CN216574464U - Multi-groove common water supply system - Google Patents

Abstract

The utility model discloses a multi-groove common water supply system, wherein a first rinsing groove is provided with a water replenishing pipe and a first horizontal pumping, a first pneumatic diaphragm valve is arranged on a main water inlet pipeline of the first horizontal pumping, the first pneumatic diaphragm valve is communicated with a first water inlet branch pipe and a second water inlet branch pipe, the first water inlet branch pipe is provided with a first flowmeter and a first manual ball valve, and the terminal is provided with a first spray pipe; a second flowmeter and a second manual ball valve which are positioned on the second water inlet branch pipe and a second terminal spray pipe are arranged in the second rinsing bath; a water return pipe is arranged at the water outlet end of the horizontal pump II, and the water outlet of the water return pipe is communicated with the first rinsing tank. The utility model discloses a horizontal pumping of setting in wash bowl one realizes concentrated water supply to the allotment function through pneumatic diaphragm valve one realizes supplying water simultaneously to the shower of a plurality of wash bowls in and through the manual ball valve control washing product that the branch road of intaking was equipped with, thereby improve the water utilization ratio and reduce the pipeline wiring and reduce cost input such as pipeline.

Description

Multi-groove common water supply system

Technical Field

The utility model relates to a cleaning equipment technical field, in particular to multislot sharing water supply system.

Background

Many products need continuous clear water to wash the product in the production process, especially when carrying out photovoltaic cell piece production, because the silicon chip needs handle through multichannel process tank, and all need independent wash bowl to carry out the silicon chip and wash in order to get rid of surperficial liquid medicine residue and other impurity after the process at every turn finishes, and the water that has washd usually directly discharges and can not reuse, consequently need add water always to the wash bowl that corresponds the process tank rear end to the water yield that leads to consuming is very big in order to satisfy the requirement of actual production. In addition, different rinsing baths are provided with separate water replenishing pipes, water draining pipes and the like, so that the pipeline wiring is complicated and the cost investment is large.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a multi-tank shared water supply system, which at least comprises a first rinsing tank and a second rinsing tank;

a water replenishing pipe is arranged on one side of the rinsing bath, a first horizontal pump is arranged in the rinsing bath, the water outlet end of the first horizontal pump is communicated with a main water inlet pipe, a first pneumatic diaphragm valve is arranged on the main water inlet pipe, the water outlet end of the first pneumatic diaphragm valve is communicated with a first water inlet branch pipe and a second water inlet branch pipe, a first flowmeter and a first manual ball valve are arranged on the first water inlet branch pipe, and a first spray pipe is arranged at the terminal of the first water inlet branch pipe; a drain pipe and a drain valve are arranged at the bottom of the first rinsing tank; a first interlayer positioned below the first spray pipe is also arranged in the first rinsing bath;

the water inlet branch pipe II extends from the first rinsing bath to the interior of the second rinsing bath, and a flow meter II and a manual ball valve II which are positioned on the water inlet branch pipe II and a spray pipe II which is positioned at the terminal of the water inlet branch pipe II are arranged in the rinsing bath II; the inner side of the rinsing bath II is further provided with a second interlayer located below the second spray pipe and a first guide plate located on the lower side of the second interlayer and obliquely arranged, the upper side of the first guide plate is provided with a second horizontal pump, the water outlet end of the second horizontal pump is provided with a first return water pipe, and the water outlet of the first return water pipe is communicated to the first rinsing bath.

The first interlayer comprises a first upper water leakage supporting plate, a first particle filtering layer, a first adsorption layer and a first lower water leakage supporting plate which are sequentially arranged from top to bottom, and the side edges of the first upper water leakage supporting plate and the first lower water leakage supporting plate are matched with each other through a clamping groove to be arranged on a first clamping block inside the side wall of the water washing tank for rapid installation.

The interlayer II comprises an upper water leakage supporting plate II, a particle filtering layer II, an adsorption layer II and a lower water leakage supporting plate II which are sequentially arranged from top to bottom, and the side edges of the upper water leakage supporting plate II and the lower water leakage supporting plate II are matched with each other through a clamping groove II to be arranged on the inner side wall of the water washing tank II for rapid installation.

The first spray pipe comprises a first spray pipe body, a plurality of rows of first-level water spray holes arranged on the first spray pipe body in parallel, a first rotating pipe axially sleeved on the surface of the first spray pipe body and a row of second-level water spray holes arranged on the first rotating pipe in parallel, and the first rotating pipe is rotated to enable the second-level water spray holes to correspond to any row of the first-level water spray holes.

The second spray pipe comprises a second spray pipe body, a plurality of rows of first-level water spraying holes arranged on the second spray pipe body in parallel, a second rotary pipe axially sleeved on the surface of the second spray pipe body, and a row of second-level water spraying holes arranged on the second rotary pipe in parallel, and the second-level water spraying holes correspond to any row of the second first-level water spraying holes by rotating the second rotary pipe.

Through the technical scheme, the utility model discloses a horizontal pumping that sets up in rinsing bath one realizes concentrated water supply to the allotment function through pneumatic diaphragm valve one realizes supplying water simultaneously to the shower of a plurality of rinsing baths in and through the manual ball valve control washing product that the branch road of intaking was equipped with, thereby improve the utilization ratio of water and reduce the pipeline wiring and reduce cost input such as pipeline.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a schematic structural view of a water supply system shared by two tanks disclosed in embodiment 1 of the present invention; +

Fig. 2 is a schematic structural view of a three-tank shared water supply system disclosed in embodiment 2 of the present invention.

The figures in the drawings represent: 10. a first rinsing bath; 11. a water replenishing pipe; 12. horizontal pumping I; 13. a main water inlet pipe; 14. a first pneumatic diaphragm valve; 15. a first flowmeter; 16. a first manual ball valve; 17. a water inlet branch pipe I; 18. a first spray pipe; 19. a water inlet branch pipe II; 110. a drain pipe; 111. a drain valve; 112. a first interlayer; 20. a second rinsing bath; 21. a second flowmeter; 22. a second manual ball valve; 23. a second spray pipe; 24. a second horizontal pump; 25. a water return pipe I; 26. a first guide plate; 27. a second interlayer; 30. a third rinsing bath; 31. a third flowmeter; 32. a manual ball valve III; 33. a water inlet branch pipe III; 34. a third spray pipe; 35. a third horizontal pump; 36. a water return pipe II; 37. a second guide plate; 38. and a third interlayer.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1:

referring to fig. 1, embodiment 1 provides a water supply system shared by two tanks, which includes a first rinsing tank 10 and a second rinsing tank 20; a water replenishing pipe 11 is arranged on the side portion of the first rinsing bath 10, a first horizontal pump 12 is arranged in the first horizontal pump 12, the water outlet end of the first horizontal pump 12 is communicated with a main water inlet pipe 13, a first pneumatic diaphragm valve 14 is arranged on the main water inlet pipe 13, the water outlet end of the first pneumatic diaphragm valve 14 is communicated with a first water inlet branch pipe 17 and a second water inlet branch pipe 19, a first flowmeter 15 and a first manual ball valve 16 are arranged on the first water inlet branch pipe 17, and a first spray pipe 18 is arranged at the terminal end of the first water inlet branch pipe; a drain pipe 110 and a drain valve 111 are arranged at the bottom of the first rinsing bath 10; a first interlayer 112 positioned below the first spray pipe 18 is also arranged in the first rinsing bath 10; the water inlet branch pipe II 19 extends from the first rinsing bath 10 to the interior of the second rinsing bath 20, and a flow meter II 21 and a manual ball valve II 22 which are positioned on the water inlet branch pipe II 19 and a spray pipe II 23 positioned at the terminal of the water inlet branch pipe II 19 are arranged in the rinsing bath 20; the inner side of the rinsing tank II 20 is further provided with a partition layer II 27 located below the spray pipe II 23 and a guide plate I26 located below the partition layer II 27 and obliquely arranged, a horizontal pumping II 24 is arranged on the upper side of the guide plate I26, a water return pipe I25 is arranged at the water outlet end of the horizontal pumping II 24, and the water outlet of the water return pipe I25 is communicated with the rinsing tank I10.

The first interlayer 112 comprises a first upper water leakage supporting plate, a first particle filtering layer, a first adsorption layer and a first lower water leakage supporting plate which are sequentially arranged from top to bottom, and the side edges of the first upper water leakage supporting plate and the first lower water leakage supporting plate are quickly installed through a first clamping groove matched with a first clamping block arranged inside the side wall of the first rinsing bath 10; the second interlayer 27 comprises a second upper water leakage supporting plate, a second particle filtering layer, a second adsorption layer and a second lower water leakage supporting plate which are sequentially arranged from top to bottom, and the sides of the second upper water leakage supporting plate and the second lower water leakage supporting plate are rapidly installed through a second clamping groove matched with a second clamping block arranged inside the side wall of the second rinsing bath 20.

The first spray pipe 18 comprises a first spray pipe body, a plurality of rows of first-stage water spray holes arranged on the first spray pipe body in parallel, a first rotating pipe axially sleeved on the surface of the first spray pipe body, and a row of second-stage water spray holes arranged on the first rotating pipe in parallel, wherein the second-stage water spray holes correspond to any row of first-stage water spray holes by rotating the first rotating pipe; the second spray pipe 23 comprises a second spray pipe body, a plurality of rows of first-stage water spray holes II which are arranged on the second spray pipe body in parallel, a second rotary pipe which is axially sleeved on the surface of the second spray pipe body, and a row of second-stage water spray holes II which are arranged on the second rotary pipe in parallel, wherein the second-stage water spray holes correspond to any row of the first-stage water spray holes II by rotating the second rotary pipe.

Example 2:

based on the embodiment 1 and referring to fig. 2, the embodiment 2 is different from the embodiment 1 in that the embodiment 2 further includes a third rinsing bath 30, the third rinsing bath 30 is communicated to the main water inlet pipe 13 of the first rinsing bath 10 through a third water inlet branch pipe 33, and a third flow meter 31 and a third manual ball valve 32 which are located on the third water inlet branch pipe 33 and a third spray pipe 34 which is located at a terminal of the third water inlet branch pipe 33 are arranged inside the third rinsing bath 30; the inner side of the third rinsing bath 30 is also provided with a third interlayer 38 positioned below the third spray pipe 34 and a third guide plate 37 positioned below the third interlayer 38 and obliquely arranged, the upper side of the third guide plate 37 is provided with a third horizontal pump 35, the water outlet end of the third horizontal pump 35 is provided with a second water return pipe 36, and the water outlet of the second water return pipe 36 is communicated with the first rinsing bath 10.

The third interlayer 38 comprises a third upper water leakage supporting plate, a third particle filtering layer, a third adsorption layer and a third lower water leakage supporting plate which are sequentially arranged from top to bottom, and the sides of the third upper water leakage supporting plate and the third lower water leakage supporting plate are rapidly installed through three clamping grooves matched with three clamping blocks arranged inside the side wall of the third rinsing bath 30.

The third spray pipe 34 comprises a third spray pipe body, a plurality of rows of first-level water spray holes arranged on the third spray pipe body in parallel, a third rotary pipe axially sleeved on the three surfaces of the third spray pipe body, and a row of second-level water spray holes arranged on the third rotary pipe in parallel, wherein the third rotary pipe is rotated to enable the third second-level water spray holes to correspond to any row of first-level water spray holes.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A multi-tank common water supply system is characterized by at least comprising a first rinsing tank (10) and a second rinsing tank (20);

a water replenishing pipe (11) is arranged on the side portion of the first rinsing tank (10), a first horizontal pump (12) is arranged in the first horizontal pump, the water outlet end of the first horizontal pump (12) is communicated with a main water inlet pipe (13), a first pneumatic diaphragm valve (14) is arranged on the main water inlet pipe (13), the water outlet end of the first pneumatic diaphragm valve (14) is communicated with a first water inlet branch pipe (17) and a second water inlet branch pipe (19), a first flowmeter (15) and a first manual ball valve (16) are arranged on the first water inlet branch pipe (17), and a first spray pipe (18) is arranged at the terminal; a drain pipe (110) and a drain valve (111) are arranged at the bottom of the first rinsing bath (10); a first interlayer (112) positioned below the first spray pipe (18) is also arranged in the first rinsing bath (10);

the water inlet branch pipe II (19) extends from the water washing tank I (10) to the interior of the water washing tank II (20), and a flow meter II (21) and a manual ball valve II (22) which are positioned on the water inlet branch pipe II (19) and a spray pipe II (23) which is positioned at the terminal of the water inlet branch pipe II (19) are arranged in the water washing tank II (20); the inner side of the second rinsing bath (20) is further provided with a second interlayer (27) located below the second spray pipe (23) and a first guide plate (26) located on the lower side of the second interlayer (27) and arranged obliquely, a second horizontal pump (24) is arranged on the upper side of the first guide plate (26), a first water return pipe (25) is arranged at the water outlet end of the second horizontal pump (24), and the water outlet end of the first water return pipe (25) is communicated to the first rinsing bath (10).

2. The water supply system with multiple grooves shared as claimed in claim 1, wherein the first interlayer (112) comprises a first upper water leakage supporting plate, a first particle filtering layer, a first adsorption layer and a first lower water leakage supporting plate which are sequentially arranged from top to bottom, and the side edges of the first upper water leakage supporting plate and the first lower water leakage supporting plate are rapidly installed through a first clamping groove matched with a first clamping block arranged inside the side wall of the first rinsing groove (10).

3. The water supply system with the multiple grooves shared as in claim 1, wherein the second interlayer (27) comprises a second upper water leakage supporting plate, a second particle filtering layer, a second adsorption layer and a second lower water leakage supporting plate which are sequentially arranged from top to bottom, and the sides of the second upper water leakage supporting plate and the second lower water leakage supporting plate are fast installed through a second clamping groove which is matched with a second clamping block arranged inside the side wall of the second rinsing groove (20).

4. The system of claim 1, wherein the first lance (18) includes a first lance body, a first plurality of rows of primary water orifices arranged side by side on the first lance body, a first rotary tube axially disposed over a surface of the first lance body, and a first plurality of rows of secondary water orifices arranged side by side on the first rotary tube, the first rotary tube being rotated such that the second plurality of water orifices corresponds to any one of the first plurality of rows of primary water orifices.

5. The system of claim 1, wherein the second nozzle (23) comprises a second nozzle body, a plurality of rows of second primary water spraying holes arranged in parallel on the second nozzle body, a second rotary tube axially sleeved on the surface of the second nozzle body, and a row of second secondary water spraying holes arranged in parallel on the second rotary tube, and the second rotary tube is rotated to enable the second secondary water spraying holes to correspond to any row of the second primary water spraying holes.

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