CN115845575A - Integrated compressed air drying system - Google Patents

Abstract

The utility model belongs to the technical field of integrated form compressed air's technique and specifically relates to an integrated form compressed air drying system is related to, including the air compressor machine body, one side of air compressor machine body is provided with drying device, drying device includes dry shell and sets up the condenser pipe that is used for the cooling to compressed air in dry shell, be provided with the gas-supply pipe that is used for carrying compressed gas on the air compressor machine body, the gas-supply pipe runs through dry shell setting, the gas-supply pipe sets up around the condenser pipe, be provided with the baffle that is used for divideing into the condenser pipe a plurality of parts on the condenser pipe, the central line setting of baffle perpendicular to condenser pipe, be provided with the collecting assembly who is used for collecting the liquid that the compressed air liquefaction produced on the dry shell. This application has the effect of convenient to use compressed air.

Description

Integrated compressed air drying system

Technical Field

The application relates to the technical field of integrated compressed air, in particular to an integrated compressed air drying system.

Background

Compressed air is air compressed under the action of external force, the air has compressibility, and the volume of the air is reduced by mechanical work of the air compressor, and the compressed air is called compressed air. Compared with other energy sources, the compressed air has the characteristics of convenience in conveying and the like, has the performance of no special hazard, and is not afraid of overload carrying and the like.

In the related art, the air compression equipment comprises a machine body, a female rotor and a male rotor which are arranged in the machine body, wherein an air inlet end cover is arranged at one end of the machine body, synchronous gears are arranged on the female rotor and the male rotor, the two synchronous gears are meshed, a driving motor for driving the synchronous gears to rotate is arranged on the machine body, the driving motor drives the female rotor and the male rotor to rotate, meanwhile, air is sucked into tooth space volumes of the female rotor and the male rotor through the air inlet end cover, and meanwhile, the female rotor and the male rotor rotate to compress the air.

In the related art, since the air contains moisture, after the air is compressed, the content of moisture in the compressed air is high, which affects the use of the compressed air.

Disclosure of Invention

To facilitate the use of compressed air, the present application provides an integrated compressed air drying system.

The application provides an integrated form compressed air drying system adopts following technical scheme:

the utility model provides an integrated form compressed air drying system, includes the air compressor machine body, one side of air compressor machine body is provided with drying device, drying device includes dry shell and sets up the condenser pipe that is used for the cooling to compressed air in dry shell, be provided with the gas-supply pipe that is used for carrying compressed gas on the air compressor machine body, the gas-supply pipe runs through dry shell setting, the gas-supply pipe is around the condenser pipe setting, be provided with the baffle that is used for being divided into a plurality of parts with the condenser pipe on the condenser pipe, the central line setting of baffle perpendicular to condenser pipe, be provided with the collection subassembly that is used for collecting the liquid that the compressed air liquefaction produced on the dry shell.

Through adopting above-mentioned technical scheme, compress the back through the air compressor machine body to the air, discharge to dry shell in through the gas transmission pipe, cool down compressed air gradually through a plurality of parts on the condenser pipe at the in-process of carrying, collect the liquid that the liquefaction produced through collecting the subassembly simultaneously, reduce the content of moisture in the compressed air to the use to compressed air.

Optionally, the collecting assembly includes collecting pipe and collecting vessel, the collecting pipe sets up in dry shell, the collecting pipe is close to the bottom setting of condenser pipe, set up a plurality of connectors with the gas-supply pipe intercommunication on the collecting pipe, the collecting vessel sets up the outside at dry shell, the collecting pipe extends to the outside and the collecting vessel of dry shell and connects.

By adopting the technical scheme, the liquefied liquid in the gas transmission pipe enters the collecting pipe and then enters the collecting barrel through the collecting pipe so as to perform centralized treatment on the generated liquid.

Optionally, be provided with in the collecting pipe and be used for separating into the division board of multipart with the collecting pipe, it is a plurality of division board and a plurality of baffle one-to-one setting, the side of collecting pipe is run through and has been seted up the isolation mouth, the division board is the arc form, the centre of a circle of division board and the coincidence of the central line of condenser pipe, the division board rotates around the condenser pipe in dry shell and sets up, the division board passes through the isolation mouth and rotates to separate into a plurality of parts with the collecting pipe in the collecting pipe.

Through adopting above-mentioned technical scheme, the division board will be collected the inside part of cutting apart into a plurality ofly and condenser pipe corresponds, when the condenser pipe cools down compressed air, deposit to appointed position through each part with the part that corresponds, reduce when cooling, compressed air in the gas transmission pipe enters into the cooling zone of another part through the collecting pipe in, promotes compressed air's cooling efficiency.

Optionally, a sealing opening is formed in one side, deviating from the isolating opening, of the collecting pipe, a sealing plate is arranged in the sealing opening in a rotating mode around the condensing pipe, the sealing plate is arc-shaped, the circle center of the sealing plate is arranged on the central line of the condensing pipe, an intermediate plate is arranged in the collecting pipe, the intermediate plate is arranged on one side, close to the condensing pipe, of the isolating plate, the side face of the isolating plate and the butt of the intermediate plate are used for cutting the inside of the collecting pipe, the side face of the sealing plate and the butt of the intermediate plate are used for enabling the sealing plate to be separated from the inside of the collecting pipe.

Through adopting above-mentioned technical scheme, when needs are collected liquid, the rotating seal board keeps apart collecting tube inside and gas-supply pipe, then rotates the division board and makes the intraductal intercommunication of collecting, and it is intraductal that the compressed air that reduces the gas-supply enters into the gas-supply pipe, and it enters into in the collecting pipe to reduce compressed gas to discharge liquefied liquid.

Optionally, the closing plate is provided with a plurality ofly, the multipart one-to-one setting that is cut apart into by the division board on closing plate and the collecting pipe, be provided with the connecting plate on the closing plate, be provided with the adapter sleeve on the connecting plate, the adapter sleeve with last be provided with the link, link and division board are connected, be provided with the drive assembly who is used for adjusting the closing plate position on the dry shell, drive assembly and adapter sleeve are connected.

Through adopting above-mentioned technical scheme, drive assembly passes through the adapter sleeve and drives connecting plate and link removal respectively, and then drives closing plate and division board and rotate to discharge liquid.

Optionally, the connecting sleeve and the connecting plate are both arc-shaped, the central lines of the connecting sleeve and the connecting plate are coincident with the central line of the sealing plate, the driving assembly comprises a rack, a gear and a driving piece, the rack is arc-shaped, the center line of the rack and the central line of the connecting sleeve are arranged on the same straight line, the driving piece is arranged outside the drying shell, the gear is arranged inside the drying shell, the gear is arranged at the output end of the driving piece, and the gear is combined with the rack.

Through adopting above-mentioned technical scheme, the driving piece drives gear revolve, and gear revolve drives the rack and rotates, and the tooth rotates and drives the adapter sleeve and rotate, and then adjusts the position of adapter sleeve.

Optionally, the connecting sleeve is arranged on the connecting plate in a sliding mode around the condenser pipe, an elastic part used for connecting the connecting plate is arranged in the connecting sleeve, a yielding groove is formed in the partition plate, a yielding rod is arranged on the connecting frame, and the yielding rod is arranged in the yielding groove in a rotating mode around the condenser pipe.

Through adopting above-mentioned technical scheme, set up and let the pole and the groove of stepping down, when the closing plate removed, the pole of stepping down removed in the groove of stepping down, removed to the collecting pipe in the closing plate completely in the back, let the pole and the inslot wall butt of stepping down, and then drive the division board and rotate and open the collecting pipe, and then realize successively adjusting the position of closing plate and division board to discharge liquid.

Optionally, a mounting plate is arranged on the side face of the sealing plate, a reset piece for driving the sealing plate to rotate towards the direction far away from the collecting pipe is arranged on the mounting plate, and the reset piece is connected with the collecting pipe.

Through adopting above-mentioned technical scheme, clearing up the back that finishes to liquid, the driving piece drives the adapter sleeve and gets back to initial position, then resets and drives the closing plate and get back to initial position to adjust the position of closing plate and division board once more, and then discharge liquid.

Optionally, a clamping strip is arranged on one side, close to the collecting pipe, of the sealing plate, a clamping groove is formed in the inner wall, opposite to the sealing opening, of one side of the collecting pipe, and the clamping strip is buckled with the clamping groove.

Through adopting above-mentioned technical scheme, after the closing plate removed to in the collecting tube, the card strip removed to the draw-in groove in, card strip and draw-in groove lock promptly promote the complex closure between closing plate and the collecting tube inner wall, and the phenomenon that infiltration to collecting tube appears in compressed gas when reducing the discharge liquid.

Optionally, the position-giving rod is rotatably arranged on the connecting frame.

Through adopting above-mentioned technical scheme, the pole of stepping down rotates when the inslot that steps down removes, reduces the pole of stepping down and the groove of stepping down to between frictional force to adjust the position of closing plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the gas-supply pipe carries compressed air, cool down the compressed air of high temperature through the condenser pipe for the moisture liquefaction that wherein contains produces liquid and enters into in the collector pipe, and discharge through the collector pipe, and then reduce the content of the moisture in the compressed air, so that compressed air's use.

Drawings

Fig. 1 is a schematic structural view of an integrated compressed air drying system according to an embodiment of the present application.

Fig. 2 is a cut-away view of a dryer housing in an integrated compressed air dryer system in accordance with an embodiment of the present application.

Fig. 3 is a structural view of a collection assembly in the integrated compressed air drying system of the embodiment of the present application.

FIG. 4 is a cut-away view of the collection tubes in the integrated compressed air drying system of an embodiment of the present application.

Fig. 5 is a structural view of a connecting sleeve in the integrated compressed air drying system according to the embodiment of the present application.

Fig. 6 is a structural view of a driving assembly in the integrated compressed air drying system according to the embodiment of the present application.

Fig. 7 is a structural view of a partition plate in the integrated compressed air drying system according to the embodiment of the present application.

Fig. 8 is a structural view of a concession groove in an integrated compressed air drying system according to an embodiment of the present application.

Reference numerals: 1. an air compressor body; 2. a gas delivery pipe; 3. a drying device; 31. drying the shell; 311. a partition plate; 32. a condenser tube; 4. a collection assembly; 41. a collection pipe; 411. a connecting port; 412. an isolation port; 413. sealing the opening; 414. a middle plate; 42. a collection barrel; 5. a separator plate; 51. a yielding groove; 6. sealing plates; 7. a drive assembly; 71. a rack; 72. a gear; 73. a drive member; 8. a connecting plate; 81. connecting sleeves; 811. an elastic member; 82. a connecting frame; 9. a position-giving rod; 91. mounting a plate; 92. a reset member; 93. clamping the strip; 94. a clamping groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The application discloses an integrated form compressed air drying system. Referring to fig. 1 and 2, integrated compressed air drying system includes air compressor body 1 and sets up drying device 3 in air compressor body 1 one side, is provided with air-supply pipe 2 that is used for carrying compressed air on air compressor body 1, and air-supply pipe 2 sets up in drying device 3, carries out the gas transmission through air-supply pipe 2 and carries out the drying to compressed air through drying device 3 simultaneously.

Referring to fig. 2 and 3, the drying device 3 includes a drying shell 31 and a condenser pipe 32 disposed in the drying shell 31, the drying shell 31 and the condenser pipe 32 are both cylindrical, the air pipe 2 penetrates through the drying shell 31, and the air pipe 2 is spirally disposed around the drying shell 31 along the length direction of the center line of the drying shell 31, a partition 311 for dividing the condenser pipe 32 into a plurality of parts is disposed on the condenser pipe 32, the partition 311 is disposed perpendicular to the center line direction of the condenser pipe 32, in this embodiment, the partition 311 is disposed in two, the two partitions 311 equally divide the condenser pipe 32 into three parts, the three parts sequentially cool the compressed air in the air pipe 2, and the temperature of the three parts is gradually reduced, when the air pipe 2 transmits the compressed air, the compressed air with high temperature is uniformly cooled and liquefied, moisture contained therein is removed, and the compressed air is dried.

Referring to fig. 2 and 3, be provided with collection assembly 4 on dry shell 31, collection assembly 4 includes collecting pipe 41 and collecting vessel 42, collecting pipe 41 sets up in dry shell 31, and the bottom that is close to condenser pipe 32 sets up, collecting pipe 41 sets up along the spiral direction of gas-supply pipe 2, a plurality of connectors 411 have been seted up to one side that is close to gas-supply pipe 2 on the collecting pipe 41, a plurality of connectors 411 arrange the setting along the length direction of collecting pipe 41, collecting pipe 41 passes through connector 411 and connects with gas-supply pipe 2, collecting vessel 42 sets up the outside at dry shell 31, collecting pipe 41's tip extends to the outside and the collecting vessel 42 connection of dry shell 31. The liquid generated in the gas transmission pipe 2 flows to the bottom of the gas transmission pipe 2, then enters the collecting pipe 41 through the connecting port 411, and finally enters the collecting barrel 42 through the connecting port 411 to collect the generated liquid.

Referring to fig. 3 and 4, a plurality of partition plates 5 are disposed in the collecting pipe 41, the partition plates 5 and the partition plates 311 are correspondingly disposed, the position of the partition plate 5 corresponds to the position of the partition plate 311, the partition plate 5 is used for dividing the collecting pipe 41 into a plurality of parts, a partition port 412 is formed in one side of the collecting pipe 41 in a penetrating manner, the partition plate 5 is arc-shaped, the center of the partition plate 5 coincides with the central line of the condenser pipe 32, the partition plate 5 is inserted into the collecting pipe 41 through the partition port 412, and the partition plate 5 is rotatably disposed around the condenser pipe 32 in the drying shell 31. In an initial state, the partition plate 5 abuts against the inner wall of the collecting pipe 41 to divide the inside of the collecting pipe 41 into a plurality of parts, thereby reducing the possibility that the compressed air in the air pipe 2 enters other cooling parts through the collecting pipe 41. When liquid needs to be collected, the isolation plate 5 is rotated to the outside of the collection pipe 41, so that the inside of the collection pipe 41 is communicated, and the liquid flows into the collection barrel 42 through the collection pipe 41 to be collected.

Referring to fig. 4 and 5, a sealing opening 413 is opened on one side of the collecting pipe 41 departing from the isolating opening 412, a sealing plate 6 is rotatably arranged in the sealing opening 413, the sealing plate 6 is arc-shaped, the center of the sealing plate 6 is on the center line of the condensing pipe 32, the sealing plate 6 is rotatably arranged around the center of the condensing pipe 32, an intermediate plate 414 is arranged in the collecting pipe 41, the intermediate plate 414 is arranged on one side of the isolating plate 5 close to the condensing pipe 32, the side surface of the isolating plate 5 is abutted to the side surface of the intermediate plate 414, and when the isolating plate 5 rotates into the collecting pipe 41, the inside of the collecting pipe 41 is divided by the isolating plate 5 and the intermediate plate 414. The portion of the seal plate 6 disposed inside the collection pipe 41 abuts against the side surface of the intermediate plate 414. When needs clear up liquid, can rotate sealing plate 6 in the collecting pipe 41 towards for sealing plate 6's side and collecting pipe 41 inner wall butt, sealing plate 6 and side and intermediate lamella 414 butt simultaneously keep apart collecting pipe 41 inside and gas-supply pipe 2, when discharging liquid, realize the non-stop of gas-supply pipe 2 and carry compressed gas.

Referring to fig. 5 and 6, the sealing plate 6 is provided with a plurality of sealing plates, the gaps between the sealing plates 6 and the isolation plates 5 correspond to each other, the connecting plate 8 is arranged on the sealing plate 6, the connecting plate 8 is connected with one side of the sealing plates 6 departing from the collecting pipe 41, the connecting plate 8 is provided with a connecting sleeve 81, the connecting sleeve 81 and the connecting plate 8 are both arc-shaped, and the central line of the connecting sleeve 81 coincides with the central line of the sealing plate 6. A connecting frame 82 is provided on the connecting sleeve 81, the connecting frame 82 is connected with the isolation plate 5, and a driving assembly 7 for adjusting the positions of the sealing plate 6 and the isolation plate 5 is provided on the drying case 31.

Referring to fig. 6, the driving assembly 7 includes a rack 71, a gear 72 and a driving member 73, the rack 71 is arc-shaped, the center of the rack 71 coincides with the center of the connecting sleeve 81, a tooth slot is formed in the rack 71 along the length direction of the rack, the driving member 73 is arranged outside the drying shell 31, the driving member 73 can be arranged as a motor, the output end of the motor extends into the drying shell 31, the gear 72 is arranged at the output end of the motor, the gear 72 is meshed with the tooth slot, the driving member 73 drives the rack 71 to rotate through the gear 72, and then drives the rotating sleeve to rotate, and then drives the sealing plate 6 and the isolating plate 5 to rotate through the connecting plate 8 and the connecting frame 82, so as to discharge liquid.

Referring to fig. 7 and 8, the connection sleeve 81 is slidably disposed on the connection plate 8, an elastic member 811 is disposed in the connection sleeve 81, the elastic member 811 can be configured as a spring, one end of the elastic member 811 is connected to an inner wall of the connection sleeve 81, the other end of the elastic member is connected to one side of the connection plate 8 away from the sealing plate 6, the isolation plate 5 is provided with a yielding groove 51, the connection frame 82 is provided with a yielding rod 9, and the yielding rod 9 is rotatably disposed around the center of the condensation pipe 32 in the yielding groove 51. Under initial state, division board 5 is in collecting pipe 41, sealing plate 6 sets up towards the outside of collecting pipe 41, collecting pipe 41 and gas-supply pipe 2 are in the connected state promptly, then driving piece 73 drives sealing plate 6 through adapter sleeve 81 and rotates, it removes in the groove 51 of stepping down to drive to let a pole 9 simultaneously, division board 5 is in quiescent condition, after sealing plate 6 rotates to the inner wall butt with collecting pipe 41, with the inside isolation of gas-supply pipe 2 and collecting pipe 41, let a pole 9 rotate to and step down the groove 51 inner wall butt this moment, continue to rotate adapter sleeve 81, sealing plate 6 stop movement, adapter sleeve 81 removes compression elastic component 811, adjust the position of division board 5 through letting a pole 9 drive division board 5 simultaneously, and then realize successively adjusting the position of sealing plate 6 and division board 5, so as to collect liquid. Let a pole 9 rotate the setting on link 82 for let a pole 9 rotate when the inslot 51 of stepping down removes, reduce the frictional force of letting a pole 9 when the inslot 51 of stepping down removes, so that adjust the position of adapter sleeve 81.

Referring to fig. 6 and 7, a mounting plate 91 is provided on a side surface of the sealing plate 6, a restoring member 92 is provided on the mounting plate 91, the restoring member 92 may be provided as a spring, one end of the spring is connected to the mounting plate 91, and the other end is connected to the collecting pipe 41. When the sealing plate 6 slides towards the collecting pipe 41, the spring is compressed, and after the liquid is discharged, the driving part 73 drives the connecting sleeve 81 to return to the initial position, and meanwhile, the sealing plate 6 returns to the initial position under the action of the spring, so that the position of the sealing plate 6 is adjusted again.

Referring to fig. 8, one side of the sealing plate 6 is disposed in the collecting pipe 41, a clamping strip 93 is disposed on one side of the sealing plate 6 close to the collecting pipe 41, a clamping groove 94 is disposed on an inner wall of the collecting pipe 41 opposite to the sealing port 413, and the clamping strip 93 is clamped in the clamping groove 94. When the connecting sleeve 81 drives the sealing plate 6 to rotate to abut against the inner wall of the collecting pipe 41, the clamping strip 93 and the clamping groove 94 are buckled, the sealing performance of the sealing plate 6 and the inner wall of the collecting pipe 41 in a matched mode is improved, and the phenomenon that compressed air enters the collecting pipe 41 when liquid is collected is reduced.

The implementation principle of the application is as follows: after the air compressor body 1 compresses the air, the temperature of the compressed air is reduced through the condensation pipe 32, the moisture in the compressed air is removed, and meanwhile, the liquid in the collection pipe 41 is collected into the collection barrel 42 through adjusting the positions of the sealing plate 6 and the isolation plate 5, so that the moisture content in the compressed air is reduced, and the compressed air is used.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an integrated form compressed air drying system, includes air compressor machine body (1), its characterized in that: one side of air compressor machine body (1) is provided with drying device (3), drying device (3) are used for carrying out the condenser pipe (32) that cool down to compressed air including dry shell (31) and setting in dry shell (31), be provided with on air compressor machine body (1) and be used for carrying compressed gas's gas-supply pipe (2), gas-supply pipe (2) run through dry shell (31) and set up, gas-supply pipe (2) set up around condenser pipe (32), be provided with on condenser pipe (32) and be used for being divided into baffle (311) of a plurality of parts with condenser pipe (32), the central line setting of baffle (311) perpendicular to condenser pipe (32), be provided with collection component (4) that are used for collecting the liquid that the compressed air liquefaction produced on dry shell (31).

2. The integrated compressed air drying system of claim 1, wherein: the collecting assembly (4) comprises a collecting pipe (41) and a collecting barrel (42), the collecting pipe (41) is arranged in the drying shell (31), the collecting pipe (41) is close to the bottom of the condensing pipe (32), a plurality of connecting ports (411) communicated with the gas conveying pipe (2) are formed in the collecting pipe (41), the collecting barrel (42) is arranged outside the drying shell (31), and the collecting pipe (41) extends to the outside of the drying shell (31) and is connected with the collecting barrel (42).

3. The integrated compressed air drying system of claim 2, wherein: be provided with division board (5) that are used for separating into the multipart with collecting pipe (41) in collecting pipe (41), it is a plurality of division board (5) and a plurality of baffle (311) one-to-one set up, isolating port (412) have been run through to the side of collecting pipe (41), division board (5) are the arc form, the centre of a circle of division board (5) and the coincidence of central line of condenser pipe (32), division board (5) rotate the setting around condenser pipe (32) in dry shell (31), division board (5) are separated into a plurality of parts through isolating port (412) rotation to collecting pipe (41) in with collecting pipe (41).

4. The integrated compressed air drying system of claim 3, wherein: sealing opening (413) have been seted up to the one side that deviates from isolation opening (412) on collecting pipe (41), it is provided with sealing plate (6) to rotate around condenser tube (32) in sealing opening (413), sealing plate (6) are the arc form, the centre of a circle of sealing plate (6) sets up on the central line of condenser tube (32), be provided with intermediate lamella (414) in collecting pipe (41), intermediate lamella (414) set up the one side that is close to condenser tube (32) in division board (5), the inside of collecting pipe (41) is cut apart to the side of division board (5) and intermediate lamella (414) butt, sealing plate (6) side and intermediate lamella (414) butt, sealing plate (6) are used for with the inside separation of gas pipe (2) and collecting pipe (41).

5. The integrated compressed air drying system of claim 4, wherein: the sealing plate (6) is provided with a plurality of, the many parts one-to-one that cut apart into by division board (5) on sealing plate (6) and collecting pipe (41) sets up, be provided with connecting plate (8) on sealing plate (6), be provided with adapter sleeve (81) on connecting plate (8), adapter sleeve (81) with last link (82) of being provided with, link (82) and division board (5) are connected, be provided with drive assembly (7) that are used for adjusting sealing plate (6) position on dry shell (31), drive assembly (7) and adapter sleeve (81) are connected.

6. The integrated compressed air drying system of claim 5, wherein: adapter sleeve (81) and connecting plate (8) all are the arc form, and the central line coincidence of central line and closing plate (6) between them, drive assembly (7) are including rack (71), gear (72) and driving piece (73), rack (71) are the arc form, and the centre of a circle and the central line setting of adapter sleeve (81) are on same straight line, driving piece (73) set up the outside at dry shell (31), gear (72) set up the inside at dry shell (31), gear (72) set up the output at driving piece (73), gear (72) and rack (71) combine.

7. The integrated compressed air drying system of claim 6, wherein: adapter sleeve (81) slide around condenser pipe (32) and set up on connecting plate (8), be provided with elastic component (811) that are used for connecting plate (8) in adapter sleeve (81), division board (311) have been seted up on the board and have been stepped down groove (51), be provided with on link (82) and let a pole (9), let a pole (9) rotate around condenser pipe (32) and set up in groove (51) of stepping down.

8. The integrated compressed air drying system of claim 7, wherein: the side of sealing plate (6) is provided with mounting panel (91), be provided with on mounting panel (91) and be used for driving sealing plate (6) towards keeping away from the direction pivoted that collecting pipe (41) reset piece (92), reset piece (92) and collecting pipe (41) are connected.

9. The integrated compressed air drying system of claim 8, wherein: the sealing plate (6) is provided with a clamping strip (93) on one side close to the collecting pipe (41), a clamping groove (94) is formed in the inner wall of one side, opposite to the sealing opening (413), of the collecting pipe (41), and the clamping strip (93) is buckled with the clamping groove (94).

10. The integrated compressed air drying system of claim 9, wherein: the position-giving rod (9) is arranged on the connecting frame (82) in a rotating mode.

Images