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CN-224206788-U - Water treatment system and dish washer

CN224206788UCN 224206788 UCN224206788 UCN 224206788UCN-224206788-U

Abstract

The utility model relates to a water treatment system and a dish washer, and belongs to the field of dish washers, wherein the water treatment system comprises a box body assembly, a water inlet port and a water outlet port; the cover body assembly is arranged on the box body assembly, the cover body assembly and the box body assembly are enclosed to form a containing cavity, and the cover body assembly is provided with a water outlet; the water inlet port, the first chamber, the filter component and the second chamber are sequentially communicated, the liner component is arranged on the liner component, and the water outlet is communicated with the second chamber and the liner component. The water treatment system disclosed by the utility model replaces a water softener in a waterway of a traditional dish washer through the combined design of the box body component, the filtering component and the cover body component, so that high-concentration brine does not need to be input and discharged, and the water treatment system is more environment-friendly.

Inventors

  • WEN JIONG

Assignees

  • 佛山市百斯特电器科技有限公司

Dates

Publication Date
20260508
Application Date
20250509

Claims (10)

  1. 1. A water treatment system, comprising: The water inlet device comprises a box body assembly (1), wherein the box body assembly (1) is provided with a water inlet interface (101); The cover body assembly (3), the cover body assembly (3) is arranged on the box body assembly (1), the cover body assembly (3) and the box body assembly (1) are enclosed to form a containing cavity, and the cover body assembly (3) is provided with a water outlet (301); The filter assembly (2) is arranged on the box assembly (1), the filter assembly (2) extends along the height direction of the box assembly (1), the filter assembly (2) divides the accommodating cavity into a first cavity (103) and a second cavity (104), the filter assembly (2) is arranged between the first cavity (103) and the second cavity (104), and the water inlet port (101), the first cavity (103), the filter assembly (2) and the second cavity (104) are sequentially communicated; The inner container assembly (5), the box body assembly (1) is arranged on the inner container assembly (5), and the water outlet (301) is communicated with the second cavity (104) and the inner container assembly (5).
  2. 2. The water treatment system of claim 1, wherein the water treatment system further comprises a water treatment system, The number of the water outlets (301) is multiple, and the water outlets (301) are all used for being communicated with the liner assembly (5); And/or the water outlet (301) extends along the height direction of the box assembly (1).
  3. 3. The water treatment system according to claim 1, wherein the tank assembly (1) is arranged on the bottom wall of the liner assembly (5), the bottom wall of the liner assembly (5) is provided with an overflow cavity (501), and the overflow cavity (501) is communicated with the water outlet (301).
  4. 4. A water treatment system according to claim 3, further comprising a water inlet valve (6) and a breather (7), wherein the water inlet valve (6), the breather (7) and the water inlet port (101) of the tank assembly (1) are sequentially connected through a pipeline, the liner assembly (5) is provided with a water cup assembly (8), the water cup assembly (8) is provided with a liquid storage cavity (801), and the liquid storage cavity (801) is communicated with the overflow cavity (501).
  5. 5. A water treatment system according to claim 3, wherein, The cover body assembly (3) is positioned in the overflow cavity (501); And/or form the first protruding part (11) on the box assembly (1), the first protruding part (11) is located in the overflow cavity (501), further include the fixing piece (9), the fixing piece (9) is set up on the box assembly (1) and/or the inner container assembly (5), the fixing piece (9) is located between the first protruding part (11) and the inner container assembly (5), the fixing piece (9) is set up around the box assembly (1); And/or form second bellying (12) on box subassembly (1), second bellying (12) are located the outside of inner bag subassembly (5), still include sealing member (10), sealing member (10) set up inner bag subassembly (5) and/or on box subassembly (1), sealing member (10) are located between inner bag subassembly (5) and second bellying (12), sealing member (10) are used for sealing the clearance between inner bag subassembly (5) and second bellying (12).
  6. 6. The water treatment system of claim 1, wherein the water treatment system further comprises a water treatment system, The cover body assembly (3) is detachably arranged on the box body assembly (1); And/or one of the cover body assembly (3) and the box body assembly (1) is provided with a first clamping part (13), the other of the cover body assembly (3) and the box body assembly (1) is provided with a first clamping groove (302), and the first clamping part (13) is matched with the first clamping groove (302); and/or one of the cover body assembly (3) and the box body assembly (1) is provided with a second clamping part (31), the other of the cover body assembly (3) and the box body assembly (1) is provided with a second clamping groove (105), and the second clamping part (31) is matched with the second clamping groove (105).
  7. 7. The water treatment system according to claim 1, wherein the tank assembly (1) is provided with a positioning side surface (106) and a positioning bottom surface (107), the positioning side surface (106) being connected with the positioning bottom surface (107), the positioning side surface (106) and the positioning bottom surface (107) being both in abutment with the filter assembly (2).
  8. 8. The water treatment system of claim 7, wherein the water treatment system further comprises a water treatment system, The positioning side surface (106) is annular; And/or a filtering side surface (201) and a filtering end surface (202) are formed on the filtering component (2), the filtering side surface (201) is connected with the filtering end surface (202), the filtering side surface (201) is propped against the positioning side surface (106), and the filtering end surface (202) is propped against the positioning bottom surface (107).
  9. 9. The water treatment system according to claim 1, wherein the tank assembly (1) is provided with a pressure relief channel (102), the water inlet port (101), the pressure relief channel (102) and the second chamber (104) are sequentially communicated, the water treatment system further comprises a plugging assembly (4), the plugging assembly (4) is arranged on the tank assembly (1) and located at the pressure relief channel (102), and the plugging assembly (4) can plug or conduct the pressure relief channel (102).
  10. 10. A dishwasher, comprising a water treatment system as claimed in any one of claims 1 to 9.

Description

Water treatment system and dish washer Technical Field The utility model relates to the field of dish washers, in particular to a water treatment system and a dish washer. Background The water path of the traditional dish-washing machine generally comprises a water softener, the water softener generally comprises a brine cavity and a resin cavity, sodium ions of resin in the resin cavity replace calcium and magnesium ions in water, and brine in the brine cavity is controlled to be input into the resin cavity through an electromagnetic valve to replace the calcium and magnesium ions on the resin, so that the resin recovers the soft water effect. However, such devices can result in the need to discharge high concentrations of brine, which is not environmentally friendly. But also requires additional tap water to remove the brine, resulting in waste of water resources. Disclosure of utility model Based on the above, there is a need to provide a water treatment system and a dishwasher, which solve the problems of the conventional water treatment system that high concentration brine is discharged, which is not friendly to the environment, and additional tap water is required to remove the brine, resulting in waste of water resources. The water treatment system comprises a box body assembly, a cover body assembly and a filter assembly, wherein the box body assembly is provided with a water inlet port, the cover body assembly is arranged on the box body assembly, the cover body assembly and the box body assembly are enclosed to form a containing cavity, the cover body assembly is provided with a water outlet, the filter assembly is arranged on the box body assembly, the filter assembly extends along the height direction of the box body assembly, the containing cavity is divided into a first cavity and a second cavity by the filter assembly, the water inlet port, the first cavity, the filter assembly and the second cavity are sequentially communicated, and the box body assembly is arranged on the inner container assembly and communicated with the second cavity and the inner container assembly. The first aspect of the application discloses a water treatment system, which replaces a water softener in a waterway of a traditional dish-washing machine by the combined design of a box body component, a filtering component and a cover body component, so that high-concentration brine is not required to be input and discharged, the system is more environment-friendly, and metal components in the dish-washing machine are not corroded. And no extra tap water is needed to be input for discharging the brine, so that the waste of water resources is avoided. The filter component is located between the first cavity and the second cavity, so that water in the first cavity can be conveyed to the second cavity after being filtered by the filter component, and water is prevented from being scaled in the subsequent heating process. The inner container assembly comprises an inner container and a water cup assembly, a water outlet communicated with the inner container assembly is directly formed through the cover body assembly, water can be directly conveyed into the water cup assembly from the inner container assembly, pipelines from the box assembly to the water cup assembly are saved, and cost is lower. In one embodiment, the number of the water outlets is a plurality, and the plurality of water outlets are all used for communicating with the liner assembly. The water outlets are communicated with the second cavity and are communicated with the liner assembly, so that the water conveying efficiency is improved. The plurality of water outlets are integrated in the cover body assembly, so that the need of an additional diversion pipeline is avoided, the structure can be simplified, and the cost can be reduced. In one embodiment, the water outlet extends along the height of the tank assembly. The water outlet extends along the height direction of the box body assembly, so that the water flow path from the second cavity to the liner assembly is shortened, and the conveying efficiency of the water body is improved. In one embodiment, the water tank further comprises a liner assembly, the box assembly is arranged on the bottom wall of the liner assembly, an overflow cavity is formed in the bottom wall of the liner assembly, and the overflow cavity is communicated with the water outlet. Through the overflow cavity and the delivery port intercommunication that the inner bag subassembly was equipped with, the water can be directly from the second cavity transport to the overflow intracavity of inner bag subassembly, then in the cavity was carried to the drinking cup subassembly through the overflow, saved the pipeline of box subassembly to drinking cup subassembly, the cost is lower. In one embodiment, the water tank further comprises a water inlet valve and a breather, wherein the water inlet valve, the breather and the water inlet port of the