CN214665405U - Water drainage system for preventing electromagnetic valve from leaking water - Google Patents

Abstract

The utility model relates to a water discharge system for preventing electromagnetic valve from leaking water, wherein the water outlet end of a water inlet header pipe is connected with a first branch pipe and a second branch pipe; the first branch pipe is sequentially provided with a first stop valve, a first filter and a first electric valve from the water inlet end; the water outlet end of the first branch pipe is connected with a first water storage elbow; the water outlet end of the first water storage elbow is connected with a third branch pipe; the water outlet end of the third branch pipe is connected with a fourth branch pipe and a fifth branch pipe; the water outlet ends of the fourth branch pipe and the fifth branch pipe are connected and installed with the water inlet end of the first air cooler; a second stop valve, a second filter and a second electric valve are sequentially arranged on the second branch pipe from the water inlet end; the water outlet end of the second branch pipe is connected with a second water storage elbow; the utility model discloses can provide a wash by water defrosting effectual and the difficult sluicing system that prevents that the solenoid valve from leaking of backward flow of the inside defrosting water of pipeline.

Description

Water drainage system for preventing electromagnetic valve from leaking water

Technical Field

The utility model belongs to the technical field of the leak protection system is relevant, concretely relates to prevent sluicing system that solenoid valve leaked.

Background

In refrigerating system, because the long-time function of air-cooler, a large amount of frost will appear in inside evaporimeter, in order to avoid these frost to influence the function of air-cooler, all can let in hot water regularly to the air-cooler and defrost, in order to avoid defrosting simultaneously remaining water in the pipeline to influence the air-cooler function, also can install the solenoid valve on the water supply pipeline, can effectually avoid remaining water in the pipeline to flow back in the air-cooler through the solenoid valve. On a defrosting flushing pipeline in the existing industry, in order to avoid water flow in the pipeline from flowing back into an air cooler, an electromagnetic valve is usually arranged on the pipeline, but if the electromagnetic valve is damaged or not closed tightly, the water flow can flow back into the air cooler, and further the air cooler is damaged; the cold air blower in the industry is usually provided with a single flushing pipeline, so that the defrosting efficiency is low and the defrosting effect is not obvious.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wash by water defrosting is effectual and the difficult sluicing system that prevents that the solenoid valve from leaking of backward flow of the inside defrosting water of pipeline.

In order to achieve the above object, the utility model provides a following technical scheme: a water draining system for preventing water leakage of an electromagnetic valve comprises a first air cooler, a second air cooler, a water inlet main pipe and a water outlet main pipe; the water outlet end of the water inlet main pipe is connected with a first branch pipe and a second branch pipe; a first stop valve, a first filter and a first electric valve are sequentially arranged on the first branch pipe from the water inlet end; the water outlet end of the first branch pipe is connected with a first water storage elbow; the water outlet end of the first water storage elbow is connected with a third branch pipe; the water outlet end of the third branch pipe is connected with a fourth branch pipe and a fifth branch pipe; the water outlet ends of the fourth branch pipe and the fifth branch pipe are connected and installed with the water inlet end of the first air cooler; a second stop valve, a second filter and a second electric valve are sequentially arranged on the second branch pipe from the water inlet end; the water outlet end of the second branch pipe is connected with a second water storage elbow; the water outlet end of the second water storage elbow is connected with a sixth branch pipe; the water outlet end of the sixth branch pipe is connected with a seventh branch pipe and an eighth branch pipe; the water outlet ends of the seventh branch pipe and the eighth branch pipe are connected with the water inlet end of the second air cooler; the water inlet end of the water outlet main pipe is connected with a ninth branch pipe and a tenth branch pipe; a first electromagnetic valve, a third filter and a third stop valve are sequentially arranged on the ninth branch pipe from the water outlet end; the water inlet end of the ninth branch pipe is connected and installed with the first water storage elbow; a second electromagnetic valve, a fourth filter and a fourth stop valve are sequentially arranged on the tenth branch pipe from the water outlet end; and the water inlet end of the tenth branch pipe is connected and installed with the second water storage elbow pipe.

As a further improvement of the utility model, a fifth stop valve is installed on the fourth branch pipe.

As a further improvement of the utility model, a sixth stop valve is installed on the fifth branch pipe.

As a further improvement of the utility model, a seventh stop valve is installed on the seventh branch pipe.

As a further improvement of the utility model, an eighth stop valve is installed on the eighth branch pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the technical scheme is provided with the water inlet main pipe and the water outlet main pipe, so that the defrosting water and the defrosted water can be separately flowed in and discharged, and the mutual interference of water flow is avoided, so that the operation of the first air cooler and the second air cooler is influenced; according to the technical scheme, the fourth branch pipe and the fifth branch pipe are arranged on the first air cooler, the seventh branch pipe and the eighth branch pipe are arranged on the second air cooler, and the bidirectional pipelines are arranged on the first air cooler and the second air cooler, so that the defrosting efficiency can be improved, and damage to one branch pipe can be avoided, and defrosting is further influenced; according to the technical scheme, the ninth branch pipe and the tenth branch pipe are respectively provided with the first electromagnetic valve and the second electromagnetic valve, so that water after defrosting can be effectively prevented from flowing back into the first air cooler and the second air cooler through the first electromagnetic valve and the second electromagnetic valve; this technical scheme ninth branch pipe and tenth branch pipe's the end of intaking are provided with first trap and second trap respectively, through first trap and second trap, can effectually avoid first solenoid valve and second solenoid valve to appear damaging, lead to the water after the defrosting to flow back in first air-cooler and second air-cooler, and then influence the function of first air-cooler and second air-cooler.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

In the figure: 1. a first air cooler; 2. a second air cooler; 3. a water inlet main pipe; 4. a water outlet main pipe; 5. a first branch pipe; 6. a second branch pipe; 7. a first shut-off valve; 8. a first filter; 9. a first electrically operated valve; 10. a first trap; 11. a third branch pipe; 12. a fourth branch pipe; 13. a fifth branch pipe; 14. a second stop valve; 15. a second filter; 16. a second electrically operated valve; 17. a second trap; 18. a sixth branch pipe; 19. a seventh branch pipe; 20. an eighth branch pipe; 21. a ninth branch pipe; 22. a tenth branch pipe; 23. a first solenoid valve; 24. a third filter; 25. a third stop valve; 26. a second solenoid valve; 27. a fourth filter; 28. a fourth stop valve; 29. a fifth stop valve; 30. a sixth stop valve; 31. a seventh stop valve; 32. and an eighth stop valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a water draining system for preventing water leakage of an electromagnetic valve comprises a first air cooler 1, a second air cooler 2, a water inlet header pipe 3 and a water outlet header pipe 4; the water outlet end of the water inlet main pipe 3 is connected with a first branch pipe 5 and a second branch pipe 6; a first stop valve 7, a first filter 8 and a first electric valve 9 are sequentially arranged on the first branch pipe 5 from the water inlet end; the water outlet end of the first branch pipe 5 is connected with a first water storage elbow 10; the water outlet end of the first trap 10 is connected with a third branch pipe 11; the water outlet end of the third branch pipe 11 is connected with a fourth branch pipe 12 and a fifth branch pipe 13; the water outlet ends of the fourth branch pipe 12 and the fifth branch pipe 13 are connected with the water inlet end of the first air cooler 1; a second stop valve 14, a second filter 15 and a second electric valve 16 are sequentially arranged on the second branch pipe 6 from the water inlet end; the water outlet end of the second branch pipe 6 is connected with a second water storage elbow 17; the water outlet end of the second trap 17 is connected with a sixth branch pipe 18; the water outlet end of the sixth branch pipe 18 is connected with a seventh branch pipe 19 and an eighth branch pipe 20; the water outlet ends of the seventh branch pipe 19 and the eighth branch pipe 20 are connected with the water inlet end of the second air cooler 2; the water inlet end of the water outlet main pipe 4 is connected with a ninth branch pipe 21 and a tenth branch pipe 22; a first electromagnetic valve 23, a third filter 24 and a third stop valve 25 are sequentially arranged on the ninth branch pipe 21 from the water outlet end; the water inlet end of the ninth branch pipe 21 is connected with the first trap 10; a second electromagnetic valve 26, a fourth filter 27 and a fourth stop valve 28 are sequentially arranged on the tenth branch pipe 22 from the water outlet end; the water inlet end of the tenth branch pipe 22 is connected with the second water storage elbow 17; a fifth stop valve 29 is mounted on the fourth branch pipe 12; a sixth stop valve 30 is mounted on the fifth branch pipe 13; a seventh stop valve 31 is mounted on the seventh branch pipe 19; an eighth shut-off valve 32 is mounted on the eighth branch pipe 20.

When defrosting and flushing are needed to be carried out on the first air cooler 1 and the second air cooler 2, water flow is introduced through the water inlet main pipe 3, the first branch pipe 5, the first water trap 10, the third branch pipe 11, the fourth branch pipe 12 and the fifth branch pipe 13 to defrost the first air cooler 1; water flow is introduced through the water inlet manifold 3, the second branch pipe 6, the second water trap 17, the sixth branch pipe 18, the seventh branch pipe 19 and the eighth branch pipe 20 to defrost the second air cooler 2; the defrosted water in the first air cooler 1 flows out from the fourth branch pipe 12, the fifth branch pipe 13, the third branch pipe 11, the trap 10, the ninth branch pipe 21 and the water outlet header pipe 4; the defrosted water in the second air cooler 2 flows out from the seventh branch pipe 19, the eighth branch pipe 20, the sixth branch pipe 18, the second trap 17, the tenth branch pipe 22 and the water outlet manifold 4.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a prevent sluicing system of solenoid valve leakage which characterized in that: comprises a first air cooler (1), a second air cooler (2), a water inlet header pipe (3) and a water outlet header pipe (4); the water outlet end of the water inlet main pipe (3) is connected with a first branch pipe (5) and a second branch pipe (6); a first stop valve (7), a first filter (8) and a first electric valve (9) are sequentially arranged on the first branch pipe (5) from the water inlet end; the water outlet end of the first branch pipe (5) is connected with a first water storage elbow (10); the water outlet end of the first water storage elbow (10) is connected with a third branch pipe (11); the water outlet end of the third branch pipe (11) is connected with a fourth branch pipe (12) and a fifth branch pipe (13); the water outlet ends of the fourth branch pipe (12) and the fifth branch pipe (13) are connected and installed with the water inlet end of the first air cooler (1); a second stop valve (14), a second filter (15) and a second electric valve (16) are sequentially arranged on the second branch pipe (6) from the water inlet end; the water outlet end of the second branch pipe (6) is connected with a second water storage elbow (17); a sixth branch pipe (18) is connected and mounted at the water outlet end of the second water storage elbow (17); the water outlet end of the sixth branch pipe (18) is connected with a seventh branch pipe (19) and an eighth branch pipe (20); the water outlet ends of the seventh branch pipe (19) and the eighth branch pipe (20) are connected with the water inlet end of the second air cooler (2); a ninth branch pipe (21) and a tenth branch pipe (22) are connected and mounted at the water inlet end of the water outlet main pipe (4); a first electromagnetic valve (23), a third filter (24) and a third stop valve (25) are sequentially arranged on the ninth branch pipe (21) from the water outlet end; the water inlet end of the ninth branch pipe (21) is connected and installed with the first water storage elbow (10); a second electromagnetic valve (26), a fourth filter (27) and a fourth stop valve (28) are sequentially arranged on the tenth branch pipe (22) from the water outlet end; the water inlet end of the tenth branch pipe (22) is connected and installed with the second water storage elbow (17).

2. The water drainage system for preventing the electromagnetic valve from leaking water according to claim 1, wherein: and a fifth stop valve (29) is installed on the fourth branch pipe (12).

3. The water drainage system for preventing the electromagnetic valve from leaking water according to claim 1, wherein: and a sixth stop valve (30) is installed on the fifth branch pipe (13).

4. The water drainage system for preventing the electromagnetic valve from leaking water according to claim 1, wherein: and a seventh stop valve (31) is arranged on the seventh branch pipe (19).

5. The water drainage system for preventing the electromagnetic valve from leaking water according to claim 1, wherein: and an eighth stop valve (32) is installed on the eighth branch pipe (20).

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