A bubble washing tank

By designing a bubbling cleaning water tank and optimizing the positions of the filter basket and nozzles, the problems of debris affecting water flow rate and inconvenience in cleaning were solved, thus achieving continuity and convenience in cleaning tasks.

CN224332911UActive Publication Date: 2026-06-09ZHEJIANG HENGDE CLEANING TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG HENGDE CLEANING TECH CO LTD
Filing Date
2024-12-26
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In existing cleaning tanks, the accumulated garbage during the cleaning process affects the cleaning effect, and the garbage disposal is inconvenient after cleaning. At the same time, the direct contact between the cleaning tank and the inlet and outlet of the water affects the water flow rate.

Method used

Design a bubbling cleaning water tank, which is isolated from the filter basket of the drain tank by the water inlet. The cleaning waste in the tank automatically collects on the filter basket for easy cleaning. The nozzles are set on the inclined plate to cover the entire area of ​​the tank and avoid siphoning. The overflow rod controls the water level to ensure smooth water flow.

Benefits of technology

It enables automatic collection of cleaning waste, facilitating easy cleaning, reducing the impact on water flow rate, ensuring continuous cleaning operations, and improving the user experience.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224332911U_ABST
    Figure CN224332911U_ABST
Patent Text Reader

Abstract

The application discloses a bubble cleaning pool, which comprises a water tank and a bubble mechanism, the water tank is connected with the bubble mechanism, the water tank is provided with a water inlet and a water outlet, the water tank comprises a main plate, a side plate, a horizontal plate and a first filter basket, the main plate comprises a first vertical plate and an inclined plate, the inclined plate is connected with the first vertical plate, the inclined plate and the first vertical plate have an angle, two main plates are symmetrically arranged, two ends of the horizontal plate are connected with two inclined plates respectively, two side plates are arranged on the two sides of two main plates and the horizontal plate respectively, and the first filter basket is located on two inclined plates, so that the water tank has a pool body and a sump, the water inlet is communicated with the sump, and the water outlet is also communicated with the sump. The application has the effects of improving the cleaning speed of the bubble cleaning pool and improving the cleaning effect of the bubble cleaning pool.
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Description

Technical Field

[0001] This application relates to the field of bubbling cleaning technology, and in particular to a bubbling cleaning water tank. Background Technology

[0002] The cleaning pools in the existing technology are commonly rectangular or circular, which can complete the cleaning task, but the deposited garbage is carried up by the nozzles, which will affect the cleaning effect. It is also inconvenient to dispose of the garbage after cleaning. At the same time, the direct contact between the cleaning pool and the inlet and outlet will affect the water flow rate at the inlet and outlet, so that the user needs to spend more effort to deal with the cleaning garbage, thereby ensuring the continuous operation of the cleaning task. Utility Model Content

[0003] In view of this, this application provides a bubbling cleaning water tank, which enables cleaning waste to automatically collect and is easy to clean. Furthermore, by separating the inlet, outlet and cleaning water tank from direct contact, the impact of cleaning waste on the water flow rate is reduced, thereby ensuring that the cleaning task can be carried out continuously.

[0004] In summary, in order to improve the cleaning rate and effect of the bubbling cleaning water tank and optimize the user experience, this application proposes a bubbling cleaning water tank.

[0005] The bubbling cleaning water tank provided in this application adopts the following technical solution:

[0006] A bubbling cleaning water tank includes a water tank and a bubbling mechanism. The water tank is connected to the bubbling mechanism. The water tank has an inlet and an outlet. The water tank includes a main plate, side plates, a horizontal plate, and a first filter basket. The main plate includes a first vertical plate and an inclined plate. The inclined plate is connected to the first vertical plate and forms an angle with the first vertical plate. The two main plates are symmetrically arranged. The two ends of the horizontal plate are respectively connected to the two inclined plates. The two side plates are respectively arranged on both sides of the two main plates and the horizontal plate. The first filter basket is located on the two inclined plates, so that the water tank has a pool body and a drain pool. The inlet is connected to the drain pool, and the outlet is also connected to the drain pool.

[0007] By adopting the above technical solution, water flows into the inlet, and the water source passes through the drain pool, filling the pool body through the first filter basket on the drain pool. The first filter basket isolates the inlet from the drain pool, reducing the impact of cleaning debris on the water flow rate at the inlet. The dishes to be washed are placed in the pool body and are cleaned by a bubble mechanism. After washing, the user removes the dishes, and the water flows through the first filter basket into the drain pool and out through the outlet on the drain pool, reducing the impact of cleaning debris on the outflow rate. The cleaning debris in the pool body descends with the water flow, and because the bottom of the pool body consists of two inclined plates and the first filter basket, the cleaning debris slides from the inclined plates to the first filter basket, allowing the cleaning debris to automatically collect on the first filter basket. This makes it convenient for the user to clean the cleaning debris, reducing the effort spent by the user in handling cleaning debris, and thus allowing the user to easily carry out the next round of washing work.

[0008] Preferably, the main board further includes a second vertical plate. One end of the inclined plate is connected to the first vertical plate, and the other end is connected to the second vertical plate. The inclined plate and the first vertical plate are at an angle, and the inclined plate and the second vertical plate are also at an angle. The two main boards are symmetrically arranged. The two ends of the horizontal plate are respectively connected to the second vertical plates of the two main boards. Two side plates are respectively arranged on both sides of the two main boards and the horizontal plate. The first filter basket is located on the two second vertical plates, so that the water tank has a pool body and a drain pool. The water inlet is connected to the drain pool, and the water outlet is also connected to the drain pool. An overflow rod is provided on the water outlet.

[0009] By adopting the above technical solution, the shape of the drain pool formed by the second vertical plate, horizontal plate and side plate is more regular and beautiful than the shape of the drain pool formed by the inclined plate, horizontal plate and side plate. The overflow rod ensures that the water level in the pool has a maximum value and will not overflow.

[0010] Preferably, the bubbling mechanism includes a bubbling air pipe, a nozzle, and a spray pipe. The spray pipe is arranged on the inclined plate of the main board, and the spray pipe is connected to the bubbling air pipe. The nozzle is located on the spray pipe, and the nozzle is at least partially located in the pool body of the water tank. A check valve is provided on the spray pipe.

[0011] By adopting the above technical solution, the bubbling pipe is connected to the air source, so that the nozzle continuously sprays gas to form bubbles. The tableware is cleaned by the bursting of the bubbles. The position of the nozzle is arranged by the arrangement of the spray pipe. Since the inclined plate acts as the bottom of the pool, the nozzle is placed on the inclined plate to make the bubbles rise and spread to all areas of the pool. The check valve prevents a large amount of water from remaining in the pipe and also avoids siphoning.

[0012] Preferably, the water tank is equipped with a partition that divides the pool into a water level pool and a cleaning pool. The drain pool is located below the water level pool and the cleaning pool. The water level pool is equipped with a water level controller.

[0013] By adopting the above technical solution, a water level tank is separated by a partition, and the water level tank and the cleaning tank are connected through a drain tank. This ensures that the water level tank is not affected by the bubbling in the cleaning tank, and that the water level in the water level tank is consistent with the water level in the cleaning tank. By setting a water level controller in the water level tank, the water level can be accurately adjusted.

[0014] Preferably, the outlet is located below the water level pool, and an overflow rod is provided on the outlet.

[0015] By adopting the above technical solution, when water enters through the inlet, the overflow rod is connected to the outlet. The overflow rod ensures that the water level in the pool has a maximum value. When water needs to be discharged through the outlet, the overflow rod is disconnected from the outlet, so that the water can flow out from the outlet of the lower pool. Thus, the outlet has both overflow and discharge functions. A variety of technical effects can be achieved through a simple structural design.

[0016] Preferably, the partition is provided with a second filter basket, and the second filter basket is provided with a handle.

[0017] By adopting the above technical solution, users can use the second filter basket to retrieve the cleaning debris washed up by the bubbling, and collect the debris carried out by the bubbling to prevent the water tank from becoming turbid.

[0018] Preferably, the water tank is provided with a control panel, and the water tank has two or more panel connection slots, which are connected to the control panel.

[0019] By adopting the above technical solution, the position of the control panel can be easily moved, avoiding unidirectional production control.

[0020] Preferably, it also includes a pool support frame, which is connected to the water tank, and the lower end of the pool support frame is provided with height-adjustable feet.

[0021] By adopting the above technical solution, the height of the water tank for bubbling cleaning can be adjusted.

[0022] Preferably, the bubbling pipe has a blower at the end away from the nozzle, and the blower is equipped with a silencer.

[0023] By adopting the above technical solution, the bubbling rate can be adjusted by the blower, and the noise generated by the blower can be reduced by the silencer.

[0024] Preferably, the water tank is equipped with a heating pipe inside the lower water pool.

[0025] By adopting the above technical solution, the water in the water tank is heated, resulting in better hot water washing of tableware and a better user experience.

[0026] In summary, this application includes at least one of the following beneficial technical effects:

[0027] 1. Water flows in through the inlet, passing through the drain and filling the pool via a first filter basket placed on top of it. This first filter basket isolates the inlet from the drain, minimizing the impact of cleaning debris on the water flow rate. Dishes to be washed are placed inside the pool and cleaned using a bubble-driven mechanism. After washing, the user removes the dishes, and water flows through the first filter basket back into the drain, exiting through the outlet on top of the drain, further minimizing the impact of cleaning debris on the outflow rate. Cleaning debris in the pool sinks with the water flow, and because the bottom of the pool consists of two inclined plates and the first filter basket, the debris slides from the inclined plates to the first filter basket, automatically collecting there for easy cleaning and reducing the effort required for the user to handle cleaning debris, thus allowing for a convenient start to the next washing cycle.

[0028] 2. The nozzle positions are arranged by the arrangement of the spray pipes. Since the inclined plate acts as the bottom of the pool, the nozzles are placed on the inclined plate to make the bubbles rise and spread to all areas of the pool. The check valve prevents a large amount of water from remaining in the pipes and also avoids siphoning.

[0029] 3. When water enters through the inlet, the overflow rod is connected to the outlet. The overflow rod ensures that the water level in the pool reaches its maximum value. When water needs to be discharged from the outlet, the overflow rod is disconnected from the outlet, allowing water to flow out from the outlet of the lower pool. This enables the outlet to have both overflow and discharge functions. A wealth of technical effects can be achieved through a simple structural design. Attached Figure Description

[0030] Figure 1 This is a schematic diagram of the structure of the bubbling cleaning water tank in this embodiment;

[0031] Figure 2 This is a schematic diagram of the structure of part of the water tank and heating pipe in this embodiment;

[0032] Figure 3 This is an isometric schematic diagram of part of the bubbling cleaning water tank in this embodiment;

[0033] Figure 4 This is a schematic diagram of the bubbling mechanism and part of the pool support in this embodiment;

[0034] Figure 5 This is a cross-sectional view of the water tank for bubbling cleaning in this embodiment.

[0035] Attached reference numerals: 1. Water tank; 2. Bubbling mechanism; 3. Inlet; 4. Outlet; 5. Main board; 6. Side plate; 7. Horizontal plate; 8. First filter basket; 9. First vertical plate; 10. Second vertical plate; 11. Inclined plate; 12. Tank body; 13. Lower water tank; 14. Bubbling air pipe; 15. Nozzle; 16. Spray pipe; 17. Baffle; 18. Water level tank; 19. Cleaning tank; 20. Water level controller; 21. Overflow. 21. Flow bar; 22. Second filter basket; 23. Handle; 24. Control panel; 25. Pool support; 26. Support leg; 27. Blower; 28. Silencer; 29. ​​Heating element; 30. "J" shaped edge; 31. First support; 32. Basket body; 33. Handle; 34. Second crossbar; 35. Mesh panel; 36. Second support; 37. Sealing plate; 38. Limiting plate; 39. Hook; 40. Power supply box. Detailed Implementation

[0036] The following is in conjunction with the appendix Figure 1-5 This application will be described in further detail.

[0037] This application discloses a bubbling cleaning water tank.

[0038] Reference Figures 1-5 ,

[0039] Reference Figures 1-5 It includes a pool support 25, a water tank 1 and a bubbling mechanism 2. The water tank 1 is located on the pool support 25, and the bubbling mechanism 2 is connected to the water tank 1, so that part of the bubbling mechanism 2 is located inside the water tank 1, and the bubbling mechanism 2 generates bubbles inside the water tank 1.

[0040] The water tank 1 includes two main plates 5, two side plates 6, a horizontal plate 7, and a first filter basket 8. The main plates 5 include a first vertical plate 9, a second vertical plate 10, and an inclined plate 11. The upper side of the first vertical plate 9 is folded to form a horizontal "J"-shaped edge 30. The upper side of the inclined plate 11 is integrally formed with the lower side of the first vertical plate 9, and the lower side of the inclined plate 11 is integrally formed with the upper side of the second vertical plate 10, creating an angle between the inclined plate 11 and both the first and second vertical plates 9 and 10. Spray nozzle holes are evenly distributed on the inclined plate 11. The two main plates 5 are symmetrically arranged, such that the distance between the two first vertical plates 9 is greater than the distance between the two second vertical plates 10. The two ends of the horizontal plate 7 are welded to the two second vertical plates 10 respectively. A first bracket 31 is bolted to the connection between the inclined plate 11 and the second vertical plate 10. The first filter basket 8 is shaped like a "7". It includes a basket body 32 for holding cleaning waste and a handle 33. The upper side of the basket body 32 is provided with a side protrusion for connecting with the first support 31, so that the first filter basket 8 can be placed on the first support 31 through the side protrusion. The horizontal height of the side protrusion of the first filter basket 8 is less than or equal to the lowest point of the upper surface of the inclined plate 11. The handle 33 is provided on the basket body 32, so that the user can easily lift the basket body 32 through the handle 33 to handle the cleaning waste in the basket body 32. The first filter basket 8 divides the internal space of the water tank 1 into a pool body 12 and a drain pool 13. The pool body 12 is the space formed by the first vertical plate 9, the inclined plate 11 and the upper side of the first filter basket 8. The drain pool 13 is the space formed by the two second vertical plates 10, the horizontal plate 7 and the lower side of the first filter basket 8.

[0041] The two side plates 6 are shaped like inverted "convex" shapes, and the upper sides of the two side plates 6 are also folded outward to form a horizontal "J"-shaped edge 30. The side plates 6 are welded to the main plate 5 and the horizontal plate 7, so that the two side plates 6 are respectively sealed at both ends of the two main plates 5 and the horizontal plate 7. The lower part of the left side plate 6 has a first through hole, and the first through hole has a water inlet 3, so that the water inlet 3 is located in the lower pool 13. The outer end of the water inlet 3 is connected to a water inlet pipe, and the water inlet solenoid valve is connected to the water inlet pipe. The horizontal plate 7 has a second through hole at the end away from the water inlet 3, and the second through hole has a water outlet 4. The horizontal height of the upper side of the water outlet 4 is less than or equal to the height of the upper side of the horizontal plate 7.

[0042] Water flows through inlet 3 into the drain tank 13 and fills the tank body 12 through the first filter basket 8 on the drain tank 13. The first filter basket 8 isolates inlet 3 from drain tank 13, reducing the impact of cleaning debris on the inlet water flow rate. The tableware to be washed is placed in the tank body 12 and is cleaned by the bubble mechanism 2. After washing, the user removes the tableware, and the water flows through the first filter basket 8 into the drain tank 13 and out through the outlet 4 on the drain tank 13, reducing the impact of cleaning debris on the outlet water flow rate. The cleaning debris in the tank body 12 sinks down with the water flow, and because the bottom of the tank body 12 consists of two inclined plates 11 and the first filter basket 8, the cleaning debris slides from the inclined plates 11 to the first filter basket 8, allowing the cleaning debris to automatically collect on the first filter basket 8. This makes it convenient for the user to clean the cleaning debris, reducing the effort required to handle the cleaning debris and allowing the user to easily proceed with the next round of washing.

[0043] The water tank support 25 includes a first horizontal bar, a second horizontal bar 34, and a vertical bar. The first horizontal bar is connected to the "J"-shaped edge 30 on the main board 5 and the side plate 6, so that the first horizontal bar is located inside the "J"-shaped edge 30. The second horizontal bars 34 intersect to form a mesh plate 35. One end of the vertical bar is connected to the lower side of the first horizontal bar, and the other end is connected to the upper side of the second horizontal bar 34. The lower side of the second horizontal bar 34 is bolted with a support leg 26. The water tank support 25 provides a certain height for the water tank 1, which is convenient for users to stand or sit next to it to work, and also convenient for users to move the position of the water tank 1. A power supply box 40 is placed on the mesh plate 35. The power supply box 40 is electrically connected to the bubbling mechanism 2 and also electrically connected to the water inlet solenoid valve.

[0044] The bubbling mechanism 2 includes a blower 27, two bubbling air pipes 14, two nozzles 16, and multiple nozzles 15. The blower 27 is placed on the mesh plate 35 and is symmetrically connected to the two bubbling air pipes 14 via a three-way pipe. The nozzles 16 are U-shaped and are symmetrically arranged on the lower side of the two inclined plates 11. The two bubbling air pipes 14 are connected to the two nozzles 16 respectively, and each nozzle 16 has a check valve near the bubbling air pipe 14. The nozzles 15 are located on the upper side of the inclined plate 11, and the lower part of the nozzle 15 passes through the inclined plate. The nozzle holes on plate 11 are sealed to the nozzle 16, allowing the gas from blower 27 to enter the nozzle 16 through the bubbling pipe 14 and then enter the pool 12 through the nozzle 15 on the nozzle 16. The gas forms bubbles in the water tank 1 filled with water, and the tableware is cleaned by the bursting of the bubbles. The check valve effectively prevents a large amount of water from remaining in the pipe and also prevents siphoning. Moreover, the symmetrically arranged nozzles 16 are distributed on the lower side of the two side plates 6, making the pipe distribution simple and beautiful. The bubbling rate can also be adjusted by blower 27.

[0045] Furthermore, in this embodiment, the main board 5 can also remove the second vertical plate 10, so that the main board 5 includes a first vertical plate 9 and an inclined plate 11. The upper side of the first vertical plate 9 is folded to form a horizontal "J"-shaped edge 30. The upper side of the inclined plate 11 is integrally formed with the lower side of the first vertical plate 9. Spray nozzle holes are evenly opened on the inclined plate 11. The two main boards 5 are symmetrically arranged, so that the distance between the two main boards 5 is greater than the distance between the two inclined plates 11. The two sides of the horizontal plate 7 are respectively welded to the lower sides of the two inclined plates 11, and the first bracket 31 is welded to the lower part of the inclined plate 11. The first filter basket 8 is placed on the first bracket through the side protrusion. On the frame 31, the first filter basket 8 divides the internal space of the water tank 1 into a pool body 12 and a lower pool 13. The pool body 12 is the space formed by the first vertical plate 9, the upper part of the inclined plate 11, and the upper side of the first filter basket 8. The lower pool 13 is the space formed by the lower part of the inclined plate 11, the horizontal plate 7, and the lower side of the first filter basket 8. The upper part of the two side plates 6 is rectangular, and the upper side of the two side plates 6 is also folded outward to form a horizontal "J"-shaped edge 30. The lower part is an inverted isosceles trapezoid, so that the two side plates 6 are respectively sealed at both ends of the two main plates 5 and the horizontal plate 7, making the structure of the bubbling cleaning water tank simpler.

[0046] Furthermore, in this embodiment, the nozzle 16 may also be shaped like a "mouth".

[0047] Furthermore, in this embodiment, the inner wall of the first horizontal plate 7 is symmetrically provided with second supports 36. The cross-section of the second supports 36 is "U" shaped. The second supports 36 are vertically arranged at one end of the water tank 1 near the outlet 4. A partition 17 is inserted into the two second supports 36. The partition 17 includes an upper part and a lower part. The upper part of the partition 17 has the same cross-section as the pool body 12, so that the partition 17 can relatively seal the pool body 12. The lower part of the partition 17 can cooperate with the end of the first filter basket 8, and the lower part of the partition 17 is located on the lower side of the upper part of the partition 17, so that the lower side of the upper part of the partition 17 is connected to the first filter basket 8. When the filter basket 8 is engaged, the side protrusion of the first filter basket 8 can engage with the side wall of the lower part of the partition 17. The second partition 17 divides the pool body 12 into a water level pool 18 and a cleaning pool 19. The lower water pool 13 is located below the water level pool 18 and the cleaning pool 19. The lower water pool 13 connects the water level pool 18 and the cleaning pool 19. The water tank 1 is equipped with a water level controller 20 on the inner wall of the water level pool 18, so that the water level pool 18 is not affected by the bubbling in the cleaning pool 19, and the water level of the water level pool 18 is consistent with the water level of the cleaning pool 19. By setting the water level controller 20 in the water level pool 18, the water level can be accurately adjusted.

[0048] Furthermore, in this embodiment, the outlet 4 is located below the water level pool 18, and an overflow rod 21 is inserted into the outlet 4. When water enters through the inlet 3, the overflow rod 21 is connected to the outlet 4. The overflow rod 21 ensures that the water level in the pool 12 has a maximum value. When water needs to be discharged from the outlet 4, the overflow rod 21 is disconnected from the outlet 4, so that the water can flow out from the outlet 4 of the lower pool 13. Thus, the outlet 4 has both overflow and discharge functions. A simple structural design can achieve a variety of technical effects.

[0049] Furthermore, in this embodiment, a third support is symmetrically connected to the side plate 6 near the water level pool 18 of the water tank 1. The third support is shaped like a "7". The upper side of the third support is flush with the upper side of the partition 17. A second filter basket 22 is placed on the third support and the partition 17. The second filter basket 22 includes a basket body 32 and a handle 23. The basket body 32 is similar to the basket body 32 of the first filter basket 8. The upper side of the basket body 32 of the second filter basket 22 is also integrally formed with a side protrusion. The side protrusion cooperates with the partition 17, the third support, and the first vertical plate 9. The handle 23 is bolted to the basket body 32. The user uses the second filter basket 22 to retrieve the cleaning debris flushed up by the bubbles and collect the debris brought out by the bubbles to prevent the water tank 1 from becoming turbid.

[0050] Furthermore, in this embodiment, the pool support 25 also includes a sealing plate 37, a limiting plate 38 is bolted to the inside of the "J"-shaped edge 30, the upper end of the sealing plate 37 is inserted between the "J"-shaped edge 30 and the limiting plate 38, a hook 39 is bolted to the second crossbar 34, and the lower part of the sealing plate 37 is placed on the hook 39, so that the surface of the pool support 25 is wrapped by the sealing plate 37.

[0051] Furthermore, in this embodiment, the sealing plate 37 is provided with a panel connection groove, the control panel 24 is located in the panel connection groove, the upper end of the control panel 24 is also inserted between the "J"-shaped edge 30 and the limiting plate 38, and the lower end is placed on the hook 39, and the sealing plate 37 is provided with two or more panel connection grooves; the panel connection groove where the control panel 24 is not installed is provided with a panel sealing plate 37 that resembles the control panel 24, the upper end of the panel sealing plate 37 is also inserted between the "J"-shaped edge 30 and the limiting plate 38, and the lower end is placed on the hook 39, so that the position of the control panel 24 can be moved conveniently, avoiding production control in one direction.

[0052] Furthermore, in this embodiment, the support leg 26 includes an outer support leg 26 and an inner support leg 26. The outer support leg 26 is bolted to the lower end of the second crossbar 34. A countersunk hole is provided at the lower end of the outer support leg 26. The inner support leg 26 is partially located in the countersunk hole of the outer support leg 26, and the inner support leg 26 is threadedly connected to the outer support leg 26.

[0053] Furthermore, in this embodiment, a silencer 28 is fitted onto the blower 27 to reduce the noise generated by the blower 27.

[0054] Furthermore, in this embodiment, the water level controller 20 is a float-type water level controller. The water level controller 20 is electrically connected to the heating tube. When the float of the float-type water level controller is at a low position, the heating tube is in a de-energized state, so that the heating tube 29 will not heat when there is no water or the water level in the water tank 1, thus avoiding dry burning.

[0055] Furthermore, in this embodiment, a heating tube 29 is bolted to the inner wall of the sink 13, and a temperature control mechanism is provided in the water tank 1. The temperature control mechanism is electrically connected to the heating tube 29, the control panel 24, and the water level controller 20, so that the heating tube 29 will not heat when there is no water or the water level in the water tank 1, thus avoiding dry burning. When the water in the water tank 1 reaches the set temperature, the heating tube 29 automatically disconnects the power supply to avoid high temperature, thus achieving automatic temperature control. By heating the water in the water tank 1, the hot water is used to clean tableware better, and the user experience is also better.

[0056] Furthermore, in this embodiment, the nozzle 16 is a square tube.

[0057] Furthermore, in this embodiment, the control panel 24 is entirely mechanically controlled, making it easy to operate; the control panel 24 can also be touch-controlled.

[0058] Furthermore, in this embodiment, the entire machine is made of 304 stainless steel, and the frame is welded from stainless steel square tubing.

[0059] Furthermore, in this embodiment, the present invention does not impose any particular limitation on the temperature control mechanism. Any temperature control mechanism known to those skilled in the art that can realize functions such as water level sensing, temperature control, and temperature sensing can be used. Those skilled in the art can select and adjust the mechanism according to the specific application and product requirements.

[0060] Furthermore, in this embodiment, there is no particular limitation on the specific way the outer support leg 26 and the inner support leg 26 are connected. Any method known to those skilled in the art that enables relative displacement between the outer support leg 26 and the inner support leg 26 can be used. Those skilled in the art can select and adjust according to specific application conditions and product requirements. Preferably, a hydraulic cylinder connection is used.

[0061] It should be noted that the various embodiments of this application can be arbitrarily combined into new embodiments, provided that the solutions do not conflict and the technical solutions can coexist.

[0062] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A bubble washing tank, characterized by: It includes a water tank (1) and a bubbling mechanism (2), the water tank (1) is connected to the bubbling mechanism (2), the water tank (1) is provided with a water inlet (3), and the water tank (1) is also provided with a water outlet (4); The water tank (1) includes a main board (5), side plates (6), horizontal plates (7) and a first filter basket (8). The main board (5) includes a first vertical plate (9) and an inclined plate (11). The inclined plate (11) is connected to the first vertical plate (9). The inclined plate (11) and the first vertical plate (9) are at an angle. The two main boards (5) are symmetrically arranged. The two ends of the horizontal plate (7) are respectively connected to the two inclined plates (11). The two side plates (6) are respectively arranged on both sides of the two main boards (5) and the horizontal plate (7). The first filter basket (8) is located on the two inclined plates (11), so that the water tank (1) has a pool body (12) and a drain pool (13). The inlet (3) is connected to the drain pool (13), and the outlet (4) is also connected to the drain pool (13).

2. The bubble wash sink of claim 1, wherein: The main board (5) also includes a second vertical plate (10). One end of the inclined plate (11) is connected to the first vertical plate (9), and the other end is connected to the second vertical plate (10). The inclined plate (11) and the first vertical plate (9) have an angle, and the inclined plate (11) and the second vertical plate (10) also have an angle. The two main boards (5) are symmetrically arranged. The two ends of the horizontal plate (7) are respectively connected to the second vertical plates (10) of the two main boards (5). The two side plates (6) are respectively arranged on both sides of the two main boards (5) and the horizontal plate (7). The first filter basket (8) is located on the two second vertical plates (10), so that the water tank (1) has a pool body (12) and a drain pool (13). The inlet (3) is connected to the drain pool (13), and the outlet (4) is also connected to the drain pool (13). An overflow rod (21) is provided on the outlet (4).

3. The bubble wash sink of claim 1, wherein: The bubbling mechanism (2) includes a bubbling air pipe (14), a nozzle (15) and a spray pipe (16). The spray pipe (16) is arranged on the inclined plate (11) of the main plate (5). The spray pipe (16) is connected to the bubbling air pipe (14). The nozzle (15) is located on the spray pipe (16). The nozzle (15) is at least partially located in the pool body (12) of the water tank (1). A check valve is provided on the spray pipe (16).

4. The bubble wash sink of claim 1, wherein: The water tank (1) is provided with a partition (17), which divides the pool body (12) into a water level pool (18) and a cleaning pool (19). The drain pool (13) is located below the water level pool (18) and the cleaning pool (19). The water level pool (18) is provided with a water level controller (20).

5. A bubble wash sink according to claim 4, wherein: The outlet (4) is located below the water level pool (18), and an overflow rod (21) is provided on the outlet (4).

6. The bubble wash sink of claim 4, wherein: The partition (17) is provided with a second filter basket (22), and the second filter basket (22) is provided with a handle (23).

7. The bubble wash sink of claim 1, wherein: The water tank (1) is provided with a control panel (24), and the water tank (1) has two or more panel connection slots, which are connected to the control panel (24).

8. The bubble wash sink of claim 1, wherein: It also includes a pool support (25), which is connected to the water tank (1), and the lower end of the pool support (25) is provided with adjustable height support legs (26).

9. The bubble wash sink of claim 3, wherein: The bubbling pipe (14) has a blower (27) at one end away from the nozzle (15), and the blower (27) is equipped with a silencer (28).

10. The bubble wash sink of claim 1, wherein: The water tank (1) is equipped with a heating pipe (29) inside the lower water tank (13).