CN216665860U - Automatic cooling water discharge system - Google Patents

Abstract

The application relates to an automatic cooling water discharge system which comprises an air inlet box, wherein the air inlet box is connected with a condenser pipe, and one end of the condenser pipe, which is far away from the air inlet box, is communicated with a water storage tank; the water storage tank is provided with an exhaust hole and a drain hole; the drain hole is communicated with an electromagnetic valve, the electromagnetic valve is used for controlling the on-off of the drain hole, the water storage tank is further provided with a liquid level meter, the liquid level meter is connected with a controller, and the controller is further connected with the electromagnetic valve. The setting is detected the liquid level height in the storage water tank by the level gauge, only after the liquid level in the storage water tank reaches the take the altitude, just open the solenoid valve and carry out the emission of comdenstion water, and through setting for first default and second default in advance to the controller, consequently the comdenstion water in the storage water tank can not once only be discharged completely, under the prerequisite that the comdenstion water was not discharged completely, the compressed gas in the storage water tank can not be too much discharge from the wash port, can reduce compressed gas's loss.

Description

Automatic cooling water discharge system

Technical Field

The application relates to the technical field of compressors, in particular to an automatic cooling water discharge system.

Background

Air that compressor cylinder compressed out is high temperature gas, and high temperature compressed gas need cool off high temperature compressed gas before entering next-stage cylinder or gas holder, and high temperature compressed gas has the comdenstion water to produce among the cooling process, and the comdenstion water needs in time to discharge. The compressor usually discharges the condensed water by using the timed discharge, but under the condition that the condensed water is not much in the timed discharge, the condensed water discharge port is opened, so that the compressed gas is discharged from the condensed water discharge port, unnecessary loss and waste are caused, and the improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to reduce the loss of compressed gas, the application provides an automatic cooling water discharge system.

The application provides a cooling water automatic discharge system adopts following technical scheme:

the automatic cooling water discharging system comprises an air inlet box, wherein the air inlet box is used for collecting compressed gas discharged by a superior system, and is connected with a condensing pipe which is used for condensing water vapor in the compressed gas; one end of the condensing pipe, which is far away from the air inlet box, is communicated with a water storage box;

the water storage tank is provided with an exhaust hole and a drain hole, the exhaust hole is used for conveying compressed gas in the water storage tank to a next-stage system, and the drain hole is used for discharging condensed water in the water storage tank;

the water discharge hole is communicated with an electromagnetic valve, the electromagnetic valve is used for controlling the on-off of the water discharge hole, the water storage tank is also provided with a liquid level meter, the liquid level meter is connected with a controller, and the controller is also connected with the electromagnetic valve;

the liquid level meter is used for detecting the liquid level height in the water storage tank and outputting a liquid level height value, the controller is used for receiving the liquid level height value, the controller controls the electromagnetic valve to be opened under the condition that the liquid level height value is not smaller than a first preset value, and the controller controls the electromagnetic valve to be closed under the condition that the liquid level height value is not larger than a second preset value.

Through above-mentioned technical scheme, detect the liquid level height in the storage water tank by the level gauge, only after the liquid level in the storage water tank reaches the take the altitude, just open the solenoid valve and carry out the emission of comdenstion water, and through setting for first default and second default in advance to the controller, consequently the comdenstion water in the storage water tank can not once only be discharged completely, under the prerequisite that the comdenstion water was not discharged completely, the compressed gas in the storage water tank can not be too much discharge from the wash port, can reduce compressed gas's loss.

Optionally, the liquid level meter is a magnetic turning plate liquid level meter.

Through above-mentioned technical scheme, set up the level gauge and turn over the board level gauge for the magnetism, the magnetism turns over the reliability height of board level gauge under the highly compressed environment of high temperature, is applied to in the water storage tank, can guarantee the stability that liquid level height value signal detected and transmitted, improves holistic reliability.

Optionally, the air conditioner further comprises a shell, a containing cavity is formed in the shell, the air inlet box, the condensation pipe and the water storage tank are all arranged in the containing cavity, and the shell is further provided with an air inlet communicated with the air inlet box and an air guide hole communicated with the air exhaust hole.

Through above-mentioned technical scheme, the setting holds the chamber and holds inlet box, condenser pipe and storage water tank, improves the wholeness of whole system.

Optionally, the air inlet box is fixed on the cavity wall of the accommodating cavity, and a first silica gel seal is arranged at the joint between the cavity wall of the accommodating cavity and the air inlet box;

a second silica gel seal is arranged at the joint of the air inlet box and the condensation pipe, and a third silica gel seal is arranged at the joint of the condensation pipe and the water storage tank;

the water storage tank is fixed on the wall of the containing cavity, and a fourth silica gel seal is arranged at the joint between the water storage tank and the wall of the containing cavity.

Through above-mentioned technical scheme, set up silica gel seal one, silica gel seal two, silica gel seal three and, silica gel seal four, seal each junction, reinforcing gas tightness reduces the compressed gas and the comdenstion water that get into in holding the chamber, reduces compressed gas's loss.

Optionally, the housing is fixed with an air inlet flange, the air inlet flange and the air inlet hole are coaxially arranged and communicated, the housing is further fixed with an air outlet flange, and the air outlet flange and the air guide hole are coaxially arranged and communicated.

Through above-mentioned technical scheme, set up the flange of admitting air and the flange of giving vent to anger, the convenience is installed with the connection of external pipeline, improves the convenience of being connected with other equipment.

Optionally, a first sealing ring groove is coaxially formed in the circumferential inner wall of the air inlet, a first sealing ring is arranged in the first sealing ring groove, and the inner ring of the first sealing ring is used for abutting against the circumferential outer wall of the air inlet flange;

and a second sealing ring groove is coaxially formed in the circumferential inner wall of the exhaust hole, a second sealing ring is arranged in the second sealing ring groove, and the inner ring of the second sealing ring is used for abutting against the circumferential outer wall of the air outlet flange.

Through above-mentioned technical scheme, set up sealing washer one and sealing washer two, improve the leakproofness of inlet port and air guide hole, and then reduce compressed gas's loss.

Optionally, the electromagnetic valve is connected with a connecting pipe, the housing is provided with a connecting hole, and one end of the connecting pipe, which is far away from the electromagnetic valve, penetrates through the connecting hole and is communicated with the drain hole.

Through above-mentioned technical scheme, set up connecting pipe connection solenoid valve and wash port, the not installation demand of the different positions of solenoid valve can be satisfied to the not unidimensional connecting pipe, improves the installation convenience of solenoid valve.

Optionally, a third sealing ring groove is coaxially formed in the hole wall of the drain hole, a third sealing ring is arranged in the third sealing ring groove, and an inner ring of the third sealing ring is used for abutting against the circumferential outer wall of the connecting pipe.

Through above-mentioned technical scheme, set up sealing washer three, improve the leakproofness between connecting pipe and the wash port.

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

(1) the liquid level gauge is arranged to detect the liquid level height in the water storage tank, the electromagnetic valve is opened to discharge condensed water only after the liquid level in the water storage tank reaches a certain height, and the first preset value and the second preset value are set in advance for the controller, so that the condensed water in the water storage tank cannot be completely discharged at one time, compressed gas in the water storage tank cannot be excessively discharged from the water discharge hole on the premise that the condensed water is not completely discharged, and the loss of the compressed gas can be reduced;

(2) the air inlet flange and the air outlet flange are arranged, so that the connection and installation with an external pipeline are facilitated, and the convenience of connection with other equipment is improved;

(3) and the sealing ring III is arranged, so that the sealing performance between the connecting pipe and the drain hole is improved.

Drawings

Fig. 1 is a schematic sectional view of the entire structure of the present embodiment.

Fig. 2 is a partially enlarged schematic view of the intake flange structure of the present embodiment.

Fig. 3 is a partially enlarged schematic view of the vent flange structure of the present embodiment.

Fig. 4 is a partially enlarged view illustrating the structure of the drain hole according to the present embodiment.

Reference numerals: 1. a housing; 2. an accommodating chamber; 3. an air intake box; 4. a water storage tank; 5. sealing the first layer by silica gel; 6. sealing with silica gel; 7. an air inlet; 8. an air inlet flange; 9. a first sealing ring groove; 10. a first sealing ring; 11. a condenser tube; 12. sealing with silica gel; 13. sealing with silica gel; 14. an exhaust hole; 15. an air vent; 16. an air outlet flange; 17. a second sealing ring groove; 18. A second sealing ring; 19. a liquid level meter; 20. a drain hole; 21. connecting holes; 22. a connecting pipe; 23. an electromagnetic valve; 24. a third sealing ring groove; 25. a third sealing ring; 26. a first lead; 27. a controller; 28. and a second conducting wire.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses automatic discharge system of cooling water.

Referring to fig. 1, including casing 1, casing 1 has been seted up and has been held chamber 2, holds and has distributed along the horizontal direction in chamber 2 and have inlet box 3 and storage water tank 4. The air inlet box 3 and the water storage box 4 are fixed on the cavity wall of the accommodating cavity 2 except two opposite end surfaces. A first silica gel seal 5 is fixed at the joint between the outer wall of the air inlet box 3 and the cavity wall of the accommodating cavity 2, and the first silica gel seal 5 is used for enhancing the air tightness of the joint between the air inlet box 3 and the accommodating cavity 2; a silica gel seal four 6 is fixed between the outer wall of the water storage tank 4 and the cavity wall of the accommodating cavity 2, and the silica gel seal four 6 is used for enhancing the air tightness of the joint of the water storage tank 4 and the accommodating cavity 2.

Referring to fig. 1 and 2, an air inlet 7 is opened at the upper end of the housing 1, the air inlet 7 penetrates downward to the upper end of the air intake box 3 along the vertical direction, and the air inlet 7 is communicated with the inside of the air intake box 3. An air inlet flange 8 is further fixed at the upper end of the shell 1, the air inlet flange 8 and the air inlet hole 7 are coaxially arranged, and one axial end of the air inlet flange 8 penetrates through the air inlet hole 7 to be communicated with the inside of the air inlet box 3. The first sealing ring grooves 9 are coaxially formed in the circumferential inner wall of the air inlet 7, the first sealing ring grooves 9 are provided with a plurality of sealing ring grooves, the first sealing ring grooves 9 are evenly distributed along the axis direction of the air inlet 7, a first sealing ring 10 is coaxially fixed in each first sealing ring groove 9, and the inner ring of each first sealing ring 10 abuts against the circumferential outer wall, located in the air inlet 7, of the air inlet flange 8.

And a condenser pipe 11 is communicated between two opposite end surfaces of the air inlet box 3 and the water storage box 4, and the condenser pipe 11 is horizontally arranged. A second silica gel seal 12 is fixed at the joint of the condensation pipe 11 and the air inlet box 3, and a third silica gel seal 13 is fixed at the joint of the condensation pipe 11 and the water storage tank 4. The second silica gel seal 12 and the third silica gel seal 13 are used for enhancing the sealing performance of the joint of the two ends of the condensation pipe 11 and reducing the leakage of compressed gas and the seepage of condensed water.

Referring to fig. 1 and 3, the upper end of the water storage tank 4 is provided with an air outlet 14, and the air outlet 14 penetrates through the upper end of the water storage tank 4 in the vertical direction. The upper end of the shell 1 is provided with an air guide hole 15, and the air guide hole 15 is communicated with the exhaust hole 14 and is coaxially arranged. An air outlet flange 16 is fixed at the upper end of the shell 1, the air outlet flange 16 and the air guide hole 15 are coaxially arranged, and one end of the air outlet flange 16 along the axial direction penetrates through the air guide hole 15 and is communicated with the exhaust hole 14. The second sealing ring grooves 17 are coaxially formed in the circumferential inner wall of the exhaust hole 14, the second sealing ring grooves 17 are multiple in number, the second sealing ring grooves 17 are evenly distributed along the axis of the exhaust hole 14, a second sealing ring 18 is coaxially fixed in each second sealing ring groove 17, and the inner ring of each second sealing ring 18 abuts against the circumferential outer wall, located in the air guide hole 15, of the air outlet flange 16.

Referring to fig. 1, the air inlet flange 8 is used for connecting with an output pipeline in a superior system, and the air inlet flange 8 guides compressed air output by the output pipeline of the superior system into the air inlet box 3; compressed gas in the air inlet box 3 flows to the water storage tank 4 through the condenser pipe 11, in the process, steam in the compressed gas is condensed into condensate water, the condensate water is carried into the water storage tank 4 by the compressed gas and is stored in the water storage tank 4, and the compressed gas in the water storage tank 4 is guided out of the shell 1 through the air outlet flange 16.

The vertical inner wall that condenser tube 11 was kept away from to storage water tank 4 is fixed with level gauge 19, and level gauge 19 is board level gauge 19 is turned over for the magnetism, and level gauge 19 sets up in storage water tank 4 along vertical direction.

Alternatively, the level gauge 19 may also be an internal floating level gauge.

Referring to fig. 1 and 4, a water drainage hole 20 is further formed on the vertical inner wall of the water storage tank 4 away from the condensation pipe 11, and the water drainage hole 20 is located below the liquid level meter 19. The housing 1 is provided with a connecting hole 21 communicating with the water discharge hole 20, and the axis of the connecting hole 21 is arranged in line with the axis of the water discharge hole 20. A connecting pipe 22 is fixed in the connecting hole 21, one end of the connecting pipe 22 passes through the water discharge hole 20 to be communicated with the inside of the water storage tank 4, and the other end of the connecting pipe 22 is connected with an electromagnetic valve 23.

The hole wall of the drain hole 20 is coaxially provided with a plurality of sealing ring grooves III 24, the plurality of sealing ring grooves III 24 are uniformly distributed along the axis of the drain hole 20, each sealing ring groove III 24 is coaxially fixed with a sealing ring III 25, and the inner ring of the sealing ring III 25 abuts against the circumferential outer wall of the connecting pipe 22 in the drain hole 20.

The vertical side wall of the water storage tank 4 far away from the condensation pipe 11 is further provided with a wire guide hole, and the wire guide hole penetrates through the water storage tank 4 and the shell 1 along the horizontal direction. The first lead wire 26 is arranged in the lead wire hole in a penetrating mode, one end of the first lead wire 26 is connected with the liquid level meter 19, and the other end of the first lead wire 26 is connected with the controller 27. The controller 27 is connected with a second lead 28, and one end of the second lead 28, which is far away from the controller 27, is connected with the electromagnetic valve 23.

The controller 27 is preset with a first preset value and a second preset value, and the first preset value is greater than the second preset value. The liquid level meter 19 is used for detecting the liquid level in the water storage tank 4 and outputting a liquid level height value to the controller 27, and the controller 27 compares the received liquid level height value with a first preset value and a second preset value. When the liquid level height value received by the controller 27 is not less than the first preset value, the controller 27 controls the electromagnetic valve 23 to open, so that the condensed water in the water storage tank 4 can be discharged out of the water storage tank 4 through the connecting pipe 22; when the height value of the liquid level received by the controller 27 is not greater than the second preset value, the controller 27 controls the electromagnetic valve 23 to close, so that the connecting pipe 22 cannot discharge the condensed water in the water storage tank 4 to the outside of the water storage tank 4, and the liquid level in the water storage tank 4 is located above the drain hole 20.

The working principle of the embodiment is as follows: the liquid level in the water storage tank 4 is controlled through the liquid level meter 19, the controller 27 and the electromagnetic valve 23, and when the height value of the liquid level in the water storage tank 4 is not less than a first preset value, condensed water in the water storage tank 4 is discharged through the connecting pipe 22; when the height of the liquid level in the water storage tank 4 is not greater than the second preset value, the condensed water in the water storage tank 4 is not discharged, and the height of the liquid level in the water storage tank 4 is higher than the height of the drain hole 20, so that the compressed gas is not discharged outside the water storage tank 4 through the connecting pipe 22 in a large amount.

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 (8)

1. An automatic cooling water discharge system is characterized in that: the device comprises an air inlet box (3), wherein the air inlet box (3) is used for collecting compressed gas exhausted by a superior system, the air inlet box (3) is connected with a condensing pipe (11), and the condensing pipe (11) is used for condensing water vapor in the compressed gas; one end of the condensation pipe (11) far away from the air inlet box (3) is communicated with a water storage box (4);

the water storage tank (4) is provided with an exhaust hole (14) and a drain hole (20), the exhaust hole (14) is used for conveying compressed gas in the water storage tank (4) to a next-stage system, and the drain hole (20) is used for discharging condensed water in the water storage tank (4);

the water drain hole (20) is communicated with an electromagnetic valve (23), the electromagnetic valve (23) is used for controlling the on-off of the water drain hole (20), the water storage tank (4) is further provided with a liquid level meter (19), the liquid level meter (19) is connected with a controller (27), and the controller (27) is further connected with the electromagnetic valve (23);

the liquid level meter (19) is used for detecting the liquid level height in the water storage tank (4) and outputting a liquid level height value, the controller (27) is used for receiving the liquid level height value, the controller (27) controls the electromagnetic valve (23) to be opened under the condition that the liquid level height value is not smaller than a first preset value, and the controller (27) controls the electromagnetic valve (23) to be closed under the condition that the liquid level height value is not larger than a second preset value.

2. The automatic cooling water discharge system according to claim 1, wherein: the liquid level meter (19) is a magnetic turning plate liquid level meter.

3. The automatic cooling water discharge system according to claim 1, wherein: still include casing (1), it holds chamber (2) to have seted up in casing (1), air inlet box (3), condenser pipe (11) and storage water tank (4) all set up in holding chamber (2), just air inlet (7) and air guide hole (15) with air inlet box (3) intercommunication and with exhaust hole (14) intercommunication are still seted up in casing (1).

4. The automatic cooling water discharge system according to claim 3, wherein: the air inlet box (3) is fixed on the cavity wall of the accommodating cavity (2), and a silica gel sealing I (5) is arranged at the joint between the cavity wall of the accommodating cavity (2) and the air inlet box (3);

a second silica gel seal (12) is arranged at the joint of the air inlet box (3) and the condenser pipe (11), and a third silica gel seal (13) is arranged at the joint of the condenser pipe (11) and the water storage tank (4);

the water storage tank (4) is fixed on the wall of the cavity containing cavity (2), and a silica gel seal four (6) is arranged at the joint between the water storage tank (4) and the wall of the cavity containing cavity (2).

5. The automatic cooling water discharge system according to claim 3, wherein: the air inlet flange (8) is fixed on the shell (1), the air inlet flange (8) and the air inlet hole (7) are coaxially arranged and communicated, the air outlet flange (16) is further fixed on the shell (1), and the air outlet flange (16) and the air guide hole (15) are coaxially arranged and communicated.

6. The automatic cooling water discharge system according to claim 5, wherein: a first sealing ring groove (9) is coaxially formed in the circumferential inner wall of the air inlet hole (7), a first sealing ring (10) is arranged in the first sealing ring groove (9), and the inner ring of the first sealing ring (10) is used for abutting against the circumferential outer wall of the air inlet flange (8);

the circumference inner wall of exhaust hole (14) has seted up sealed annular two (17) coaxially, be equipped with sealing washer two (18) in sealed annular two (17), the inner circle of sealing washer two (18) is used for the circumference outer wall of butt air outlet flange (16).

7. The automatic cooling water discharge system according to claim 3, wherein: the electromagnetic valve (23) is connected with a connecting pipe (22), the shell (1) is provided with a connecting hole (21), and one end, far away from the electromagnetic valve (23), of the connecting pipe (22) penetrates through the connecting hole (21) to be communicated with the drain hole (20).

8. The automatic cooling water discharge system according to claim 7, wherein: the hole wall of the drain hole (20) is coaxially provided with a third sealing ring groove (24), a third sealing ring (25) is arranged in the third sealing ring groove (24), and the inner ring of the third sealing ring (25) is used for abutting against the circumferential outer wall of the connecting pipe (22).

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