiazol-2-yl, 2,6-dimethoxybenzamide. Calculated,%: C 56.05; H 12.07. CtifH.aNjO.S C 55.81; H 5.981. Found, N 12.10. Example 112. (1-These 1,2,2-trimethylpropyl) -, 3,4-thia azol-2-yl3-, 6-dimethox ibenzamide m.p. 254-256 ° C. Yield 56%. C, 60.45; H 7.21 Calculated, 11.13; S 8.49. 19 2i 3 Found: C, 60.33; And 7.02; N 10.95; S 8.80. Example 113. N- 5-Cyclop thyl-, 1,3,4-thiadiazol-2-yl -2,6-di toxibenzamide. M.p. 18b-18gs. Yield 72%. %: C 57.64; H 5.74. Calculated. N, 12.60. CH, S 2 30 C 57.70; H 5.87; Found 12.37. Example 114. (1,1-Dimethyl) -1 H-pyrazol-5-yl -2,6-dimethoxybenzamide. Preparation of 3- (1,1-dimethylethyl) 5-amino-1H-pyrazole. A suspension of 9.6 g of sodium hydride in 300 ml of tetrahydrofuran is stirred at 60 ° C with a mixture of 23.2 g of methyl trimethyl acetate and 8.2 g of acetonitrile added in one portion. The reaction mixture is heated at reflux for 5 hours and then cooled to room temperature and concentrated by distilling off the solvent under reduced pressure. The product thus obtained is dissolved in water and washed with dichloromethane. The aqueous layer was acidified with hydrochloric, hydrochloric, acid, and the acidic solution was extracted with fresh dichloromethane. The organic extracts are combined, washed with water, dried, and the solvent is distilled off to obtain 14.0 g of cyanomethyl tert-butyl ketone. The ketone thus obtained is dissolved in 150 ml of ethanol, containing 32 g of hydrazine. The reaction mixture is heated under reflux for 12 hours and then cooled to room temperature. Removal of the solvent by distillation under reduced pressure gives a solid residue, triturated with 250 ml of petroleum ether, filtered and dried in air and identified as 12.5 g of H-tert-butyl-5-amino-1H-pyrazole. T. pl. 72-74 ° C Acylation of aminopyrazole 2,6-dimethoxybenzoyl chloride. To a stirred solution of 1.39 g of 3-tert-butyl-5-amino-1H-pyrazole in 50 ml of benzene, 2.01 g of 2,6-dimethoxybenzoyl chloride are added in one portion. The reaction mixture is heated at reflux for 16 hours. The reaction mixture is then cooled, filtered and the solvent is removed from the filtrate by distillation. The residue is crystallized from ethyl acetate to give 550 mg of N-t3- (1,1-dimethylethyl) -1H-pyrazol-5-yl J-2,6-dimethoxybenzamide. M.p. 176-178 ° C. Yield 18%. Mass spectrum. M - theory: 303; found: 304. NMR (DMSO-dt), f: 1.35 (s, 9H, t-butyl); 3.76 (s, 6H, CHjO) j 5.7 7.4 (m, 5H, aromatics); 10.9 (s, 1, KH-amide) ,. Calculated,%: C 63.35; H 6.98; N 13.85. C ,, H ,, N, 0, Found,%: C 57.39; H 6.34; N 14.41. In accordance with the general procedure of Example 114, the following are prepared by N-p razolyl benzamides. Example 115. N-C3-CHEtil1-methylprutyl) -1H-pyrazole-5-nl -2, dimethoxybenzamide. M.p. 222-223 ° C. Exit 38%. Calculated,%: C 65.23; H 7.60; N 12.68. C ,, N ,, S, Oz C 65.08; H 7.61; Found,%: N 12.50. 116. (1,1-Di Example of methylbutyl) -1H-pyrazol-5-yl1-2,6-d methoxybenzamide. T. Sh1. 211-213 ° C. Yield 27%. . Mass spectrum. M - theory: 330; found: 331. NMR (CflClj), f: 0.7-1.6 (m, 13H 1,1-dimethylbutyl); 3.81 (s, 6H, CH, 0); 6.51-6.77 (m, 3N, benzoyl aromatics); 7.2-7.5 (m, 2H pyrazo on aromatics); 7.8-8.1 (broad with l, 1H, amide NH). Calculated,%: C 65.23; H 7.60; N 12.68. ., C 65.34; H 6.79; Found,% N, 8.44. Example 117. (1,1-Dim tylpropyl) -1H-pyrazole-5-sh13-2,6-di-methoxybenzamide. M.p. 235-237 ° C. Yield 37%. Calculated,%: C 64.33; H 7.30; N 13.24. GLOZ C 64.20; H 7.03; Found% N 12.99. Example 118 (1-3Tmi1-methylpropyl) -4H-1,2,4-triazol-3 yl} -2,6-dimethoxybenzamide. , Preparation of 5- (1-ethyl-1-methylprop of 3-amino-4H-1,2,4-triazole. To a stirred solution of 13.1 potassium hydroxide in 40 ml of water, add a solution of 8.4 g of dicyanidamide in 50 drops ml of acetone. Then the reaction mixture is cooled to 5 ° C, after which 14.0 g of 2-ethyl-2-methylbutyrylchloride are added dropwise over 10 minutes. After the addition, the reaction mixture is stirred at 5 ° C for 15 minutes and then diluted water is added to 600 MP. The aqueous mixture is acidified to pH 5.5 with glacial acetic acid, resulting in a white precipitate. The precipitate is collected, filtered The mixture is washed with water and air dried to give 5.45 g of H- (2-ethy-1-2-methylbutyryl) -dicyanediamide. The product thus obtained is suspended in 35 ml of water and stirred while adding 1.1 g of a solution in one portion. hydrazine in 25 ml of 2-ethoxyethanol. The reaction mixture is boiled for 45 minutes and then cooled to room temperature and stirred for 12 hours. The resulting precipitate is collected by filtration and dried at 90 ° C for 2 hours to obtain 2.65 g ( 1-ethyl-1-metppropyl) -4H-1,2,4-triazole-3-sh1-urea. The pyrazolyl urea thus obtained is added to 30 ml of water containing 3.0 g of sodium hydroxide. The reaction mixture is heated at reflux temperature for 12 hours, then strongly acidified (pH 2.0) with nitric acid. The precipitate formed is collected by filtration when the mixture is in a hot state. After air drying the precipitate, it is identified as 2.65 g of 5- (1-ethyl-1-methyl-propyl) -3-amino-4H-1, 2.4-triazole as a salt of nitric acid. M.p. . The salt thus obtained is dissolved in water and diluted with ammonia to a pH of 8. The solvent is then distilled off and the residue is triturated from 25 mp of acetonitrile to obtain 1.1 g of 5- (1-ethyl-1-methylprop-3) amino-4H -1,2,4-tri-azole. A solution of 1.1 g of triazole and 1.43 g of 2,6-dimethoxybenzosil chloride in 75 mp of toluene is reacted at the boil under reflux for 16 hours. The reaction mixture is cooled to room temperature, and the solvent is distilled off under reduced pressure to obtain gums which are chromatographed on a sipicagel column, eluting with 50% ethyl acetate in hexane. The fractions for which the iTCX analysis indicates the presence of the product are combined, and the solvent is distilled off to give 175 mg (1-e-1-methylpropyl) -AN-1,2,4-triazol-3 or 7-2.6 dimethoxybenzamide. M.p. 279-280 ° C} Yield 8%. Calculated,%: C, 61.45; H 7.23; N 16.87. C ,, H ,, N, 03 Found,% C 60.94; H 7.14; 15.99. M-theory: 332; Mass spectrum: found: 333. Example 119. 2,6-Dimethoxybenzoyl chloride was introduced into the reaction with 3-amino-1H-1,2,4-triazole by the procedure of Example 118 to give N- (1H, 1.2.4 -triazol-3-yl) -2,6-dimethoxybenzamide. M.p. 191-193C. Example 120. K-C3- (1,1-Dimethylethyl) -5-isothiazolig -2,6-dimethoxybenzamide. Preparation of 3- (1,1-dimethylstil) -5-amino-isothiazole. A mixture of 50.0 g of cyanometyp-tert-buti ketone in 250 ml of ethanol containing 200 ml of ammonia is heated at 150 ° C. within 16 hours. The reaction mixture is cooled to room temperature, and the solvent is distilled off under reduced pressure. The residue is dissolved in 330 ml of dichloromethane and diluted with 0.7 g of potassium hydroxide and 52 cl of hydrogen sulphide. The reaction mixture is heated at 80 ° C for 24 hours, then cooled and concentrated to dryness by distilling off the solvent. The product is identified as 71 g of 2.2 dimethyl-3-amino-3-butenyl thiocarboxamide. 800 mg of the product thus obtained is dissolved in 25 ml of ethanol containing 5 ml of 30% hydrogen peroxide. The reaction mixture is stirred for 20 minutes and then concentrated to dryness by evaporation to obtain 3- (1,1-dimethyl-ethyl) -5-amino-iso-isoisol. A solution of 5-aminoisothiazole and 1.1 2,6-dimethoxybenzoyl chloride in 50 ml of toluene is heated under reflux for two hours, during which time a precipitate forms. The precipitate was collected by filtration and dried to give 340 mg of N-C3- (1,1-dimethylethyl) -5-isothiazolyl -2, 6-dimethoxybenzamide. M.p. 266-267 C. V'kod 30%. 11 Calculated,%: C 59.98; H 6.29; N 8.74. CuH; ,, N, 0, S Found,%: C 59.71; And 6.15; N 8.74. Example 121; (1-Ethyl1-methylpropyl) -5-isothiazolyl -2,6 dimethoxybenzamide is obtained according to the procedure of Example 120. M.p. 243-244 ° C. The output is Calculated,%: C 62,04; H 6.94; N 8.04. CiftHj NjOjS Found,%: C 62.21; H 6.73; N 8.24. Example 122. (1,1-Dimethylstil) pyridazin-3-yl -2,6-dimethoxybenzamide. Preparation of 3-a.mino-6- (1, 1-dimethylethyl) pyridazine. A mixture of 5.8 g of 3-chloro-6- (1,1-dimethyl) pyridazine in 100 ml of liquid ammonia is heated in a bomb at 200 ° C for 24 g. The reaction mixture is cooled to room temperature and filtered, and the solvent is removed from the filtrate by distillation under reduced pressure to obtain a black oil. The oil is chromatographed on silica gel, diluted with ethyl acetate and benzene. Combi-. suitable fractions are distilled off, and the solvent is removed by distillation to obtain 2.08 g of 3-amino-6- (1,1-dimetztil) pyridazine. M.p. 125-132 ° C. Calculated,%: C 63.54; H 8.67; N 27.79. C, 63.74; H 8.49; Found, N 27.53. A solution of 600 mg of 2,6-dimethoxybene. Zoyl chloride in 100 ml of toluene, containing 500 mg of 3-amino-6- (1,1-dimethylstil) pyridazine, is heated at the boil under reflux for 21 hours. The reaction mixture is cooled to room temperature and the precipitate formed is collected by filtration. The solid product is chromatographed on silica gel, pered with ethyl acetate. Analysis by thin layer chromatography of the main product shows that a very small amount of the bisatilated product is formed. The mixture is dissolved in S 10 ml of ethanol and 10 ml of 2N. sodium hydroxide and the alkaline solution is heated for 2 hours at reflux temperature. The reaction mixture is cooled and acidified by the addition of 1N. hydrochloric acid. The resulting precipitate is collected by filtration and recrystallized from hexane to give 49 mg of Jinjynji no. N-r6- (1,1-dimethylethyl) -pyridazin-3; yl} -2, 6-D1 dimethoxybenzamide. M.p. 163-165 ° C. Yield 5%. I calculated%:. 61.99j H 6.50 ;, IN 13.32. , С, Н ,, ЫЗО, Found,%: С 64.95; H 6.41; N 13.28. Mass spectrum: M-theory: 315; found: 315. By reacting an appropriately substituted benzoyl halide with arylamine, several following additional compounds are obtained. Example 123. (1-Ethyl1-methylpropyl) -1,3,4-thiadiazol-2-yl} 2, 6-di (methylthio) benzamide. M.p. 194-195 ° C. Yield 42%. Calculated,%: C 53.51; H 6.08; N 11.01; S 25,21. Ci-, H, 3N, OS3 Found,%: 53.65; H 6.12; N 10.80; S 25.40. Example 124. (1-Ethyp1-methylpropyl) -1,3,4-thiadiazol-2yl -2-methoxy-6-methylthiobenzamide. M.p. 184-185 ° C. Yield 44.7%. Calculated,%: C 55.86; H 6.34; N 11.50; S 17.54. Found:%: 55.93; H 6.17; N 11.23; S 17.37. Example 125. (1-n-Propyl cycle opentyl) -1,3,4-thiadiazol-2yl -2, 6-dimethoxybenzamide. M.p. 181-183 ° C. Yield 56.5%. Calculated,%: C 60.78; H 6.71; N 11.09; S 8.54. CijH sNjOjS Found,%: C 61.08; H 6.76; N 11.40; S 8.29. Example 126. (1-Methylethenyl) -cyclohexyl} -1,3,4-thiadiazol2-ylJ-2, 6-dimethoxybenzamide, T. Sh1. 226-228 ° C. Yield 53%. Calculated. %: C, 64.74; H 6.71; D; N 10.84; S 8.27. CioHisNjOjS Found,%: C 62.20; H 6.52; N 10.55; S 8.04. Example 127. (1-H30propylcyclohexyl) -1,3,4-thiadiazol-yl -2, 6-dimethoxybenzamide, 1160932 N 5 N 1, az 10 N 5 N 122Q, t N 25 N etu 30 N 35 N pi me NN from T. from T. NN 5T. 36 m.p. 224-226 ° C. Yield 53.6%. Calculated,%: C, 61.67; H 6.99; 10.79; S 8.23. Found,%: C 61.47; H 6.75; 10.53; S 8.21. Example 128. H-C5- (1-Ethyl2-dimethyl-2-propenyl) -1,3,4-thiadiol-2-yl -2,6-dimethoxybenzamide. M.p. 207-209 ° C. Yield 10%. Calculated,%: C 59.81; H 6.41; 11.63; S 8.87. C “H, 3N, 0, S Found,%: C 59.65; H 6.40: 11.56; S 9.02. Example 129. K-G5- (1-Ethylmethylpropyl) -1,3,4-thiadiazol-2-ylZmethoxy-5-trifluorometh-1-6 methylbenzamide. So pl. 224-225 ° C. Yield 26.2%. Calculated,%: C 49.84; H 5.12; 9.69; F 13.15; S 14.79. , 0, S, Found,%: C 49.65; H 4.92; 9.90; F 13.40; S 14,81. Example 130 (1-Methyl) -1,3,4-thiazolol-2-ylJ-2,6-ditoxybenzamide. M.p. 164-166 0. Yield 29%: Calculated,%: C 54.72; H 5.54; 13.68; S 10.42. C -, 9Hi, NjO S, Found,%: C 54.65; H 5.52; 13.62; S 10.90. Example 131. H-5-Cyclopro-1, 3,4-thiadiazol-2-yl 3-2,6-diotobenzamide. M.p. 194-196 ° C. Yield 52%. Calculated,%: C 55.07; H 4.95; 13.76; S 10.50. Found,%: C 55.37; H 5.18; 13.66; S 10.29. Example 132. K- (3-Ethyl-5oxazolyl) -2,6-dimethoxybenzamide. square 132-134 ° C. Yield 57%. Example 133. K- (3-Methyl-5oxazolyl) -2,6-dimethoxybenzamide. l 155-158 ° C. Yield 70%. Calculated,% C 59,54; H 5.38; 10.68; About 24.40. CyH, 4N, 0; Found,%: C 59.85; H 5.67; 10.40; About 24.63. Example 134. N- (3-n-Hexylzoxazole1) -2,6-dimethoxybenzamide L. 119-121C. 37 Calculated,%: C 65.04; H 7.28; N 8.43. CI .. Found,%: C 64.92; H 7.43; N 8.16. Example 135. N- (3-3THn-5isoxazolyl) -2,6-dimethoxybenzamide m.p. 132-134 ° C. Yield 56.6%. Calculated, I: C 60,86; H 5.84; N 10.14. C ,, H ,, N, 0, Found,%: C 60.77; H 5.81; N 10.03. Example 136. (1-Ethyl1-methylpropyl) -1,3,4-oxidiazol-2il3-2, 6-dimethoxybenzamide. M.p. 190-192 ° C. Yield 16%. Calculated,%: C, 61.36; H 6.91: N 12.61. SL "2G" ZOZ Found;%: C 61.99; H 6.84; N 13.29. P. and Mer. 137. H-C3- (1,1-Dimtylethyl) -1,2,4-thiadiazol-5-yl -2.6 dimethoxyZenzamide. M.p. 180-182 ° C. Yield 65.7%. Calculated,%: C 56.06; H 5.96; N 13.07; S 9.98. C, rH, N, 0, S Found,%: C 56.07; H 5.72; N 12.89; S 10.25. Example 138. (1,1-Dime tylethyl) -1,2,4-oxadiazol-5-yl3-2 dimethoxybenzamide. M.p. 207-209 ° C. Calculated,%: C 59.01; H 6.27; N 13.76. C ,,, H ,, N, 0,. Found,%: C 59.18; H 6.49; N13.85. PRI me R 139. N-t3- (1-Ethyl-methyl-propyl) -5-isoxazol-J-2,3 tri-benzobenzamide. M.p. 167-1b8s. Calculated,%: C 29.56; H 2.64; N 4.31. 1 C.H JsNjO, Found,%: С 29.80; H 2.79; N 4.29. Example 140. (1-Ethyl methylpropyl) -5-from oxazoyl -2,6-di methyl thiobenzamide. M.p. 114-116 Yield 21%. Example 141. N-t. 3- (1-Methyl methyl-1-methylpropyl) -5-isoxazolyl 2,6-dimethoxybenzamide. M.p. 164166 ° C. Yield 34%. Example 142. (1-Ethyl 1-methylpropyl) -4-methyl-5-isoxazo 238, 6-dimethoxybenzamide. M.p. 179-180 ° C. Yield 37%. Example 143. (1-Ethyl-1methylpropyl) -1,3,4-oxadiazol-2-yl3, 6-dimethoxybenzamide. M.p. 190192 ° C. Yield 2%. Example 144. (1-Methylcyclobutyl) -1,3,4-thiadiazol-2-yl 2, 6-dimethoxybenzamide. M.p. 218220 ° C. Yield 50%. Example. 145. (1,1,2-Trimethyl-2-propenyl) -1,3,4-thiadiazol2-yl -2, 6-dimethoxybenzamide. M.p. 236-238 ° C. Yield 66%. Example 146. 3-BpoM-N-5 (1-ethyl-1-methylpropyl) -1,3,4-thiadiazol-2-ylJ-2, 6-dimethoxybenzamide. M.p. 163-165 ° e. Yield 35%. Example 147. L-H5- (1,1-Dimethyl-2-propenyl) -1,3,4-thiadiazol-2-yl 2,6-dimethoxybenzamide. M.p. 225,228 ° C. Yield 52%. Example 148. N- (5-Cycloheptyl-1, 3,4-thiadiazol-2-yl) -2,6-dime, toxibenzamide. M.p. 213-215 ° C. Yield 80%. Example 149. (1-Ethyl1-methylpentyl) -1,3,4-thiadiazol-2-yl} 2, 6-dimethoxybenzamide. M.p. B1 ° C. Yield 49%. Example 150. (1-Ethyl-1-propyl-butyl) -1,3,4-thiadiazol-2-yl-3, 6-dimethoxybenzamide. M.p. 216218 ° C. Yield 48%. Example 151. (1-Ethyl. 1, 3-dimethylbutyl) -1,3,4-thiadiazole-2-Sh1 -2, 6-dimethoxybenzamide. M.p. 166-168C. Yield 18%. Example 152. (1-Ethyl1-methylhexyl) -1,3,4-thiadiazol-2yl -2, 6-dimethoxybenzamide. M.p. 107-109 ° C. Yield 37%. Example 153. (1-3Tmi1, 2-dimethylpropyl) -1,3,4-thiadiazol2-yl -2, 6-dimethoxybenzamide. M.p. 205-207С. Yield 29%. Example 154. (1,1-Dimethyl-2-methoxypropyl) -1,3,4-thiazolol-2-yl} -2, 6-dimethoxybenzamide. M.p. 202-203 C. Yield 25%. Example 155. H-.5- (1-Meth1-thio-1-methylpropyl) -, 3,4-thiadiazol2-yl -2, 6-dimethoxybenzamide. M.p. 223-224 ° C. Yield 52%. Example 156. N-5-C1-Ethyl 1, 2-dimethylbutyl) -1,3,4-thiadiazol2-yl 3-2, 6-dimethoxybenzamide. M.p. 197-199 ° C. Yield 15%. Example 157. (1-Ethyl1-methylpropyl) pyridazin-3-yl -2,6 dimethoxybenzamide. M.p. 145-147 ° C. Yield 68%. Example 158. (1-Ethylcyclohexyl) pyridazin-3-yl J-2,6 dimethoxybenzamide. Example 159. (1,1-Dimethoxymethyl) ethyl-3-isoxazolyl 2,6-dimethoxybenzamide. M.p. 164166 ° C. Yield 77%. Example 159A. (1,15-s-Acetoxymethyl) -ethyl-1,3,4-ti-. adiazol-2-yl -2,6-dimethoxybenzamide T, pl. 115-125 C / S /. Yield 3%. Example 160. (2-MeTnn1, 3 -dithian-2-yl) -1,3,4-thiadiazol2-yl -2, 6-dimethoxybenzamide. M.p. 259C. Yield 2%. Example 161. (2,2-Dichloro-1, 1-dimethylethyl) -1,3,4-thiadi azol-2-yl 3-2,6-dimethoxybenzamide. M.p. 211-213C. Yield 33%. Example 162. (1,3-Ditian-2-yl) -1,3,4-thiadiazol-2-ylJ2, 6-dimethoxybenzamide. M.p. 200208 ° C. Yield 60%. Example. 163. (1,1Dimethylethyl) -2-imidazolyl-2,6-dimethoxybenzamide. Preparation of 2-amino-5- (1,1-dimethylethyl) -imidazole. . To a stirred solution of 6.8 g of aminomethyl- (1,1-dimethylethyl) ketone as the hydrochloride salt in 30 ml of water is added in portions 5.0 g of cyanamide. The pH of the reaction mixture was adjusted to 6.0 by the addition of 1N. sodium hydroxide, and then the mixture is heated to 90 ° C and stirred for 35 minutes. Thereafter, the reaction mixture is cooled to room temperature, diluted with 100 ml of water, and extracted several times with diethyl ether. The aqueous layer is alkalinized with ammonium hydroxide and again extracted several times with diethyl ether. The alkaline extracts are combined and concentrated to a dry residue to give a solid. In this way, the resulting residue is dissolved in 20 ml of 6N. hydrochloric acid and heated for 16 h at boiling under reflux. The reaction mixture is cooled, concentrated to an oil by distilling off the solvent, and the oil is dissolved in water, followed by basification to pH 8, .5. The alkaline mixture is extracted several times with diethyl ether. The ether | extracts are combined, washed with water, dried and the solvent is distilled off. 5 under reduced pressure to obtain 0.5 g of 5- (1,1-dimethylethyl) -2-amino-imidazole. NMR No. CO-d4,), 1.17 (s, 9H, tert-butyl); 5.47 (NH, NH); 6.1 (s, 0 1H, aromatics). A mixture of 0.5 g of the thus obtained 2-aminoimidazole and 0.72 g of 2,6 dimethoxybenzoyl chloride in 50 ml of benzene is left to boil for 16 hours at the boil with S reflux. The reaction mixture is then cooled and the solvent is distilled off under reduced pressure. The product is dissolved in 25 ml of ethanol, and the solvent is again distilled off. 0 under reduced pressure to obtain an oil. The oil is purified by preparative thin layer chromatography to obtain 25 mg of (1 1-dimethylethyl) -2-imidazole -2,6-dimethoxy5 benzamide. M.p. 170-173 S. NMR (.DMSO-dJ, G: 1.2 (s, 9H, tert-butyl); 3.74 (s, 6H, methoxy); 6.38-7.41 (m, 5H, aromatics). Example 164. (1-Ethyl1-methylpropyl) -1,3,4-thiadiazol-2-yl 2, 6-dimethoxybenzenecarbothioamide. (1-Ethyl-1-methylpropyl) -1,3,4 thiadiazol-2-yl J-2, 6-dimethoxybenzamide (5 g, 0.014 mol) are suspended 5 in dioxane (75 mp). Pentasulfide phosphorus (4.7 g; 0.21 mol) was added to the suspension, and the reaction mixture was heated under reflux for 3 hours under a nitrogen atmosphere. Mixture then cooled and filtered. Mother-. The solution was then poured into water (200 ml), and the yellow precipitate formed with stirring (1.h) was filtered off. The material thus obtained is purified using high pressure liquid chromatography. M.p. 202-204 ° C, yield 17.6%. Example 165. (1-Ethyl 1-methylpropyl) -5-isoxazolyl -2,6 dimethoxybenzenecarbothioamide. (-1-Ethyl-1-methylpropyl) -5isoxazolyl, 6-dimethoxybenzamide (6.0 g; 0.018 mol) and toxiphenylthiophosphine sulfide dimer (Leyusson's reagent) (7.28 g; 0.018 mol) are suspended in toluene (150 ml) and stirred the mixture is heated under reflux. Initially, the mixture forms a clear yellow solution, and then as the reaction progresses, it becomes orange, and at this point the solution is cooled to room temperature and the toluene is distilled off in vacuo. Methylene chloride is added to the solid precipitate which forms herewith, and the mixture is filtered. Evaporation of the filtrate in vacuo gives a reddish orange viscous oil. This oil is placed on a dry-packed silica gel column (500 g) and the column is eluted with methylene chloride. The first component to be eluted is the isomer, a derivative of the Leyusson reagent. The next component is the desired product, which is selected as a yellow liquid. The desired product fractions are combined, the solvent is distilled off in vacuo, after which the target product is crystallized as a yellow solid, mp 110112 ° C, yield 4.1 g. Example 166. (1,1-Dime toxiimethyl) ztil-3 -isoxazolyl-2, 6-dimethoxybenzamide, sodium salt. (1,1-Dimethoxymethyl) ethyl-3-isoxazolyl-2-2, 6-dimethoxybenzamide (3.64 g, 0.01 mol) is dissolved in tetrahydrofuran (75 ml) at room temperature under a nitrogen atmosphere. Sodium hydride (0.432 g, 0.009 mol) is added to the solution in portions with stirring. The reaction mixture is stirred to technical pressure until the desired product is discharged as a white solid. After the standard treatment and drying under vacuum (hygroscopic material), 2.25 g of sodium salt is obtained. M.p. hydrated product 82-84C. Example 167. (1-Ethyl1-methylpropyl) -3-isoxazolyl 3-2.6 dimethoxybenzamide, sodium salt. The target product is obtained by analogy using as a solvent a mixture of 1: 1 ethylene dichloride and dry diethyl ether. TGO1. 218-220 ° C; yield 83%. The benzamide derivatives of Formula I exhibit herbicidal activity against a variety of weed species commonly found in areas used to grow crops such as crops, and the like. The selective herbicidal activity of the compounds has been analyzed in a variety of greenhouse and field trials. One such test is a broad spectrum greenhouse test, which is carried out when filling square plastic pots of sterilized sandy-loamy soil and planting seeds, rosicka blood and schiritsa. Each pot was fertilized with 158 mg of fertilizer 23-21-17 four days before treatment with the test compound. The test compounds were formulated to be dissolved by dissolving each compound in a solution of 100 ml of acetone and 100 ml of ethanol, as well as 1.174 g of Toximul R and 0.783 g of Toximul S (proprietary blends of anionic and non-ionic surfactants produced by Stepan Chemical Company, Northfield, Illinois). Each test compound was dissolved in a diluent at a flow rate of 20 mg per 2 ml of solvent, and then the solution was diluted to 8 ml with deionized water. The compound composition is applied to seedling pots at a rate of 15 pounds per acre (16.8 kg / ha). Test compounds are used for post-harvest treatment of some seed pots, and for pre-harvest processing of others. Post-emergence treatment is carried out by spraying a solution containing the test compound for a day after 12 days after planting the seeds of the plant. Pre-emergence processing is performed by spraying the soil one day before planting seeds. After treatment with the test compounds, the pots are placed in a greenhouse and moistened as needed. Observations were made 10–13 days after application of the test compounds, and untreated control plants were used as a standard in each observation. The degree of herbicidal activity of the tested compounds is determined by assessing the state of the treated plants on a scale of 1 to 5. When using this scale, 1 corresponds to the absence of damage to the plant; 2 - weak defeat; 3- moderate plant damage; 4- severe damage, -5 - destruction of the plant or lack of seedlings. The type of plant damage is given in table. 1 using the following legend: A leaf fall; In burn; With chlorosis; D destruction; E zpinasti; .fO F effect on ability to develop; G dark green color; I enhanced plant growth; L local necrosis; 15 244 N no germination; P purple pigmentation; R weakening germination; S short stature; and unclassified lesion,. Compounds causing damage to plants, defined by a score of 4 or 5, are considered very active, while compounds with a score of 2 or 3 are considered moderately active. In tabl; 1 presents data on the herbicidal activity of typical benzamides suggested when using a wide spectrum ispngan method. T. a b e c i 1 Continued tabl, 1 A similar greenhouse study was conducted using seven types of seeds to further evaluate the pre-emergence and post-emergence herbicide; Noah activity proposed benzamide derivatives. Compounds to be evaluated are formulated as per the procedure described, except that about 4 g / 100 ml of the compound is dissolved in the surfactant-containing solvent and about 1 part of the organic solvent is diluted with 12 parts of water before application to treat the tanks with high seed. Compounds were applied at an effective flow rate of 8 lb / acre (19.0 kg / ha). The test results are presented in table 2, COCS - M - -f 0 f C f f CO OfOinCsl - J - 4 - CM CMfO- M-CMtM Ю r- CMTCS., - T- CO СЧСО - to - , in in fo Yu Yu Yu in, - ovi - - - m CO sf-aShm-T-r-T-cncM - CM SL -CM PR vO 00, 0 o -. "C0 vO CM CO GOCV) CN SCSIfO SCh CM CO fO "-CM -" N1- CM (Mr-v GO CO sl cs m GO) m CM -C JCMCM CO 1LCO “S tnT- m CO in "M CO ,; {4-1 -CO - fCOrO in CM m 1L in ICAAP in in V in - 0 -a- CO CM f f cm - Cv | 1L cocMiAt- "- 1LP GO SPsm1 th COCN | M -C4) r-rOCMCS | and-1 L-sms4 G- cMCMCsl - - - inm - SO - th -r-SChGO - -t- -1LSh co - cm - - -cs ChGCHOOoot -g SOO about -skgo G1L CMCM, cOrorO4rst - iriiO «AiOinu sch ri Mr. CN CM - - I I-Itt-cm t-1L go are - - in - - y - cm .- t- cm -t-fO- f fCMCMr -COrOCS - - rO-CMCO ..- t -.- SCh-T-: -1- CN cs | «-« - CM - - - -, - U-) T-r-ID-iri CMCMCNCMCMCM go : -СМ1Л-ОСМЧ- - fCMCM ---- r-CMto n 1Лiri d Ю Ш ШУСМ- t CM , -r-in - r- CS - - .- - CO voi 00 a - cMoo vo r- 00 cT about 1Lg- " R | U1 About vOiX) vC O vO vO ChoG RN f-smCNCN, -СМСМ - tS- СМ-СМ -CN ACMrOCNfOCMincS- - CM - mcocs | cv | trocM- --- M CN CS CS T- (N4 IT -, - u ,,,, (g WITH “- -CMCNI -fOrO - -h-tMGO-r- -f r-, -, - -es N - -cofOt- " T-T-rO- “MrO- -r- S f- .rO "nin t- -HGSOLSO t -, -} - - - -GO1Л - r r oo oo oo oo 00 oo 00 oo oo o t- (L "t-th SOGO -4JC gfO p A - “l fO 1- fO “r 41- in o o o -cm . 1-fSIt-fO - -fO - - f fo 61116093262 From tab. 2, it follows that the N-arylbenzamide of formula 1 is produced in various forms during the greenhouse. To determine the higher herbicidal activity — the herbicidal selectivity, the pre-emergence and post-harvest connectivity use somewhat more seed treatment than their close 5 × 1X species of weed and cultivated plants similar in structure and action. Compound based drug derivatives of l -phenoxybenzamide - prepared in the described manner and using Compound A and B. is prepared for pre-emergence treatment The herbicidal activity of a series of results for some compounds of the benzamide derivatives of formula 1 estimated by formula I are presented in Table 3. 4 1 one 0.5 2 1 0.25 1 1 1 3 1 0.5 1 1 1 1 1 1 0.25 one 0.5 0.25 four one one 1 2 2 1 four 2 2 2 one one 0.5 1 1 2 1 1 1 1 1 1 1 1 1 0.25 four one 0.5 0.125 pots with sprouted seeds. Fe1 2 5 five 35 five one 5 5 5 five 32 4 4 five five one l 23 one 3 1 2 3 1 1 1 4 4 4 one 5 5 12 1 1 4 4 1 1 1 4 2 1 one eleven 5 5 eleven one one eleven .4 5 3 5 5 4 eleven one . eleven one eleven one 3 12 one 11 1 12 one 1 1 4 2 2 1 12 3 1 1 3 2 2 1 4 5 5 5 5 eleven one 22 1 22 1 21 1 1 11 63 1160932; 64. Continued table. 3 65 116093266 ., "-P20. Table 2 ..... J .... l..i.iJ.L.l ... J.J ... j..I .. 67 .116093268 Prod tition tdbl, 3 691160932. . ° Continued table. 3 71 116093272. Continued table. 3 ni3- Z ZniII LnZJl n l Lni 73 T Continuation of table. 3 1160932 75 OediRaskhod. (EzhovMar Rosichpunt / acre IHHK protein ka (1.12 pu / kg / ha) T 1 5 3 1 5 3 1 0.5 five 14 five 0.25 5 5 3 2 3 3 1 15 0.5 five 2 one 0.25 5 5 14 1 4 1 sixteen 0.5 5 5 2 1 1 1 0.25 17 1 4 3 3 2 1 1 5 4 4 4 4 4 2 1 1 5 3 3 5 5 5 5 5 4 5 5 5 0.5 0.25 1 21 0.5 0, Ya5 1 23 0.5 0.25 4 1 5 5 0.125 1 1 1 24 2 2 2 2 2 1 1 5 5 5 5 2 5 5 0.5 1 1 1 1 1 2 1 0.25 4 2 1 26 . 4 2 27 76 I 160932 Continued table. 3 1 5 3 1 3 2 13 1 4 4 15 1 5 3 four 2 4 4 2 5 2 2 2 1 12 2 4 2 2 2 one 3 5 5 2 5 5 2 2 one four four one one eleven 5 2 2 1 1 5 5 one eleven eleven one 4 5 4 5 2 2 2 2 1 1 1 1 2 2 1 1 1 1 3 2 2 3. 2 2 2 1 1 2 1 1 1 1 3 1 1 1 eleven 1: 1 1 1 four 2 four 2 3 1 3 2 2 2 3 3 2 2 2 4 4 2 1 2 3 5 4 2 1 3 1 eleven 4 4 2 2 2 5 3 4 5 3 2 1 5 5 eleven eleven one one 2 1 1 1 2 1 one 1 2 1 4 5 1 1 1 2 3 one 1 1 1 2 2 one, one one one SPP52iHF; ul -J S b, -3-. 79 0.5 1 1 1 1 2 5 4 4 3 2 1 1 1 2 1 one 0.25 1 5 5 3 5 5 5 5 5 5 5 5 four four 2 1 1 5 4 4 1 2 1 1 1 2 one 6 four one 0.5 0.125 68 four 2 one 0.5 3 4 2 3 2 1 3 5 5 four one .5 5 13 0.5 4 1 0.5 4 1 5 3 1 1 2 2 1 1 3 2 5 1 1 2 1 1 1 1 five 0.25 five about 6 one five five 0.5 0.25 four five t 83 0.5 five 0.25 five four. four 89 2 five 80 1160932 Continuation of table .3 1 1 4 2 1 3 3 2 1 3 2 2 2. 1 1 2 1 1 3 1 2 1 1 1 1 1 2 1 3 3 1 5 1 5 1 3 2 2 1 1 1 1 1 2 4 2 4 4 4 3 3 5 5 4 5 5 3 4 4 1 1 2 1 1 5 4 4 1 1 1 1 1 1 1 1 1 1 2 2 1 1 3 2 3 3 3 3 2 3 3 3 2 23 eleven eleven eleven eleven eleven I 4 1 5 5 2 t 2 1 2 five eleven five one 5 5 one 3 3 5 5 3 4 12 13 13 one 2 1 3 5 5 5 4 2 5 4 3 3 5 1 1 2 1 1 t 1 1 1 1 five 1 1 2 2 1 1 1 1 1 1 2 1 1 2 1 4 2 5 one 4 1 four 3 3 " four 2 l 1 t 1 1 1 3 3 3 2 2 2 .1 1 1 1 1 1 3 one five 3 one 2 one one t one 0.5 0.25 1 6.5 0.25 eight four 2 one 0.5 0.25 one 0.5 one 0.5 2 1 As can be seen from the tables, most of the proposed compounds are potent herbicidal agents when applied with low costs to the soil or surface of the plant during pre-or post-emergence treatment. Many of the compounds are even more potent when applied to the soil and introduced into it before planting the seeds of cultivated plants. The presowing introduction is particularly preferable when using benzamide, which exhibits less than desired activity or selectivity when applied to the surface. For example, the compound of example 52, and names2 3 eleven 14 2 1 but N-t3- (1-methyl-ethyl) -5-isoxazole 3, 6-dimethoxibenzamide, is not capable of suppressing the growth of tomatoes with blood or shchiritsi when applied in a post-emergence manner at a rate of 15 lb / acre (16.8 kg / ha). When the compound is applied at a rate of 15 ft / acre (16.8 kg / ha) and introduced into P9chva before sowing, the seed completely suppresses the growth of tomato, wild mustard, and white marie and shows significant herbicidal activity against sugar beet and stinky dope. The herbicidal activity of some proposed compounds is determined after presowing administration of the benzamide derivative. The evaluation is carried out by taking the formulation on the basis of the appropriate amount of the test compound in 2.5 ml of a 50% mixture of acetone and zanol. The solution is diluted to 12.5 ml with deionized water. The prepared test compound is used to spray five quarters of sieved, autoclaved, greenhouse potted soil. The test compound is introduced into the soil mixture by overturning the mixture in the modified Some of the proposed benzamides are evaluated in a number of field tests to determine the e (}) efficiency, selectivity, and tolerance of the cultures. In a typical field test, benzamides are applied before germination in the form of an aqueous spray on the soil in which grains of cereal crops are grown, where weeds are common for such cereals. Researches assume .ie randomly selected blocks with chip1 m repeat. Observations are made with respect to the strength of crops, the degree of weed suppression, damage to cultivated plants, the appearance of crop sprouts and damage to roots. However, such a field test was carried out in the UK to determine the effectiveness and selectivity of preferred benzamides when applied pre-emergence onto soil sown with plain wheat. Observed286 concrete mixer. The treated soil is transferred to greenhouse pots and seeds of various weeds and cultivated plants are sown. After sowing, the pots are filled in a greenhouse with moistening through the bottom as needed. Plant damage assessment is performed 16 days after treatment and sowing using a scale from 0. to 10, according to which O means no damage and 10 means destruction of the plant. The results of the study of pre-sowing in the soil are presented in table. four-. T and b and U and. 4 neither was carried out 25 days after application to determine the strength of the treated wheat plants in the equilibrium with the untreated control, and to determine the degree of suppression of various weed species provided by benzamides. The results of the field test are presented in table. 5. Data before (1,1-Dimethylethyl) 5-isoxazolyl-2, 6-dimethoxybenzamide (example 6) 1, Q (t -Egil-1 -methylpropyl) -5-yoacool ol 2,6-dimethoxybenzamide example 1) 1.0 Untreated control A field test was carried out in Brazil to evaluate the herbicidal activity and tolerance of cultivated plants to some benzamides in comparison with untreated control and triplefia and metribuzine released by herbicides. Herbicides were applied as an aqueous spray and sealed. T a b l and c a 5 100 100 83 I 100 100 o too about about into the soil before sowing using disc plow and harrow. Peeled peanuts, soybeans, cotton, and maize were sown individually on processed and untreated cases. Observations performed after 16 and 36 days after treatment. The treated cases were visually compared to the untreated control to determine the percentage of 288 ratios for the strength of the cultivated plant, referring to the comparison of the treated wheat with the untreated; untreated control taken over 100% strength. Weed suppression rates are given as a percentage of control compared to untreated control cases, based on a visual inspection. the emergence of seedlings of cultivated plants, the percentage of damage to cultivated plants, the percentage of herbage culture and the percentage of damage to the roots. Table 6 gives the effect of various herbicides on cultivated plants. Table 6 93 1160932 Continuation of the table. 6 A field trial was conducted in Canada to determine the herbicidal efficacy and tolerance of crops to different benzamides separately and in combination with the commercial herbicide trifluralin. Herbicides were applied in the form of an aqueous spray, and the fields were used for planting barley on grain and various weed species, after which the herbicides were buried in the soil using spear harrows. Culture damage indicators were determined visually on a scale from 0 to 10, where O is the absence of the lesion and 10 is the destruction of the plant. All observations were made 26 days after sowing and processing, with the exception of crop yield data, which were determined 84 days after treatment. The percentage of weed vegetation suppression of various species found in crops, such as barley, was determined by visual comparison with untreated control files. The results of field tests are presented in Table. 7 Table 7 The following herbicidal compositions are prepared on the basis of the proposed compounds. Ingredient N-C3- (1-Ethyl-1-methylpropyl) -5-isoxazolyl. 2,6-dimethoxybenzamide (Example 1) Igepal SA-630 - non-ionic wetting agent - polyoxyethylenoctylphenol manufactured by GAF Corporation Clay (Bardens) Venzamidny herbicide mix up. obtain a homogeneous mass with auxiliary substances and grind to form a free flowing powder, which is further moistened and suspended in water at the place of use to form a sprayable mixture. 5 Ingredient N- 5- (1-Ethyl-1-methylpropi) -1,3,4-thiadiazod2-yl3-2, 6-dimethoxybenzamide (Example 61) Stepanol ME is the technical grade of sodium lauryl sulfate from Stepan Chemical Corp. Reaks A5B-lignosulfonate dispersant company Weswaco Corporation Zeolex-7 - precipitated hydrated silicate of J.M. Huber Corporation Clay (Barden) - hydrated ikat alnmdunn firm J.M.Huber Corporation Example -168. Wettable powder. Concentration, wt.% 50 The formulation is sprayed where vegetation is inhibited, in such a volume that the active ingredient is applied in an amount of 0.1-2 pounds per acre (0.1-2.2 kg / ha). PRI and mr 169. Wettable powder. Concentration, wt.%. The ingredients are mixed and sprayed to produce free flowing powders that can be suspended for ease of spraying. Water spray applied in the amount of 5-50 Ingredient N-t3- (1,1-Dimethylethyl) -5-isoxazolyl} -2,6 dimethoxyben-amide (Example 6) Polyphon H - Anionic Lignosulfonate Wetting Agent and Dispersant, Westvaco Corporation Min-at-gel 200 - gelling agent of the clay type of the company Floridin Komdani Antifome C of Dow Corning Corp., Water The ingredients are mixed and finely flown fluttering water and used to grind to a uniform mass with a spray, by irradiating the active ingredient mixture. Example 171-. Granular Dienta. The suspension is diluted with an additional composition. IngredientConcentration, weight% H-G5- (1,1-Dimethyl-2- (methylthio) -ethm11, 3,4-thiadiazol-2-yl -2,6-dimethoxybenzamide (Example 64) .5 Aroma naphtha Florex 30/60 - granulated clay from the firm Flo15idin Company The benzamide is dissolved in heavy aromatic naphtha and poured onto the soil surface so that the concentrate in the form of uniform granules will have the size of the active ingredient rum, ideally around 1, 0 mm, preferably in the range 30/60, Ingredient (1-Ethyl-1-methylpropyl) -1H-pyrazole-5-Sh1 2, 6-dimethoxybenzamide (Example 115) Diatomite - Diatomite earth firm Witko Chemical measles ,, Department of inorganic special preparations Benzamide herbicide is mixed in dry form with diatomite diluent. The mixture is crushed to obtain a fine powder having a uniform particle size (10-40 μm). When using a more concentrated mixture (for example, 30-50% active ingredient), the composition can be diluted with an additional indifferent medium, such as oxide 1160932100 gallons per acre (9.3 l / ha) at a rate of 1-5 pounds of active benzamide per acre (1.1-5.5 kg / ha). Example 170 Aqueous Suspension Concentration, weight,% A3 2 0.05 50.95 . 90 The granular composition is applied on 3-10 pounds per acre (3.3-11.2 kg / ha). Example 172, Dust. Concentration, weight,% flint or clay, at the place of consumption. The dust obtained in this way is applied to the surface using traditional ground equipment in areas of the soil where vegetation control is required, and if necessary, dust can be applied from an aircraft, etc. Example 173. Composition for mixing in a tank. Ingredient N-f5- (1-Ethyl-1-methylpropyl) -4H-1,2,4-triazol-3-ylZ-2, 6-dimethoxybenzamide (example 50% wettable powder N, N-Diethyl-2, 6-dinitro-3-amino-4-trifluorine tylaniline (dinitramine). Emulsified concentrate, 2 pounds / gallon I A wettable powder containing 50 wt.% Of the benzamide of Example 118 is dispersed in water, and the mixture is stirred while adding an aqueous suspension of emulsifiable concentrate. (2 feet per gallon) dinitroaniline herbicide. The resulting mixture is mixed and sprayed onto the soil surface and buried in it at a flow rate of 1 pound benzo Ida per acre (1.1 kg / ha) and 0.67 pounds of dinitroanthine per acre Ingredient (1-Ethyl-1-methylpropyl) -1,3,4 2-yl} -2,6-diethylbenzamide (Example 50% - ny wettable powder H, H-Di-n-propyl-2,6-dinitro-Z-amy aniline (prodiamine), 50% wetted with 50% wettable benzamide powder mixed with an aqueous suspension of 50% wettable prodiamine powder The mixture is mixed and sprayed with soil where control of weeds is required. Consumption is about 30 gallons per acre so that the active ingredient is Ingredient N-C5- (1-Propylcyclohexyl) -1,3,4-thiadiazol2-yl -2, 6-dimethoxybenzamide (Example 105), 30 wt.% Wettable powder K, M-Di-n-propyl-2,6-dinitro-4-trifluoromethylaniline (triflurapine) 4% emulsified concentrate The benzamide 30% wettable powder of Example 105 is dispersed in water and stirred during the batch addition of an emulsifiable trifluralin concentrate (4 pounds per gallon). The tank mixable water mixture is sprayed onto the soil and sealed to inhibit the growth of gerbil, cochia, shchiritsa, potashniki, Mari Bely, and the like. The treated soil can be grain for grain, for example, wheat, rye, oats, barley, etc. These cultures can grow, essentially, without the presence of weeds. 1160932 thirty 70 Example 176. Use in combination. Trifluralin in the form of an emulsifiable concentrate (4 pounds per gallon) is used for pre-sowing tillage. Trifluralin at flow. 0.5 pounds per acre is drilled into the soil using a double disc harrow. Soybean is sown in the soil, and thereafter, 50% wettable powder (1,1-dimethylether I) -5-isocazolyl 3-2, 6-dimethoxybenzamide I (compound of Example 6) is suspended in water and applied to the surface of a seeded soil. Consumption of active benzyl102 Concentration, weight,% 118) e (0.75 kg / ha). The soil can then be sown with grass, etc., and the crop is grown essentially in the absence of undesirable vegetation, such as rosary, shelter, millet, purslane, and the like. The yield and quality of the target crop is thereby significantly increased. Example 174. Composition for mixing in a tank. Concentration, wt.% Diazol50 4-trifluoromethyl powder .50 ent was applied in an amount of 0.75 pounds per acre (0.84 kg / ha). The mixture is preferably embedded in the soil, for example using a disc harrow, and then cotton, soybean, sugar beet, and the like are planted. Example 175. Composition for mixing in a tank. Concentration, wt.% 103n Mida Ij5 pounds per acre. The treatment allows soybeans to be released without undesired weed growth, such as white bean, schiritsa, and the like. It is particularly preferable to use the benzamide of Example 1, namely (1-ethyl-1-methylpropyl) -5-isoxolyl -2,6-dimethoxybenza1 d. This compound is especially effective when used in combination with other herbicides such as trifluralin suppressing undesirable ratios when growing cereals, such as barley, etc. Benzamides are also effective for suppressing unwanted vegetation, such as broadleaf weeds, in orchards and tree nurseries. The compounds exhibit excellent selective herbicidal activity against citrus, such as orange and lemon trees. The compounds are also very useful for the suppression of weeds in vineyards, as well as for the cultivation of agricultural crops such as sugar beets. The compounds are also characterized by activity as plant growth regulators, for example, they contribute to an increase in grain yield, etc., as well as some activity as herbicides for the watered fields. As can be seen from the presented data, the novel N-arylbenzamide derivatives of the formula I exhibit a wide 2104 spectrum of herbicidal activity. Some of these are characterized by insecticidal activity. In addition, the benzamide derivatives of the formula I exhibit a higher herbicidal activity during the pre- and post-emergence treatment of seeds than their close analogs in structure and action of the π-phenoxybenzamide derivatives (Table 2). Benzs1midy of formula I are highly effective in killing and controlling the growth of weeds such as barnyardgrass, barnyardgrass, common lambsquarters, foxtail yellow millet, smartweed vkntsiys, crabgrass nai, mustard, amaranth, cocklebur, velvetleaf, jimsonweed smelly, morningglory, ragweed zinni and a number of other plants that represent weeds and grass vegetation. Although the compounds of formula I are toxic to such weeds, they do not have an undesirable effect on the growth of cultivated plants, such as cereals, such as wheat, oats, barley and rice. The compounds of the formula I can also be used for weed control in the cultivation of KZ | Gkuruzy, soybean. peanuts, cotton. Thus, the proposed method. It is possible to obtain new N-arylbenzamide derivatives that exhibit more BBicoKjTo herbicidal activity than the known m-phenoxybenzamide derivatives.
权利要求:
Claims (1) [1] A method of obtaining derivatives of N-arylbenzamide of the General formula - an oxygen or sulfur atom; - a hydrogen or halogen atom, C d -C ^ -alkyl, or C 4 -C ^ alkoxy; - a hydrogen or halogen atom, C d -C ^ alkyl, C 4 -C ^ alkoxy, C 1 -C + alkylthio or trifluoromethyl; - a hydrogen or halogen atom, C 4 -C 4 alkyl, C 1 -C 4 -); CH-group or nitrogen atom; a nitrogen atom or a) CH group, provided that one of A and B is a group) CH ~ and the other a nitrogen atom; a —NH— group or an oxygen or sulfur atom, provided that X. differs from the —NH group if A is a nitrogen atom and B is a CH group; R * y is a hydrogen atom or C 4 ~ C 4 ~ alkyl; R s is a hydrogen atom or a group X B-6 -CR, • Ak 6 or -C-Q1 10 ζε609ΐ ι ns where Y is an integer 0-4; To ° 1 or 2, R € , R 7 and R a - independently from one another - a hydrogen atom, C 1 -C 70 - alkyl, chloro-C 4 -C 4 -alkyl, C 2 -C 4 -alkenyl, C 4 -C 4 -alkoxy-C, -C ^ ~ alkyl, C-y-C ^ -alkylthio-C ^ -C ^ alkyl, C 4 -C (> -alkoxy-C 1 -C 4 alkylthio, or a group wherein K and Y have the indicated meanings; m is an integer from 0 to 2; η = 0 or 1; Rg and R 10 oflHH, independently of another hydrogen or chlorine atom, C 4 -C ^ alkyl or C 2 -C 4 alkenyl; Qi and Qi are one independently of the other —CH 2 - or a sulfur atom, provided that Q ^ h Q 2 both - the earring atom is not equal to 0, provided that R s is a hydrogen atom, only if R 4 represents a group where A and B have the indicated meanings, and provided that R z and R 3 are other than a hydrogen atom when R 4 is a group O R 5 O'® 5 X JJ n where A, B, R f HX have the indicated meanings, or their salts, characterized in that the amine of the general formula H 2 NR *, where R 4 has the indicated meanings, is reacted with a benzoic acid derivative of the general formula (II) where R 1 , R and R 3 have the indicated meanings, and the obtained benzamide of the formula I, where Z is an oxygen atom, if necessary they are reacted, with phosphorus pentasulfide or with an n-meth dimer of siphylthiophosphine sulfide in an aprotic organic solvent at 50-150 ° C to obtain a compound of formula I, where Z is a sulfur atom, and the target product is free or salt .
类似技术:
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同族专利:
公开号 | 公开日 IE812144L|1982-03-16| EG15899A|1989-01-30| DOP1981004105A|1988-04-05| KR850001951B1|1985-12-31| CS252456B2|1987-09-17| FI75815C|1988-08-08| ES505517A0|1983-01-01| SU1375111A3|1988-02-15| PL233031A1|1982-04-26| MY8600354A|1986-12-31| RO83401B|1984-04-30| RO88495A|1986-01-30| BR8105900A|1982-06-08| GB2084140B|1984-06-27| KR830007593A|1983-11-04| JPH05386B2|1993-01-05| IE51515B1|1987-01-07| CY1315A|1986-03-28| BG48682A3|1991-04-15| NO159054B|1988-08-22| GR75017B|1984-07-12| DK163509C|1992-08-24| AU544567B2|1985-06-06| PL127767B1|1983-11-30| RO83401A|1984-04-02| IL63839D0|1981-12-31| DE49071T1|1984-01-05| NZ198358A|1985-04-30| HK17586A|1986-03-21| GB2084140A|1982-04-07| IL63839A|1984-12-31| FI812875L|1982-03-17| ZA816393B|1983-04-27| EP0049071B1|1984-12-19| DE3167845D1|1985-01-31| PH17881A|1985-01-14| YU221681A|1983-10-31| DD206930A5|1984-02-15| UA7145A1|1995-06-30| CS682981A2|1987-01-15| FI75815B|1988-04-29| MA19269A1|1982-04-01| EP0049071A1|1982-04-07| HU191037B|1986-12-28| CA1179345A|1984-12-11| DK163509B|1992-03-09| NO813142L|1982-03-17| PT73672B|1982-12-20| PT73672A|1981-10-01| NO159054C|1988-11-30| AU7525781A|1982-03-25| ES8302010A1|1983-01-01| JPS5781467A|1982-05-21| DK410781A|1982-03-17| OA06900A|1983-04-30|
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