CN212955834U - Door body assembly and clothes treatment equipment - Google Patents

Abstract

The embodiment of the utility model provides a door body assembly and clothes treatment equipment, the door body assembly comprises a door body and an electrolysis device, the door body is provided with an electrolysis bath, a water inlet and a water outlet, water enters the electrolysis bath through the water inlet, and the water in the electrolysis bath is discharged out of the electrolysis bath through the water outlet; the electrolysis device is arranged on the door body, and at least part of the electrolysis device is arranged in the electrolysis bath to electrolyze water in the electrolysis bath. The door body component of the embodiment of the utility model connects the electrolysis device with the door body, the structure of the door body is simple, and the door body has enough installation space in the process of installing the electrolysis device, thereby being convenient for the installation and operation of operators; moreover, because the volume of the door body is small, the door body is convenient to turn over, shift and other operations in the process of installing the electrolysis device, the installation difficulty can be reduced, and the production time can be saved.

Description

Door body assembly and clothes treatment equipment

Technical Field

The utility model relates to the technical field of electrical apparatus, especially, relate to a door body subassembly and clothing treatment facility.

Background

The electrolytic water sterilization has the advantages of low temperature, high efficiency and no harmful substance residue, and in the related technology, the electrolytic device is arranged on the inner wall of the outer barrel, so that on one hand, when the inner barrel rotates eccentrically, the inner barrel has the risk of impacting the electrolytic device, and the reliability of the electrolytic device is influenced; on the other hand, the space between the outer barrel and the inner barrel is narrow, which brings great difficulty to the installation of the electrolysis device, and the installation process is time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention is expected to provide a door assembly and a clothes treating apparatus, which are convenient for installing an electrolysis device.

In order to achieve the above purpose, an embodiment of the present invention provides a door assembly, including a door body and an electrolysis device, wherein the door body is provided with an electrolysis bath, a water inlet and a water outlet, water enters the electrolysis bath through the water inlet, and the water in the electrolysis bath is discharged out of the electrolysis bath through the water outlet; the electrolysis device is arranged on the door body, and at least part of the electrolysis device is arranged in the electrolysis bath to electrolyze water in the electrolysis bath.

In some embodiments, the corresponding bottom surface of the electrolytic cell is a sloped surface that directs water within the electrolytic cell toward the drain opening.

In some embodiments, the electrolysis device comprises an electrolysis electrode disposed within the electrolytic cell and an electrically conductive connector; the first end of the conductive connecting body is electrically connected with the electrolysis electrode, and the second end of the conductive connecting body is positioned outside the electrolysis bath.

In some embodiments, the electrolysis electrode comprises a cathode plate and an anode plate arranged in a stack;

at least one of the cathode plate and the cathode plate is provided with at least one overflowing hole.

In some embodiments, the door body includes a door body and a hollow electrolytic case, the electrolytic case protrudes from at least one side of the door body, an inner space of the electrolytic case is the electrolytic cell, and a first end of the electrolytic case in a length direction is open to form the water outlet.

In some embodiments, the electrolytic housing is a unitary structure with the door body.

In some embodiments, the second end of the electrolytic housing along the length direction is provided with an avoidance port; the door body subassembly includes the sealing plug, the sealing plug is sealed dodge the mouth, electrically conductive connector passes sealedly the sealing plug.

In some embodiments, the door assembly further comprises a shielding cover, the shielding cover is disposed at the water outlet, and a plurality of water permeable holes are disposed on the shielding cover.

In some embodiments, the shielding cover includes an end plate and an insertion portion, the end plate covers the water outlet, the insertion portion protrudes from a surface of one side of the end plate facing the water outlet, and the insertion portion is inserted into the water outlet and is inserted into an inner wall corresponding to the water outlet.

In some embodiments, the plug portion is disposed at an upper portion of the end plate; and/or the lowest position of at least one water permeable hole is lower than the lowest position of the water outlet.

In some embodiments, the water inlet and the water outlet are the same water inlet disposed on the door body.

In some embodiments, the water inlet and the water outlet are spaced apart from each other, and a flow passage communicating the water inlet and the electrolytic bath is formed in the door body.

A second aspect of the embodiments of the present invention provides a clothes treating apparatus, comprising a base body and any one of the door body assemblies, wherein the base body is provided with a washing chamber and a clothes throwing port communicated with the washing chamber; the door body assembly is rotatably connected with the base body to selectively close the clothes input opening, water in the clothes treatment equipment can enter the electrolytic tank through the water inlet, and electrolyzed water in the electrolytic tank can enter the washing cavity through the water outlet.

In some embodiments, the laundry treating apparatus is provided with a water inlet path for supplying water to the washing chamber, the water inlet and the water outlet are spaced apart from each other, a flow path for communicating the water inlet with the electrolytic bath is formed in the door body, and at least a part of a liquid flow in the water inlet path can enter the electrolytic bath through the water inlet and the flow path.

In some embodiments, the water inlet and the water outlet are the same water inlet disposed on the door body, and the washing water in the washing chamber can enter the electrolytic bath through the water inlet.

The door body component of the embodiment of the utility model connects the electrolysis device with the door body, the structure of the door body is simple, and the door body has enough installation space in the process of installing the electrolysis device, thereby being convenient for the installation and operation of operators; moreover, because the volume of the door body is small, the door body is convenient to turn over, shift and other operations in the process of installing the electrolysis device, the installation difficulty can be reduced, and the production time can be saved.

Drawings

Fig. 1 is a schematic structural view of a clothes treating apparatus according to an embodiment of the present invention, in which a door assembly is in a closed state;

FIG. 2 is a cross-sectional view taken along the line A-A in FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 at B;

FIG. 4 is a schematic structural view of the clothes treating apparatus shown in FIG. 1, with a cabinet omitted, wherein a door assembly is in an open state;

fig. 5 is an exploded view of a door assembly according to an embodiment of the present invention;

FIG. 6 is an exploded view of the door assembly of FIG. 5 from another perspective;

FIG. 7 is a schematic structural view of the door body shown in FIG. 5;

FIG. 8 is a schematic structural view of the door body shown in FIG. 6;

FIG. 9 is a schematic structural view of an electrolysis apparatus and a sealing plug according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a shielding cover according to an embodiment of the present invention;

FIG. 11 is a simplified mating view of the door body and base shown in FIG. 2, wherein the direction of the arrows indicate the direction of water flow;

fig. 12 is a simplified schematic view of the door body and the base body according to another embodiment of the present invention, wherein the direction of the arrow indicates the direction of the water flow.

The reference numerals describe the door body assembly 1; a door body 11; an electrolytic cell 110; the inclined surfaces 110 a; a water inlet 11 a; a water discharge port 11 b; a flow passage 11 c; a door body 111; an electrolytic housing 112; an avoidance port 112 a; an electrolysis device 12; an electrolysis electrode 121; a cathode plate 1211; an anode plate 1212; an overflowing hole 121 a; a conductive connector 122; a shielding cover 13; an end plate 131; water permeable holes 13 a; a plug-in part 132; a sealing plug 14; a through hole 14 a; a front door ring 15; a rear door ring 16; a decorative ring 17; an anti-burn cover 18; a hinge 19; a base body 2; a washing chamber 2 a; a laundry input port 2 b; a case 21; an outer tub 22; inner cylinder 23

Detailed Description

It should be noted that, in the present invention, the technical features of the embodiments and the examples can be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present invention and should not be construed as an improper limitation of the present invention.

In the description of the embodiments of the present invention, "up", "down", and the orientation or position relationship are based on the orientation or position relationship shown in fig. 1, and the upper side in fig. 1 is "up", and the lower side is "down". It is to be understood that such directional terms are merely for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must be in a particular orientation, constructed and operative in a particular orientation, and therefore should not be taken as limiting the invention.

The embodiment of the utility model provides a clothes treatment facility, please refer to fig. 1, including base member 2 and door body group spare 1.

Referring to fig. 4, the base body 2 is provided with a washing chamber 2a and a laundry input opening 2b communicated with the washing chamber 2a, and the door assembly 1 is rotatably connected to the base body 2 to selectively close the laundry input opening 2 b. The user may put laundry into the washing chamber 2a or take laundry out of the washing chamber 2a through the laundry input port 2 b. In the embodiment of the present invention, the laundry inlet 2b is located on one side of the base body 2, that is, the laundry processing apparatus is a drum-type laundry processing apparatus, for example, a drum washing machine, a drum washing and drying machine, etc.

For example, in an embodiment, referring to fig. 2, the base 2 includes a box 21, and an outer tub 22 and an inner tub 23 disposed in the box 21, the inner tub 23 is rotatably disposed in the outer tub 22, and a space in the inner tub 23 is a washing chamber 2 a. The inner cylinder 23 may be a perforated inner cylinder 23 or a non-perforated inner cylinder 23. When the inner cylinder 23 is a perforated inner cylinder 23, the outer cylinder 22 is used for holding water; when the inner cylinder 23 is a non-hole inner cylinder 23, the inner cylinder 23 is used for holding water, that is, the inner cylinder 23 can hold water and clothes, during the washing process, the water in the inner cylinder 23 cannot enter the outer cylinder 22, and during the drainage process, the water can be drained through the outer cylinder 22.

It will be appreciated that in some embodiments, when the base 2 has no outer tub, but only the inner tub 23, the inner tub 23 can contain both the laundry and water.

Referring to fig. 5 and 6, the door assembly 1 includes a door 11 and an electrolysis device 12. Referring to fig. 3, the door 11 is provided with an electrolytic bath 110, and a water inlet 11a and a water outlet 11b communicated with the electrolytic bath 110, water in the clothes treatment apparatus enters the electrolytic bath 110 through the water inlet 11a, water in the electrolytic bath 110 is discharged out of the electrolytic bath 110 through the water outlet 11b, and specifically, water in the electrolytic bath 110 enters the washing chamber 2a through the water outlet 11 b.

The electrolysis device 12 is connected to the door 11, and at least a part of the electrolysis device 12 is provided in the electrolysis tank 110 to electrolyze water in the electrolysis tank 110 to generate electrolyzed water.

The door body assembly 1 of the embodiment of the utility model connects the electrolytic device 12 with the door body 11, the door body 11 has a simple structure, and has enough installation space in the process of installing the electrolytic device 12, thereby facilitating the installation and operation of operators; moreover, because the volume of the door body 11 is small, the door body 11 can be turned over, shifted and the like conveniently in the process of installing the electrolytic device 12, the installation difficulty can be reduced, and the production time can be saved.

The electrolyzed water electrolyzed by the electrolysis means 12 has many microbubbles, hydroxyl radicals, and the like, and then enters the washing chamber 2 a. The electrolyzed water has more hydroxyl free radicals (OH), OH has extremely high oxidation potential (2.80eV), the oxidation capacity is strong, the electrolyzed water can generate rapid chain reaction with most organic pollutants, OH can be sterilized and disinfected at low temperature without damaging clothes, part of OH reacts with chloride ions in tap water to generate active chlorine, and the active chlorine can exist for a long time and has the effect of long-term bacteriostasis; a large amount of hydroxyl free radicals oxidize and destroy chromophoric groups of dye molecules dissociating colored clothes into water in the washing process to decolorize the dye, and continue to react to decompose the dye molecules into harmless carbon dioxide, water and inorganic salt, so that the free dye is prevented from being stained on light-colored clothes to cause color cross. Meanwhile, the electrolysis device 12 can generate a large amount of hydrogen microbubbles in the process of electrolyzing water, because the diameters of the microbubbles are very small and are usually smaller than 50 um, the hydrogen microbubbles can well enter the inside of the clothes fibers in the washing process, and through the actions of microbubble blasting and adsorption floating, the hydrogen microbubbles can be continuously generated to be circularly washed away, so that the detergent can be assisted to thoroughly remove sebum, grease, tiny dust and other dirt accumulated in the clothes fibers, and the cleaning effect can be improved.

In one embodiment, referring to FIG. 3, the corresponding bottom surface of the electrolytic cell 110 is an inclined surface 110a, the inclined surface 110a is inclined toward the water discharge opening 11b, and the water discharge opening 11b is located at a position substantially at the lowest position of the inclined surface 110a, so that the inclined surface 110a guides the water in the electrolytic cell 110 to the water discharge opening 11 b. The inclined surface 110a helps to quickly drain water in the electrolytic cell 110 out of the electrolytic cell 110, reduces the possibility of water accumulation in the electrolytic cell 110, and substantially prevents water from dripping from the electrolytic cell 110 when a user opens the door body assembly 1, thereby improving the user experience.

The specific structure of the electrolysis device 12 is not limited as long as water in the electrolytic bath 110 can be electrolyzed. In one embodiment, referring to fig. 9, the electrolysis device 12 includes an electrolysis electrode 121 and a conductive connector 122, referring to fig. 3, the electrolysis electrode 121 is disposed in the electrolysis tank 110, and the electrolysis device 12 electrolyzes water in the electrolysis tank 110 through the electrolysis electrode 121; one end of the conductive connector 122 is electrically connected to the electrolysis electrode 121, the other end of the conductive connector 122 is located outside the electrolysis cell 110, and the electrolysis device 12 is connected to a power supply through the conductive connector 122.

The conductive connector 122 may be cylindrical, flat sheet-like, etc., without limitation.

In an embodiment, referring to fig. 9 again, the electrolysis electrode 121 includes a cathode plate 1211 and an anode plate 1212 stacked together, that is, the electrolysis cathode 221 and the electrolysis anode 222 are both plate-shaped, so as to increase the electrolysis surface area of the electrolysis cathode 221 and the electrolysis anode 222 and improve the electrolysis efficiency. The stacking arrangement means that the electrolytic cathode 221 and the electrolytic anode 222 are arranged in parallel approximately facing each other, the parallel distance between the electrolytic cathode 221 and the electrolytic anode 222 needs to be in a proper range to realize high-efficiency electrolysis, and if the distance is too large, the electrolysis efficiency is too low, and the concentration of the generated active substances is low; if the distance is too small, the electrolytic electrode 121 is worn quickly, the service life of the electrolytic electrode 121 is shortened, and the problems of power increase, serious heating of the electrolytic electrode 121 and low electric energy utilization rate are caused.

It should be noted that the number of the conductive connectors 122 is two, wherein one of the conductive connectors 122 is electrically connected to the cathode plate 1211, and the other conductive connector 122 is electrically connected to the anode plate 1212.

In one embodiment, referring to fig. 3, the cathode plate 1211 and the anode plate 1212 are stacked along the height direction of the door body assembly 1, that is, the cathode plate 1211 and the anode plate 1212 extend substantially in the horizontal plane. Thus, the size of the electrolytic device 12 in the height direction can be reduced, and even if the water level in the electrolytic bath 110 is low, the cathode plate 1211 and the anode plate 1212 can be brought into contact with water, thereby reducing the requirement for the water level in the electrolytic bath 110.

In an embodiment, the cathode plate 1211 and the anode plate 1212 are stacked along the height direction of the door body assembly 1, in this embodiment, the cathode plate 1211 may be located directly below the anode plate 1212, or the anode plate 1212 may be located directly below the cathode plate 1211, which is not limited herein.

To facilitate the flow of water within the electrolytic cell 110, in one embodiment, at least one of the anode plate 1212 and the cathode plate 1211 is provided with at least one overflow hole 121 a. Specifically, only the cathode plate 1211 may be provided with at least one overflow hole 121a, only the anode plate 1212 may be provided with at least one overflow hole 121a, and both the cathode plate 1211 and the anode plate 1212 may be provided with the overflow holes 121 a. The charge density of the edge part of the overflowing hole 121a is higher, the electric field intensity near the edge is stronger, the electrolysis efficiency can be greatly improved, more active substances such as hydroxyl radicals and active chlorine are generated, more micro bubbles are generated, the dissolving speed of the detergent is favorably improved, and the washing effect is favorably improved; furthermore, the liquid flow can flow from one side of the electrolysis electrode 121 to the other side of the electrolysis electrode 121 through the flow holes 121a, a water flow passage is formed in the electrolysis electrode 121, and the water flow can timely take away the micro-bubbles on the surface of the electrolysis electrode 121, so that the micro-bubbles are prevented from being gathered on the surface of the electrolysis electrode 121 to form large bubbles.

The number of the overflowing holes 121a is not limited, and in the embodiment, a plurality of overflowing holes 121a are formed in each of the cathode plate 1211 and the anode plate 1212, so that more micro bubbles can be generated in the electrolyzed water.

The shape of overflowing hole 121a is unlimited, can be that circular, polygon, arc and straight line enclose the figure etc. of establishing jointly, do not do the restriction here, the embodiment of the utility model provides an in, the shape of overflowing hole 121a is circular, is favorable to overflowing in time the microbubble on the inner wall that the hole 121a corresponds.

In an embodiment, referring to fig. 8, the door 11 includes a door body 111 and a hollow electrolytic shell 112, and the electrolytic shell 112 protrudes from at least one side of the door body 111, that is, the electrolytic shell 112 may only protrude from one side of the door body 111 facing the washing chamber 2a, may only protrude from one side of the door body 11 facing away from the washing chamber 2a, and may also protrude from two opposite sides of the door body 111.

The electrolytic shell 112 and the door body 111 can be an integrated structure, so that water leakage at the boundary of the door body 111 and the electrolytic shell 112 can be avoided, and the processing and manufacturing procedures are reduced.

In some embodiments, the door body 111 is made of a light-transmissive material, such as glass, light-transmissive plastic, and the like. In other embodiments, the door body 111 may also be made of a light-tight material, which is not limited herein.

Referring to fig. 3, the electrolytic tank 110 is defined as an inner space of the electrolytic case 112, and a first end of the electrolytic case 112 in a length direction is opened to form the drain port 11 b. A first end of the electrolytic housing 112 in the longitudinal direction is an end facing the washing chamber 2 a.

In one embodiment, referring to fig. 3 and 8, a second end of the electrolytic housing 112 along the length direction is provided with an avoiding opening 112a, and the other end of the conductive connecting body 122 extends out of the electrolytic cell 110 from the avoiding opening 112 a. Referring to fig. 9, the door 11 further includes a sealing plug 14, where the sealing plug 14 seals the avoiding opening 112a to prevent water from leaking from the avoiding opening 112 a; the other end of the conductive connecting body 122 passes through the sealing plug 14 in a sealing manner, that is, the edge of the sealing plug 14 is in sealing contact with the corresponding inner wall of the bypass opening 112a, and the sealing plug 14 is in sealing engagement with the conductive connecting body 122. The sealing plug 14 is designed to facilitate the processing of the electrolytic housing 112 and prevent water from leaking out of the electrolytic cell 110 along the conductive connecting body 122.

The material of the sealing plug 14 is not limited, and examples thereof include rubber, silicone, and resin.

For example, in an embodiment, referring to fig. 9, the sealing plug 14 is provided with a through hole 14a, in the assembly process, the conductive connecting body 122 is first inserted into the through hole 14a, and then the conductive connecting body 122 and the sealing plug 14 are bonded by using glue, so that the conductive connecting body 122 and the sealing plug 14 can be hermetically connected together by bonding. In another embodiment, the sealing plug 14 may be injection molded onto the conductive connector 122.

In order to prevent impurities or laundry in the washing chamber 2a from entering the electrolytic bath 110, in an embodiment, referring to fig. 3 and 5, the door assembly 1 further includes a shielding cover 13, and the shielding cover 13 is disposed at the water outlet 11b to cover the water outlet 11 b. Referring to fig. 10, the shielding cover 13 is provided with a plurality of water permeable holes 13a so that water in the electrolytic bath 110 can be discharged through the water permeable holes 13 a.

For convenience of installation, the shielding cover 13 can be elastically deformed to be inserted into the drainage opening 11b, and is made of rubber, silica gel, plastic, or the like.

In one embodiment, referring to fig. 10, the blocking cover 13 includes an end plate 131 and an inserting portion 132, the end plate 131 covers the water outlet 11b, and the water permeable hole 13a is disposed on the end plate 131. The insertion portion 132 protrudes from a surface of the end plate 131 facing the drain opening 11b, and the insertion portion 132 extends into the drain opening 11b and is inserted into the corresponding inner wall of the drain opening 11b, that is, the shielding cover 13 is inserted into the corresponding inner wall of the drain opening 11b through the insertion portion 132. It should be noted that the insertion-connection part 132 and the corresponding inner wall of the water discharge opening 11b may be inserted by friction, for example, in the process of pushing the insertion-connection part 132 to be inserted into the water discharge opening 11b, the insertion-connection part 132 is pressed and deformed, and the insertion-connection part 132 tightly abuts against the corresponding inner wall of the water discharge opening 11b under the elastic restoring force. For another example, a protrusion or a groove is disposed on the inner wall corresponding to the water outlet 11b, a barb structure is disposed on the insertion part 132, and when the insertion part 132 is inserted into the water outlet 11b, the barb structure is engaged with the protrusion, or the barb structure is inserted into the groove, so as to realize the insertion of the insertion part 132 and the inner wall corresponding to the water outlet 11 b.

The end plate 131 can prevent the laundry or other impurities in the inner drum 23 from entering the electrolytic bath 110, and at the same time, the water permeable holes 13a of the end plate 131 can ensure the water in the electrolytic bath 110 to enter the washing chamber 2 a.

In one embodiment, referring to fig. 10, the inserting portion 132 is disposed on the upper portion of the end plate 131, that is, the inserting portion 132 is not disposed on the lower portion of the end plate 131, so as to prevent the inserting portion 132 from blocking the water flow from being discharged from the electrolytic cell 110, and to enable the water in the electrolytic cell 110 to be discharged more smoothly.

In one embodiment, the water permeable holes 13a are relatively large in number and distributed relatively uniformly throughout the end plate 131, so that the water in the electrolytic cell 110 can be discharged in time.

In one embodiment, the position of the end plate 131 corresponding to the lower edge of the water outlet 11b is also provided with the above-mentioned water permeable hole 13a, so that the lowest position of the water permeable hole 13a is lower than the lowest position of the water outlet 11b, which can help to drain the water in the electrolytic cell 110, and prevent the water from being smelly due to long-term water accumulation in the electrolytic cell 110.

It should be noted that the water inlet 11a and the water outlet 11b may be arranged at intervals, that is, the water inlet 11a and the water outlet 11b are two different water inlets arranged on the door body 11; the water inlet 11a and the water outlet 11b may be provided in combination, that is, the water inlet 11a and the water outlet 11b are the same water inlet provided in the door 11, and water enters the electrolytic bath 110 through the water inlet and is discharged out of the electrolytic bath 110 through the water inlet.

Referring to fig. 5 and 11, in an embodiment, the water inlet 11a and the water outlet 11b are the same water inlet disposed on the door 11, and the water inlet 11a and the water outlet 11b are disposed at the lower portion of the door 11, and the heights of the water inlet 11a and the water outlet 11b are required to satisfy: during the washing, the water inlet 11a and the water outlet 11b have heights lower than the water level in the washing chamber 2a so that the water in the washing chamber 2a can enter the electrolytic bath 110.

Referring to fig. 12, in another embodiment, the water inlet 11a and the water outlet 11b are spaced apart from each other, the door body 111 is formed with a flow passage 11c connected between the water inlet 11a and the electrolytic bath 110, the laundry treatment apparatus is provided with a water inlet path for supplying water to the washing chamber 2a, the water inlet 11a can receive water from the water inlet path of the laundry treatment apparatus, that is, at least a part of the liquid in the water inlet path can enter the electrolytic bath 110 through the water inlet 11a and the flow passage 11 c. For example, the water inlet 11a is disposed at the upper portion of the door 11, during the water inlet process of the laundry treatment apparatus, water in the water inlet waterway of the laundry treatment apparatus is sprayed toward the water inlet 11a, part of the water flows through the water inlet 11a and the flow passage 11c into the electrolytic bath 110, and another part of the water flows along the surface of the door 11 and finally enters the washing chamber 2 a.

In order to facilitate the installation of the door body 11, please refer to fig. 5 and 6, the door body assembly 1 further includes a front door ring 15, a rear door ring 16, a decorative ring 17, and an anti-scald cover 18, and the front door ring 15, the door body 111, the rear door ring 16, the decorative ring 17, and the anti-scald cover 18 are sequentially arranged along the thickness direction of the door body assembly 1.

In one embodiment, the front door ring 15 and the rear door ring 16 are substantially circular, and the front door ring 15 and the rear door ring 16 are disposed along the edge of the door 11 to sandwich the door 11 therebetween, on one hand, to protect the door 11 and on the other hand, to facilitate the installation and connection, for example, the front door ring 15 and the rear door ring 16 are rotatably connected to the base body 2 by a hinge 19.

Decorate circle 17 and set up the one side that deviates from door body 11 at back door ring 16 for cover back door ring 16, that is to say, decorate circle 17 and adopt the material of lightproof and make, because decorating the sheltering from of circle 17, the user can not see back door ring 16's structure.

The anti-scalding cover 18 is positioned at the outermost side of the door body assembly 1. When the clothes treatment equipment has the functions of drying, realizing self-cleaning of the drum by using high-temperature water and the like, the scald preventing cover 18 can avoid scalding of a user.

The anti-scalding cover 18 can be made of a material with certain transmittance, so that a user can see the washing condition in the washing cavity 2a conveniently, and the anti-scalding cover can also have a certain shading effect, so that the electrolytic device 12 is prevented from influencing the attractiveness of the clothes treatment equipment.

The utility model provides an each embodiment/implementation mode can make up each other under the condition of not producing the contradiction.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, but it is intended that the present invention cover various modifications and variations, which will be apparent to those skilled in the art. 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 (17)

1. Door body subassembly, its characterized in that includes:

the water-saving device comprises a door body (11), wherein the door body (11) is provided with an electrolytic tank (110), a water inlet (11a) and a water outlet (11b), water enters the electrolytic tank (110) through the water inlet (11a), and the water in the electrolytic tank (110) is discharged out of the electrolytic tank (110) through the water outlet (11 b);

the electrolytic device (12) is arranged on the door body (11), and at least part of the structure of the electrolytic device (12) is arranged in the electrolytic cell (110) to electrolyze water in the electrolytic cell (110).

2. The door body assembly according to claim 1, wherein the corresponding bottom surface of the electrolytic cell (110) is an inclined surface (110a), and the inclined surface (110a) guides water in the electrolytic cell (110) to the drain opening (11 b).

3. The door body assembly according to claim 1, characterized in that the electrolysis device (12) comprises an electrolysis electrode (121) and an electrically conductive connector (122), the electrolysis electrode (121) being disposed in the electrolysis cell (110); the first end of the conductive connecting body (122) is electrically connected with the electrolysis electrode (121), and the second end of the conductive connecting body (122) is positioned outside the electrolysis bath (110).

4. The door body assembly according to claim 3, wherein the electrolysis electrode (121) comprises a cathode plate (1211) and an anode plate (1212) which are arranged in a stacked manner;

at least one of the cathode plate (1211) and the cathode plate (1211) is provided with at least one overflowing hole (121 a).

5. The door body assembly according to claim 3, wherein the door body (11) comprises a door body (111) and a hollow electrolytic shell (112), the electrolytic shell (112) protrudes from at least one side of the door body (111), the electrolytic tank (110) is arranged in the internal space of the electrolytic shell (112), and a first end of the electrolytic shell (112) in the length direction is opened to form the water outlet (11 b).

6. The door body assembly according to claim 5, wherein the electrolytic shell (112) and the door body (111) are of an integrally molded structure.

7. The door body assembly according to claim 5, wherein the second end of the electrolytic shell (112) along the length direction is provided with an avoidance port (112 a); the door body subassembly includes sealing plug (14), sealing plug (14) seal dodge mouth (112a), electrically conductive connector (122) passes sealedly sealing plug (14).

8. The door body assembly according to claim 1, further comprising a shielding cover (13), wherein the shielding cover (13) is disposed at the water outlet (11b), and a plurality of water permeable holes (13a) are disposed on the shielding cover (13).

9. The door body assembly according to claim 8, wherein the shielding cover (13) comprises an end plate (131) and an insertion portion (132), the end plate (131) covers the drainage opening (11b), the insertion portion (132) protrudes from a surface of the end plate (131) facing the drainage opening (11b), and the insertion portion (132) is inserted into the drainage opening (11b) and is inserted into a corresponding inner wall of the drainage opening (11 b).

10. The door body assembly according to claim 9, wherein the plug-in connection part (132) is provided at an upper portion of the end plate (131); and/or the lowest position of at least one water permeable hole (13a) is lower than the lowest position of the water discharge port (11 b).

11. The door body assembly according to any one of claims 1 to 10, wherein the water inlet (11a) and the water outlet (11b) are the same water inlet provided on the door body (11).

12. The door body assembly according to any one of claims 5 to 7, wherein the water inlet (11a) and the water outlet (11b) are arranged at intervals, and a flow passage (11c) communicating the water inlet (11a) and the electrolytic bath (110) is formed in the door body (111).

13. Laundry treatment apparatus, characterized by comprising:

the washing machine comprises a base body (2), wherein the base body (2) is provided with a washing cavity (2a) and a clothes throwing port (2b) communicated with the washing cavity (2 a);

the door assembly of any one of claims 1 to 4, 8 to 10, which is rotatably connected to the base to selectively close the laundry input opening (2b), water in the laundry treating apparatus can enter the electrolytic bath (110) through the water input opening (11a), and electrolyzed water in the electrolytic bath (110) can enter the washing chamber (2a) through the water discharge opening (11 b).

14. The laundry processing apparatus according to claim 13, wherein the door body (11) includes a door body (111) and a hollow electrolytic case (112), the electrolytic case (112) protrudes from at least one side of the door body (111), an internal space of the electrolytic case (112) is the electrolytic tank (110), and a first end of the electrolytic case (112) in a length direction is opened to form the drain opening (11 b); the clothes treatment equipment is provided with a water inlet channel for supplying water to the washing cavity (2a), the water inlet (11a) and the water outlet (11b) are arranged at intervals, a flow channel (11c) for communicating the water inlet (11a) and the electrolytic tank (110) is formed on the door body (111), and at least part of liquid flow in the water inlet channel can enter the electrolytic tank (110) through the water inlet (11a) and the flow channel (11 c).

15. The laundry processing apparatus according to claim 14, characterized in that the electrolytic housing (112) and the door body (111) are an integrally formed structure.

16. The laundry treating apparatus according to claim 14, wherein a second end of the electrolytic case (112) in a length direction is provided with an avoidance port (112 a); the door body component comprises a sealing plug (14), the sealing plug (14) seals the avoidance opening (112a), and a conductive connecting body (122) of the electrolytic device (12) hermetically penetrates through the sealing plug (14).

17. Laundry treatment apparatus according to claim 13, characterized in that the water inlet (11a) and the water outlet (11b) are one and the same water inlet provided on the door body (11), through which the washing water in the washing chamber (2a) can enter the electrolytic bath (110).

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