Compressor plant

专利摘要:
A screw compressor with liquid injection wherein the units previously disposed separately from one another, such as the air filter, liquid separator, and so on, are integrated into a single housing. Various compartments are formed in the housing by means of partitions, such that the compartments provide for good separation of entrained liquid from the compressed air being achieved because of large flow cross-section, maximum utilization of the available flowpath and multiple deflection of the current of compressed air. The compact construction results in a substantially smaller overall compressor size than that of comparable known compressor plants, in a reduction of manufacturing cost and simplification of the assembly of a compressor plant.
公开号:SU1243636A3
申请号:SU802982398
申请日:1980-09-23
公开日:1986-07-07
发明作者:Хофманн Рудольф
申请人:Изарталер Шраубен-Компрессорен Гмбх (Фирма)；
IPC主号:

专利说明:

7. Installation popp. 1 and 6, characterized in that the choke is designed as a check valve.
8. The installation according to claim 1, that is, that the cavity of the housing in which the gear is located is communicated with the working chamber through a channel whose outlet is located in the area of the inlet opening of the working chamber.
9. Installation under item 1 ,; This means that the middle part of the body, in which the working chamber with the rotors placed in it is made, is of equal length with the latter.
10. Installation according to Claim 1, characterized in that the fluid coolers are annular and mounted coaxially one after the other.
11. Installation under item 1, characterized in that in the wall
The invention relates to compressor building and relates to the upgrading of a compressor unit including a screw compressor, the workers of which are lubricated and cooled with a liquid injected into the working chamber of the compressor.
The purpose of the invention is to improve the separation of liquid from compressible gas.
FIG. 1 shows schematically a compressor installation, a longitudinal section; in fig. 2 - the same, the embodiment; in fig. 3 shows section A-A in FIG. one; in fig. 4 shows a section BB in FIG. one; in fig. 5 shows a section B-B in FIG. one; in fig. 6 - section G-Y in FIG. 3; in fig. 7 shows a guide device in a reservoir for liquid and gas; in fig. 8 is a view of D in FIG. 7; in fig. 9 is a view E of FIG. eight; in fig. 10 - liquid cooler; pas figs. 11 - bearing supports of rotors.
The compressor installation contains a screw compressor connected to the drive 2 via gear 1 with interacting rotors 3 placed by means of a bearing
36
At least one cavity of the housing in which the bearing supports are located, in the area of the outlet of the working chamber there is an annular p: Anavka communicated with the working chamber through a channel whose outlet is located in the area of the working opening of the working chamber.
t
Priority popun there and featured:
24.09.79po paragraphs 1,2,5,9 and 10 and the sign according to p. 6 - the bottom surface of the separating chamber is inclined and the outgoing line is connected to its lowest section;
13.06.80p pp. 3 and 4; 07/09/80 under par. 7 and grounds by
Item 6 - outlet line with throttle installed in it;
June 13, 80 - on p. 8;
06/20/80 - clause 11.
the supports 4 in the working chamber 5, having an inlet 6 and an outlet 7, connected to a source of lubricant and coolant and made
in the middle part 8 of the closed collapsible housing, the gas filter 9, the liquid separator 10, the liquid cooler 11 and the gas 12, and the riser pipe 13. Moreover, in the lower part 14
the housing is made of a reservoir 15 for liquid gas communicated with the outlet 7 of the working chamber 5 and having a deflecting surface 16 in its zone and a guiding device 17. On the side portions 18 and 19 of the housing there are cavities 20 and 21 for bearing support 4 and transfer 1.
The tank 15 is made under the rotors 3 along the entire length of the body and is divided by at least one partition 22 into communicating chambers. In the upper part of the body above the rotors 3
a separating chamber 23 yo is made with at least one gas outlet in the upper part connected to the pressure conduit
3
13. The liquid separator 10 is tubular and placed in the separation chamber 23 with the formation of an annular space communicated with a gas outlet.
In the housing above the rotors 3, the inlet chamber 24 is formed and the gas filter 9 is located therein axially with the rotors 3.
The outlet 7 of the working chamber 5 is located below the level 25 of the liquid in the tank 15,
At the entrance to the liquid separator 10, a deflecting device is installed, made in the form of an end-closed pipe 26 having at least one gas inlet 27 in the upper peripheral portion.
The pressure pipe 13 is located parallel to the separation chamber 23 in the upper part of the housing. The bottom surface of the separation chamber 23 is made inclined and. To its lowest section is connected a discharge line 28 with a throttle installed in it, which can be made in the form of a check valve (not shown).
The cavity 21 of the housing in which the transmission 1 is located is communicated with the working chamber 5 to the channels 29, the outflow opening of which {) is located in zones
inlet 6 of the working chamber 5.
The middle part 8 of the housing, in which the working chamber 5 is made with rotors 3 placed in it, is made of equal length with the latter.
The fluid coolers 11 are annular and coaxially mounted one after the other.
In the wall of at least one housing cavity 20 in which the bearing supports 4 are located, in the zone of the outlet 7 of the working chamber
5 an annular groove 30 is made, communicated with the working chamber 5 by a channel 31, the outlet of which is located in the zone of the inlet 6 of the working chamber 5.
In the upper part of the housing, centered around the axis of the filter 9, an intake regulator 32 is installed, opening or closing the opening 33 of the inlet chamber 24, which also has an inlet window 34.
43636
In the tank 15 is placed a valve
A thermostat connected with conduit 36 to a wellness filter 37 and liquid cooler 11. To filter
5 37 connected pipe 38 for
injecting lubricant and coolant into the working chamber 5 of the compressor. The reservoir 15 is in communication with the cooler 11 of the liquid piping of house 39.
Pipe Outlet
36 and 39 are separated by a partition 40. The installation is equipped with a fan 41 closed by a casing 42. To a cooler
15 12 of gas are connected a pipe 43 for supplying compressed gas to a consumer and a chamber 44 for collecting condensate with a pipe 45 for draining condensate.
In order for the lubricant to be discharged from both cavities 20 and 21 through one groove 30, the cavities 20 and 21 are communicated by a channel 46 connected to an annular groove 47, which is made into a bearing block 4 supporting the sub-support 25.
Directing its device 17 has an opening 49 for fastening to the partition 22.
The compressor installation operates 20 as follows.
During the operation of the compressor, the compressible gas is sucked through the inlet port 34, passes through the filter 9, the openings 33 and 6, and enters the working chamber 5. To lubricate and cool the gas, a liquid is injected into the working chamber 5, supplied through the pipeline 38. 7 mixture of liquid. and the gas enters the chamber of tank 15 separated by a partition 22, in which the liquid is preliminarily separated from the gas. The substantially purified gas then enters the liquid separator 10 and further into the pressure pipe 5 13. From the latter, the gas cooled in the cooler 12 is through pipe 43 is supplied to the consumer. The condensate from the cooler 12 is collected in the chamber 44 and discharged through the pipe 45, 0
The presence of the annular groove 30, grooves 47, as well as channels 29.31 and 46 provides a long-term. Circulation of the lubricating fluid leaving the working chamber 5 through the bearings 4 back into the working chamber 5 without overheating.
40
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Editor A. Shishkin Order 3723/60
Tehred N. Bonco
Circulation 586 VNIRSHI State Committee of the USSR
this case of inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab, d. A / 5
Production printing plant, Uzhgorod, st. Design, k
Srig. eleven
Proofreader C, Shekmar Subscription

权利要求:
Claims (12)
[1]
1. COMPRESSOR INSTALLATION, comprising a screw compressor connected to the drive with interacting rotors placed by bearings in the working chamber, with an inlet and outlet, connected to a source of lubricating and cooling fluids and made in the middle part of a closed collapsible housing, a gas filter, a liquid separator coolers. liquid and gas and pressure pipe, and in the lower part of the housing there is a reservoir for liquid and gas in communication with the outlet of the working chamber and having in its area a deflecting surface and a guiding device, and in the side parts of the housing are cavities for bearing bearings and gears, characterized in that, in order to improve the separation of liquid from the compressible gas, the tank is made under the rotors along the entire length of the housing and is divided by at least one partition into communicating chambers, in the upper part of the housing and above the rotors there is a separation chamber with at least one gas outlet in the upper part connected to the pressure pipe, and the liquid separator is tubular and placed in the separation chamber to form an annular space in communication with the gas outlet.
[2]
2. Installation pop. 1, which is characterized in that an inlet chamber is made in the housing above the rotors and a gas filter is located axially in this chamber in the rotors.
[3]
3. The installation according to claim 1, which is related to the fact that the outlet of the working chamber is located below the level of the liquid in the reservoir.
[4]
4. Installation according to claim 1, characterized in that a deflecting device is installed at the inlet of the liquid separator, made in the form of a nozzle closed at the end and having at least one gas inlet on the upper peripheral portion.
[5]
5. Installation according to claim. ^ Characterized in that the pressure pipe is parallel to the separation chamber in the upper part of the housing.
[6]
6. Installation according to π. 1, characterized in that the surface of the bottom of the separation chamber is made inclined and a discharge line with an inductor installed in it is connected to its lowest portion.
[7]
7. Installation according to paragraphs. 1 and 6, which is kicked off in that the throttle is designed as a check valve.
[8]
8. Installation according to p. ^ Characterized in that the cavity of the housing in which the transmission is located is in communication with the working chamber through a channel, the outlet of which is located in the area of the inlet of the working chamber.
[9]
9. Installation according to π. 1, with the fact that the middle part of the housing in which the working chamber is made with the rotors placed in it is made of equal length with the latter.
[10]
10. Installation according to p. 1, characterized in that the liquid coolers are made circular and installed coaxially one after the other.
[11]
11. Installation according to π. 1, characterized in that in the wall of at least one cavity of the housing in which the bearings are located, an annular groove is made in the area of the outlet of the working chamber, in communication with the working chamber through a channel, the outlet of which is located in the area of the inlet of the working chamber.
Priority on points and signs:
09.24.79 PP 1,2,5,9. and 10 and the feature according to claim 6 - the bottom surface of the separation chamber is made inclined and a discharge line is connected to its lowest portion;
[12]
06/13/80 popp. 3 and 4; 07/09/80 under item 7 and the attribute according to
p. 6 - a discharge line with a choke installed in it;
06/13.80 - under item 8; 06.20.80 - under item 11,

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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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DE19792938557|DE2938557A1|1979-09-24|1979-09-24|Motor driven twin screw rotor compressor - is liquid cooled and lubricated by injection into compression chamber|

---

DE19803022249|DE3022249A1|1980-06-13|1980-06-13|Motor driven twin screw rotor compressor - is liquid cooled and lubricated by injection into compression chamber|

---

DE19803022277|DE3022277A1|1980-06-13|1980-06-13|Motor driven twin screw rotor compressor - is liquid cooled and lubricated by injection into compression chamber|

---

DE19803023092|DE3023092A1|1980-06-20|1980-06-20|Motor driven twin screw rotor compressor - is liquid cooled and lubricated by injection into compression chamber|

---

DE19803026000|DE3026000A1|1980-07-09|1980-07-09|Motor driven twin screw rotor compressor - is liquid cooled and lubricated by injection into compression chamber|

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