Device for feeding tobacco to tobacco-cutting machines

专利摘要:
1. A DEVICE FOR SUPPLY TOBACCO TO TAVAK-CUTTING MACHINES, containing two conveyors located one above the other, the lower of which is longer than the upper one, gathering at an angle in the direction of movement of the tobacco to the mouthpiece, loading vertical, placed behind the upper conveyor above the projecting part of the lower conveyor, and a transitional conveyor with a drive mounted in the zone between the vertical section of the shaft and the lower conveyor, characterized in that, with a zero; ensuring uniform density supplied for cutting neither the tobacco mass and the improvement in the quality of the cut tobacco, the device is equipped with a level sensor to determine the height of the layer in the mouthpiece and the associated speed control unit or change the angle of inclination of the transition conveyor relative to the lower one; a conveyor for controlling the speed of the horizontal movement of the tobacco to the mouthpiece. 2. The device according to claim 1, about t l and that the transition conveyor is located at an angle of 45 relative to the lower conveyor. 3. A device according to pp.1 and 2, characterized by the fact that the transition conveyor is a belt tensioned on. three drums located in the corners of the triangle, and covering the drive. 4. The device according to claim 1, characterized in that the transition conveyor is made in the form of a mounting unit with an individual drive. 5. The device according to claims 1 and 4, characterized in that in the mounting block there are means for installing it between the side walls of the shaft. I 6. The device according to nn.t, 4 and 5, characterized in that my - U: l tazhny block is provided with an angular scale. 7. A device according to claims 4-6, characterized in that the mounting block comprises pivotally interconnected supports and a rotary frame on which the transition conveyor drums and the drive are mounted. 8. Device according to Claims 1 and 7, characterized in that the control unit for changing the angle of inclination of the transition conveyor includes eccentrics fixed on the pivoting frame and mounted on a support for rotation.
公开号:SU1151191A3
申请号:SU803225005
申请日:1980-12-22
公开日:1985-04-15
发明作者:Комосса Вернер；Рамш Герхард
申请人:Хауни-Верке Кербер Унд Ко.Кг (Фирма)；
IPC主号:

专利说明:

9. Device according to Claims 1 and 3, characterized in that one of the drums of the transitional conveyor is equipped with a driving rim and a driving drive chain housed inside the rotary frame or under the belt of the transitional conveyor.
10. The device according to PP, 1 and 7, that is, so that the drive is connected to the pivoting frame by means of a flange connection, which serves as a tensioning mechanism of the driving chain.
11. Device according to Claims 1 and 10, characterized in that the flange connection is set eccentrically relative to the drive.
12. The device according to claim 1, of which the transition conveyor is a roller conveyor, the surface of which consists of separate torsion shafts arranged in a row,
13. The device according to claim 12, wherein the working surface of the roller conveyor has a concave profile.
14. A device according to claim 12, characterized in that the torsion shafts are provided with gears interacting with a drive chain supported on a curved guide.
15. A device according to claim 1, characterized in that an additional rear wall is hinged on the walls of the loading shaft on the horizontal axis.
The invention relates to the food industry, in particular to the tobacco industry, and relates to equipment for processing tobacco, namely, devices for feeding tobacco to tobacco-cutting machines. Devices are known that contain two pressing conveyors arranged one under the coal and a supply shaft for moving that tank, the back wall of which is driven and driven in both directions. The latter serves to provide the advancement of the ta6a4 mass down the shaft with its simultaneous compaction. In addition, the lower end of the grid acts on the mass, changing its direction of movement, as a result of which the mass begins to move in a horizontal direction along the direction of movement of the conveyor belts tt 3. However, during operation of this device, undesirable detachment of seals of the tobacco mass may occur. direction of its movement. It is also known a device that contains two transporters one above the other, descent of 1xx at an angle in the direction of movement of the tobacco to the mouthpiece (the lower of which is the upper one), the loading vertical shaft located behind the upper conveyor above the projecting part of the lower conveyor, and a transitional conveyor with drive mounted in the area between the vertical section of the mine and the lower conveyor. However, this known device does not provide the supply of knives to the knives of a tobacco mass without voids of uniform density and, consequently, the production of high-quality cut tobacco. The purpose of the invention is to provide a uniform density of tobacco mass supplied for cutting and to improve the quality of the cut tobacco. The goal is achieved by the fact that in a device containing two conveyors, one above the other, the lower of which is longer than the top, converging at an angle in the direction of movement of the tobacco to the mouthpiece, is a loading vertical shaft located behind the upper conveyor above the projecting part of the lower conveyor, and a transitional conveyor with a drive mounted in the zone between the vertical section of the shaft and the lower conveyor, a level sensor is installed to determine the height of the layer in the mouthpiece and the associated unit m audio driving speed or changing the angle nak on transition conveyor relative to the lower conveyor for registration lation speed horizontal movement of the tobacco to a mouthpiece. In addition, in the proposed device, it is advisable to arrange the transition conveyor at an angle of 4 with respect to the lower conveyor, and to perform it in the form of a ribbon stretched across three drums located at the corners of the triangle and enclosing the drive. The transfer conveyor can be made in the form of a mounting block with an individual drive. Means should be provided in the mounting block for installation between the side walls of the shaft and provided with an angular scale. The mounting block should include pivotally interconnected supports and a swinging frame, on which the drums of the transfer conveyor and the drive are mounted. In the control unit for changing the angle of inclination of the transition conveyor, it is advisable to include eccentrics fixed on the rotary frame, mounted on a support so that it can rotate. One of the drums of the transitional conveyor should be equipped with a driving rim and a driving drive chain placed inside the rotary frame or under the belt of the transitional conveyor and the drive connected. with a swivel frame by means of a flange connection, which serves as a tensioning mechanism of the drive chain, the connection being made eccentrically relative to the drive. In the proposed device, the transition conveyor may be a roller conveyor, the surface of which consists of individual torsion shafts arranged in a row, the working surface of the roller conveyor may have a concave profile, and the torsion shafts may be equipped with gears interacting with a driving chain leaning on the curved direction. ". In addition, the rear wall should be hinged on the walls of the loading shaft on the horizontal axis. one . FIG. Figure 1 shows a schematic perspective view of a tobacco cutting machine with a partially removed side wall; in fig. 2 - transitional conveyor, general view; in fig. 3 — Transition conveyor with a side cover removed or a front wall removed, front view; in fig. 4 transition conveyor with partially dismantled transport compartment, rear view; in fig. 5, the embodiment of the transition conveyor is expanded; in fig. 6 element of the drive mechanism dp transition conveyor in an enlarged view (see node A of Fig. 6). The proposed device for supplying tobacco to tobacco cutting machines contains two chain conveyors one above the other, the bottom 1 of which is longer than the top 2, and they converge at an angle in the direction re-evaluate the tobacco to the mouthpiece consisting of the top 3 and the bottom 4 parts. The device also includes a loading vertical shaft, bounded by the front wall 5, side 6, rear 7 and installed above the protruding end of the conveyor t, closing the shaft below, as well as the transition belt 9, mounted in the area between the vertical section of the shaft and the bottom conveyor 1 Conveyors 1 and 2 are pressing. An element 8 is mounted along the rear wall 7 of the shaft, which oscillates around the axis 10 with an eccentric drive 11. The upper press-down conveyor 2 is made in the form of a vibrator and has drums 12, 13, and the drum 12 has bearings that can be rotated. A drum 14 pressure generator acts on the drum 13. The upper and lower parts 3 and 4 of the mouthpiece are adjacent to the pressing chain conveyors t and 2, with the upper part 3 coordinated with the pressing chain conveyor 2 and performing with it a reciprocating motion, and the lower part 4 of which is rigidly fixed and forms a counter knife relative to to the knives 15, located on the perimeter of the knife drum 16 connected to the mouthpiece. For sharpening knives 15, tool 17 serves as a diamond 18 and can be moved in the direction of the double arrow 19 across the width of the knife drum 16. The knife drum and both chain conveyors 1 and 2 are driven synchronously from the common drive. The pressure generator 14 is also provided with a control device in the form of a level sensor 20 for determining the height of the layer in the mouthpiece, i.e. the distance between its upper and lower parts 3 and 4. A sensor 20 level by a signal actuator 21 (see dashed line) is connected to block 22, which in turn is connected via control line 23 to the motor 24 of the transition conveyor 9. Block 22 has also a button 25 for manually adjusting the rotational speed of the engine 24. The shaft can be equipped with photoelectric controls for controlling the level that regulates the speed of the blade reel drive motor and the pressing chain conveyors (not shown). The feed rate of the transitional conveyor 9, driven by the driving motor 24, is about three times higher than the feed speed of the press valysh chain conveyors 1.2. As a result, the sheet material under the action of the element 8, which makes an oscillatory motion in the direction of the double arrow 26, descends along the shaft. Reach the turning zone and the transition from the vertical section; transporting to: horizontal (when moving along an external path) under the action of a transitional transport 9, the speed of the material increases so that it, without breaking or forming voids, sinks into the tobacco flow and moves from the vertical direction of movement to the horizontal. As soon as the distance of the upper and lower parts 3 and 4 of the mouthpiece changes slightly, i.e. will decrease or increase, which may be caused by changes in the moisture content of leaf tobacco, changes in the feed rate of the compression chain conveyors 1 and 2, which lead to reduction or decrease in productivity due to fluctuations in the supply of sheet material to the mine or other tobacco-related specific changes (changes in the mixture or temperature), then a corresponding signal is monitored along the way from the sensor 20, a level control unit 22, which sends the corresponding output signal through iniyu control 23 for the drive motor so as to slightly increase or feed speed transition of the conveyor when compared to its normal speed (which is three times vipe feed rate of press chain conveyors 1 and 2), or slightly lower speed than the normal. In this way, the distance between the upper 3 and lower 4 parts of the mundatuk is again set at a predetermined level, so that the quality of cutting, largely determined by the height of the mouthpiece, will not be affected by the change in the distance between the upper and lower parts and the tobacco-cutting machine. can constantly operate with the mouthpiece height set to the optimum. This optimal position of the height of the mouthpiece is in any case also provided with different working ranges of the tobacco cutting machine, since the mouthpiece is constant; it is set up thanks to the self-control of the i conveyor 9 to automatically search for regulation and mainly to hold it,. The transition conveyor 9 consists (see FIG. 2) of a conveyor belt with a rough, embossed surface. The latter is set with respect to the lower press-chain conveyor 1 at an average angle cL equal to 45. The magnitude of angle Н can be varied up or down. The conveyor belt 9, on the working side, passes over the support panel 27 and is stretched around three reels 28, 29 and 30, and it covers the drive motor 24 and is closed by two side panels 31 and 32. In this way, the transfer conveyor forms an independent node in the tobacco cutter machine in the form of mounting block. This mounting block is fully inserted into the tobacco {polznyu machine.
71
moreover, it is clamped between the side walls of the shaft by means of a lead screw 33 located on its rear side (see Fig. 4) and supporting discs 34 located at the ends of the lead screw and covered with an elastic material. is secured in engagement with the lead screw 33. Corresponding openings are made in the side panels 31 and 32 of the mounting block for the passage of supporting discs 34.
In order to prevent the tobacco from moving back from the compression zone between the two pressing chain conveyors 1 and 2 under the action of the pressing process and getting it under the transition conveyor 9, a jumper 36 is located on the front side of the mounting block, which bridges the gap between the conveyor belt and the lower pressing conveyor 1.
To ensure the constant tension of the transport belt, one of the drums 30 (see Fig. 3) is tensioned and mounted on an eccentric support 38 provided in the frame 39 of the mounting unit provided with an allen key 37.
A locking screw 40 is used to fix the eccentric support 38. For the drive: the conveyor belt of the reels 29 is driven. To this end, this drum has a toothed rim 41, which engages with the drive chain 42. The latter in turn (see FIG. 4) drives a gear 43, located in the housing 44 of the drive motor 24. For this purpose, in the housing 44, the drive motor 24 has recesses 45 through which the drive circuit 42 enters and leaves the housing 44. For tensioning the drive chain 42, the drive motor 24 is unilaterally located on frame 39 by means of an eccentric flange, and an allen key 47 is used to adjust or turn the eccentric flange 46, and for subsequent fixation of the corresponding tension position of the eccentric flange 46 there is a locking bolt 48, which A review of the circumstances is included in one of the numerous locking holes 49.
918
Air vents are provided in the chassis 39 or side panels 31 and 32 to remove heat due to the engine heating or to supply cooling air.
To change the installation angle oL of the conveyor belt 9 with respect to the lower press chain conveyor 1, the frame 39, carrying the drums 28, 29 and 30 and the transport belt, is pivoted and connected to the support 51 by means of a rotary axle 50. To install the conveyor transport belt 9 at a certain angle and holding in this position on the rear wall of the mounting block, installation tools are provided (see FIGS. 3 and 4).
The latter have left- and right-sided eccentric discs 52 and 53 mounted rotatably on bearing bracket 54 and 55 of support 51, which guides the lead screw 33 for supporting discs 34, from which the eccentric disc 52 is rotated using a face wrench 56. And movement through the rod 57 in the direction of the double arrow is transmitted to another eccentric disk 53. The peripheral surfaces of both eccentric disks 52 and 53 are in direct contact with support rake 58 and 59, which are rigidly connected with frame 39, so that this frame, in accordance with the active eccentricity of both eccentric disks 52 and 53, rests on a support when the transport tape is at a certain angle. To fix the corresponding position of the eccentric discs 52 and 53 on the peripheral surface of the disk 52, there are locking holes 60, which include locking screw 61. To facilitate setting the angle of rotation of the conveyor belt and allow constant control over the installation of the appropriate angle, frame 39 or support 51 are provided also angular scale 62.
one -.
According to one of the variants of the transition conveyor 9, the conveyor belt is replaced by a roller conveyor, the torsion shafts 63 of which are installed in the frame for 39 s. possibility of rotation in this way. 91 that they form a concave conveying surface to move the tobacco. For the drive, each individual torsion shaft 63 is provided with a small gear 64. All gears 64 on the lower side engage with a drive chain 65, which for the concave engagement line of gears 64 rests on a guide rail 66 of the corresponding shape, on the lower and upper end the transition conveyor 9 passes around the guide rollers 67 and 68 and is driven by the drive motor 24. The tension of the drive chain 65 is carried out in a similar way by corresponding rotation of the eccentric flange 46 one motor 24. The setting of the angle of the transition conveyor 9 takes place as indicated above, i.e. by relative movement or inclination of the frame 39 and the support 51. The adjustment of the transition conveyor 9 is carried out similarly to the indicated one, i.e., depending on the position mouthpiece tobacco cutting machine. The form of the transition conveyor in the form of a roller conveyor, if necessary, creates the possibility of further differentiating the drive and adjusting the torsion shafts 63 such that one group of torsion shafts has a larger diameter and larger gears 64, and the other group of torsion shafts 63 has a smaller diameter or gears 64 are smaller. By actuating such differently sized gears through a drive chain 65 on a roller conveyor, different feed speeds are achieved. For example, the top n, i.e. facing the shaft entrance of the polorin roller conveyor, can be driven at a higher speed than the other half facing the lower pressing chain conveyor 1. This provides a preliminary compression of the flow of tobacco and the creation of a sealing effect in the turning zone of the mine. During operation of the device, tobacco is fed into the shafts, which is lowered and dropped onto the transitional conveyor 9, which moves the tobacco, changing the direction of its movement (from vertical to horizontal) 110, and continuously feeds it to the baler 1. The transitional conveyor moves at a speed greater than pressing I and 2. Tobacco is pressed into converging conveyor 1 and 2 and goes to the mouthpiece, passes through it and is transversely cut using the bottom part 4 of the mouthpiece and the knives 15 of the drum 1 6 into stripes. The advantage of the device described is that the flow of tobacco passing down the mine in the transition zone along the outer path is longer than the internal one, due to the speed difference between the transition conveyor 9 and the pressing chain conveyors 1 and 2, is accelerated so that this avoids breaks in the flow, and when rounding the corner, no voids are formed in the flow of tobacco. The presence of such a flow of tobacco without voids minimizes oscillation of the mouthpiece, even with uneven loading of the cutting machine. Adjusting the height of the mouthpiece and, depending on this, the speed control of the transitional conveyor automatically ensures that the optimum height of the mouthpiece is maintained in any range of cutting machine productivity. The result is a constant volume of products manufactured by the cutting machine, without changing the speed of the pressing chain conveyors and the knife drum, so that the acceleration and deceleration phases of the pressing chain conveyors and the knife drum disappear, reducing the quality of cutting. Maintaining the height of the mouthpiece at a constant level by adjusting the speed of the transition entails automatically or without further restructuring of the machine changes in the mixture, productivity, tobacco temperature and cutting width. As a result, the height of adjustment of the mouthpiece of the tobacco cutting yashina does not depend on the tobacco supply. With changes in the shaft filling level, only the speed of rotation of the drum or the speed of the pressing chain conveyors is adjusted, and with changes in the height of the sleeve, the speed of the transition conveyor is adjusted.
.2
Fird

权利要求:
Claims (15)
[1]
1. DEVICE FOR SUBMITTING TOBACCO TO TOBACCO CUTTING RANGE, containing two conveyors located one above the other, the lower of which is longer than the top, converging at an angle in the direction of movement of the tobacco to the mouthpiece, a loading vertical shaft located behind the upper conveyor above the protruding part of the lower conveyor, and transitional conveyor with a drive mounted in the area between the vertical section of the shaft and the lower conveyor, with the aim that, in order to: ensure uniform density supplied for cutting tobacco mass and improving the quality of chopped tobacco, the device is equipped with a level sensor for determining the layer height in the mouthpiece and the associated speed control unit or for changing the inclination angle of the transition conveyor relative to the lower ’: conveyor for regulating the speed of horizontal movement of tobacco to the mouthpiece.
[2]
2. The device according to claim 1, characterized in that the transition conveyor is located at an angle of 45 ° with respect to the lower transport ru.
[3]
3. The device sub, 1 and 2, characterized in that the transition conveyor is a tape stretched over. three drums located at the corners of the triangle, and covering the drive.
[4]
4. The device according to claim 1, characterized in that the transition conveyor is made in the form of a mounting block with an individual drive.
[5]
5. The device according to claims 1 and 4, characterized in that the mounting block has means for installing it between the side walls of the shaft.
[6]
6. The device according to which the unit is distinguished is equipped with paragraphs 1, 4 and 5, with the fact that mon is an angular scale.
[7]
7. The device according to claims 4-6, characterized in that the mounting block comprises articulated supports and a rotary frame on which the drums of the transition conveyor and the drive are mounted.
[8]
8. The device according to claims 1 and 7, characterized in that the control unit for changing the inclination angle of the transition conveyor includes eccentrics mounted on a rotary frame and mounted on a support with the possibility of rotation.
11511 * 91
[9]
9. The device according to claims 1 and 3, characterized in that one of the drums of the transitional conveyor is equipped with a drive ring and a drive drive chain located inside the rotary frame or under the belt of the transitional conveyor.
[10]
10. The device according to claims 1 and 7, with the exception that the drive is connected to the rotary frame by means of a flange connection, which serves as the tensioning mechanism of the drive chain.
[11]
11. The device according to claims 1 and 10, characterized in that the flange connection is eccentric with respect to the drive.
[12]
12. The device according to claim 1, wherein the transition conveyor is a roller conveyor, the surface of which consists of individual torsion shafts arranged in a row.
[13]
13. The device according to p. 12, characterized in that the working surface of the roller conveyor has a concave profile.
[14]
14. The device is pop.12, characterized in that the torsion shafts are equipped with gears interacting with the drive chain, supported by a curved guide.
[15]
15. The device according to claim 1, characterized in that on the walls of the loading shaft on the horizontal axis an additional rear wall is pivotally fixed.

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同族专利:

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE19803000153|DE3000153A1|1980-01-04|1980-01-04|FEEDING DEVICE FOR A TOBACCO CUTTING MACHINE|

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