CN217792885U - Water supply device of floor cleaning equipment and floor cleaning equipment - Google Patents

Abstract

The utility model discloses a ground cleaning equipment's water supply installation and ground cleaning equipment, ground cleaning equipment's water supply installation includes: the water storage tank is provided with a water storage space; an electrolysis module; and the electrolytic water tank is provided with an electrolytic space, a water inlet and a water outlet, the electrolytic module is arranged in the electrolytic space, and the electrolytic module and the water outlet are arranged at intervals. From this, through setting up solitary electrolytic water tank, locate electrolytic water tank with the electrolysis module in, and make electrolytic module and delivery port interval each other set up, can make electrolytic module flow from the delivery port again after abundant with the water electrolysis, not only can promote electrolytic module and become the efficiency of electrolysis water with the water electrolysis in the electrolytic water tank like this, can reduce the time that the user waited for the electrolysis water, but also can promote the water in the electrolytic water tank by the abundant of electrolytic module electrolysis, thereby can promote water supply installation's reliability, can optimize water supply installation's structural design.

Description

Water supply device of floor cleaning equipment and floor cleaning equipment

Technical Field

The utility model belongs to the technical field of the clean technique of ground and specifically relates to a ground cleaning device's water supply installation and ground cleaning device are related to.

Background

With the development of science and technology and the improvement of the living standard of people, the floor cleaning equipment is recognized by people with better cleaning effect on the floor, and is gradually popularized. Furthermore, the electrolysis module electrolyzes water to enable the water supply device to flow out electrolyzed water, and the electrolyzed water has a better sterilization effect, so that the cleaning effect of the ground cleaning equipment on the ground can be improved.

In the prior art, the electrolysis module is directly arranged in the cleaning tank of the floor cleaning equipment, so that the electrolysis module electrolyzes water in the cleaning tank, the electrolysis efficiency of the electrolysis device is low, and the waiting time of a user is long, so that a water supply device with a separate electrolysis space is needed to be designed. In addition, the distance between the water outlet of the water supply device and the electrolysis module is short, mutual interference influence can occur, and the electrolysis is insufficient, so that the structure of the water supply device is complex, and the structural compactness of the water supply device is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a ground cleaning device's water supply installation, this ground cleaning device's water supply installation's structural layout is reasonable.

The utility model discloses a ground cleaning device is further provided.

According to the utility model discloses ground cleaning device's water supply installation, include: a water storage tank, wherein a water storage space is formed in the water storage tank; an electrolysis module; the electrolytic water tank is provided with an electrolytic space, a water inlet and a water outlet, the electrolytic module is arranged in the electrolytic space, the water inlet is communicated with the water storage space, the water outlet is selectively communicated with the electrolytic space, and the electrolytic module and the water outlet are arranged at intervals.

From this, through setting up solitary electrolytic water tank, locate electrolytic water tank with the electrolysis module in, and make electrolytic module and delivery port interval each other set up, can make electrolytic module flow from the delivery port again after abundant with the water electrolysis, not only can promote electrolytic module and become the efficiency of electrolysis water with the water electrolysis in the electrolytic water tank like this, can reduce the time that the user waited for the electrolysis water, but also can promote the water in the electrolytic water tank by the abundant of electrolytic module electrolysis, thereby can promote water supply installation's reliability, can optimize water supply installation's structural design.

According to some embodiments of the utility model, the delivery port is close to the diapire front end setting of electrolysis water tank, electrolysis module correspond set up in electrolysis water tank's rear end, the water inlet set up in electrolysis water tank's diapire and offset in electrolysis module with regional one side between the delivery port.

According to some embodiments of the utility model, set for the center of delivery port arrives the electrolysis module is in the line at the projected center on the electrolysis water tank diapire is the datum line on the diapire of electrolysis water tank, the center of water inlet offset in one side of datum line.

According to some embodiments of the utility model, the water inlet with the delivery port all set up in on the diapire of electrolysis water tank, the electrolysis module is in projection on the electrolysis water tank diapire respectively with the water inlet with the delivery port is spaced each other.

According to some embodiments of the invention, the electrolysis module comprises: the electrolytic water tank comprises a support frame, an anode electrolytic plate, a cathode electrolytic plate and a sealing ring, wherein the anode electrolytic plate and the cathode electrolytic plate are arranged in the support frame; the water supply device further includes: the power connection module comprises a positive power connection piece and a negative power connection piece, the positive power connection piece is electrically connected with the positive electrode electrolytic plate and arranged in the positive electrode mounting column, and the negative power connection piece is electrically connected with the negative electrode electrolytic plate and arranged in the negative electrode mounting column.

According to the utility model discloses a few embodiments, anodal erection column with be provided with annular holding tank on the negative pole erection column respectively, the sealing washer holds in the holding tank.

According to some embodiments of the utility model, the both ends of support frame are provided with the fixed column that supplies the fastener to wear to establish, the fastener is worn to establish behind the fixed column with electrolysis water tank fixed connection, the rear end of support frame is provided with the brace rod, the brace rod with electrolysis water tank's rear end butt sets up.

According to the utility model discloses a some embodiments, the brace rod is a plurality of, and is a plurality of the brace rod the positive pole erection column with the negative pole erection column is two the interval sets up between the fixed column.

According to some embodiments of the invention, the support frame comprises: bottom plate, mounting panel and preceding bounding wall, the mounting panel set up in the rear end of bottom plate, preceding bounding wall encloses to be located the edge of bottom plate and both ends respectively with the mounting panel is connected, anodal electrolysis board with the negative pole electrolysis board sets up on the bottom plate, anodal erection column with the negative pole erection column set up in on the mounting panel, two the fixed column set up respectively in the both ends of preceding bounding wall.

According to the utility model discloses ground cleaning equipment, include: the above water supply device for floor cleaning equipment.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a water supply for a floor care appliance according to an embodiment of the present invention;

FIG. 2 is an exploded view of the water supply of the floor care appliance of an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a water supply of the floor care appliance of an embodiment of the present invention;

FIG. 4 is an exploded view of an electrolysis module and a power connection module according to an embodiment of the present invention;

fig. 5 is a sectional view of an electrolysis module and a power connection module according to an embodiment of the present invention.

Reference numerals:

100. a water supply device;

10. a water storage tank; 11. a water storage space;

20. an electrolytic water tank; 21. an electrolysis space; 22. a water inlet; 23. a water outlet;

30. an electrolysis module; 31. a support frame; 311. a positive mounting post; 3111. accommodating a tank; 312. a negative mounting post; 313. fixing the column; 314. supporting ribs; 315. a base plate; 316. mounting a plate; 317. a dash panel; 32. a positive electrode electrolyte plate; 33. a negative electrode electrolytic plate; 34. a seal ring;

40. a power connection module; 41. the positive electrode is connected with the electric piece; 42. and the negative electrode is connected with the electric piece.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

Referring to fig. 1-5, a water supply device 100 for a floor cleaning apparatus according to an embodiment of the present invention is described, wherein the water supply device 100 can be applied to a floor cleaning apparatus, which can be a floor cleaning machine or a floor scrubbing machine.

Referring to fig. 1 to 5, a water supply device 100 of a floor cleaning apparatus according to an embodiment of the present invention may mainly include: the water electrolysis device comprises a water storage tank 10, an electrolysis module 30 and an electrolysis water tank 20, wherein the water storage tank 10 is provided with a water storage space 11, the electrolysis water tank 20 is provided with an electrolysis space 21, a water outlet 23 and a water inlet 22, the electrolysis module 30 is arranged in the electrolysis space 21, the water inlet 22 is communicated with the water storage space 11, and the water outlet 23 is selectively communicated with the electrolysis space 21. Specifically, when the water supply device 100 of the floor cleaning device is arranged in the floor cleaning device, and when a user uses the floor cleaning device, the water inlet 22 can be opened first, external water flows to the water storage space 11 through the water inlet 22, the electrolysis module 30 is arranged in the electrolysis space 21, when the water in the electrolysis space 21 is not full, the water in the water storage space 11 can flow to the electrolysis space 21, the electrolysis module 30 can electrolyze the water in the electrolysis space 21 to form electrolyzed water, and the electrolyzed water can selectively flow out of the electrolysis space 21 through the water outlet 23, so that when the user uses the floor cleaning device to work, the water outlet 23 is communicated with the electrolysis space 21, and the electrolyzed water can flow out of the electrolysis space 21, thereby realizing the function that the water supply device 100 of the floor cleaning device supplies electrolyzed water to the floor cleaning device, ensuring the normal work of the water supply device 100 of the floor cleaning device, and when the floor cleaning device does not work, the water outlet 23 is disconnected from the electrolysis space 21, preventing the electrolyzed water from flowing out from the water supply device 100 of the floor cleaning device, causing the water leakage of the floor cleaning device, and ensuring the reliability of the water supply device 100 of the floor cleaning device.

In addition, by providing the separate electrolytic water tank 20 and the electrolytic module 30 in the electrolytic water tank 20, the efficiency of the electrolytic module 30 to electrolyze water in the electrolytic water tank 20 into electrolytic water can be improved, so that the waiting time of the user can be reduced, the structural reliability of the water supply device 100 can be improved, and the use experience of the user can be improved.

Further, the electrolysis module 30 and the water outlet 23 are spaced apart from each other. Specifically, the electrolysis module 30 and the water outlet 23 are arranged at intervals, so that the electrolysis module 30 can fully electrolyze water and then flow out of the water outlet 23, the water in the electrolysis water tank 20 can be prevented from being discharged from the water outlet 23 without being electrolyzed, the reliability of the electrolysis water tank 20 can be improved, and the reasonability of the structural layout of the electrolysis water tank 20 can be improved.

From this, through setting up solitary electrolytic water tank 20, locate electrolytic module 30 in electrolytic water tank 20, and make electrolytic module 30 and delivery port 23 set up at an interval each other, can make electrolytic module 30 flow out from delivery port 23 again after the water electrolysis is abundant, so not only can promote electrolytic module 30 and become the efficiency of electrolysis water with the water electrolysis in electrolytic water tank 20, can reduce the time that the user waited for the electrolysis water, but also can promote the water in electrolytic water tank 20 by the abundant nature of electrolytic module 30 electrolysis, thereby can promote water supply device 100's reliability, can optimize water supply device 100's structural design.

Referring to fig. 2, the water outlet 23 is disposed adjacent to the front end of the bottom wall of the electrolytic water tank 20, the electrolytic module 30 is correspondingly disposed at the rear end of the electrolytic water tank 20, and the water inlet 22 is disposed at the bottom wall of the electrolytic water tank 20 and is offset to one side of the area between the electrolytic module 30 and the water outlet 23. Specifically, set up electrolysis module 30 and delivery port 23 respectively in the front end and the rear end of electrolysis water tank 20 diapire, so set up, electrolysis module 30 can not only be with near water electrolysis, and can also be with the equal electrolysis back of water between front end and the rear end in electrolysis water tank 20, flow out from delivery port 23 again, can make the electrolysis of electrolysis module 30 more abundant like this, thereby can make the play water from ground cleaning equipment's water supply apparatus 100 be the electrolysis water, can prevent that the water in electrolysis water tank 20 has not been just flowed out from delivery port 23 after the electrolysis of electrolysis module 30, can promote ground cleaning equipment's water supply apparatus 100's structural reliability like this.

Further, the water inlet 22 is provided in the bottom wall of the electrolytic water tank 20, and the water inlet 22 is offset to one side of the region between the electrolytic module 30 and the water outlet 23, so that the arrangement of the water inlet 22 can be prevented from affecting the installation arrangement of the electrolytic module 30 and the water outlet 23, and the rationality of the structural layout of the electrolytic water tank 20 can be further improved. In addition, it is possible to prevent water from contacting the electrolytic module 30 during the water inlet 22 into the water storage space 11 and from flowing out of the water outlet 23, which may further improve the structural reliability of the water supply device 100 of the floor cleaning apparatus.

Referring to fig. 2, a connecting line from the center of the water outlet 23 to the center of the projection of the electrolysis module 30 on the bottom wall of the electrolysis water tank 20 is set as a reference line, and the center of the water inlet 22 is offset to one side of the reference line on the bottom wall of the electrolysis water tank 20. Specifically, a connecting line from the center of the water outlet 23 to the center of the projection of the electrolysis module 30 on the bottom wall of the electrolysis water tank 20 is set as a reference line, and the center of the water inlet 22 is offset to one side of the reference line, so that not only the space in the front-back direction of the electrolysis water tank 20 can be fully utilized by the electrolysis module 30 and the water outlet 23, but also the space in the direction perpendicular to the front-back direction of the electrolysis water tank 22 can be fully utilized by the water inlet 22, and the rationality of the structural layout of the electrolysis water tank 20 can be further improved.

Referring to fig. 2, the water inlet 22 and the water outlet 23 are both disposed on the bottom wall of the electrolytic water tank 20, and the projections of the electrolytic module 30 on the bottom wall of the electrolytic water tank 20 are spaced from the water inlet 22 and the water outlet 23, respectively. Specifically, because water inlet 22 and delivery port 23 all set up on the diapire of electrolytic water tank 20, with the projection of electrolytic module 30 on the diapire of electrolytic water tank 20 respectively with water inlet 22 and the mutual interval setting of delivery port 23, can guarantee like this that the center of electrolytic module 30 is under the prerequisite of the one side of the line of the center of water inlet 22 and the center of delivery port 23, prevent that the projection of electrolytic module 30 on the diapire of electrolytic water tank 20 from coinciding because of the factor of size with water inlet 22 and delivery port 23 each other, can guarantee water inlet 22 more comprehensively like this, delivery port 23 and electrolytic water tank 20 are mutual interval, thereby can guarantee the structural reliability of electrolytic water tank 20 more comprehensively, and the rationality of structural layout.

Further, the electrolytic water tank 20 is integrally formed, so that not only is the production and manufacturing of the electrolytic water tank 20 facilitated, but also the structural firmness and the sealing performance of the electrolytic water tank 20 are improved, water leakage of the electrolytic water tank 20 is prevented, and the structural reliability of the water supply device 100 can be improved. In addition, the electrolytic water tank 20 may be welded or adhesively fixed to the water storage tank 10, so that the electrolytic water tank 20 and the water storage tank 10 together define the water storage space 11 with good sealing performance, thereby improving the structural stability of the water supply device 100.

As shown in connection with fig. 4 and 5, the electrolysis module 30 may mainly include: support frame 31, anodal electrolytic plate 32, negative pole electrolytic plate 33 and sealing washer 34, anodal electrolytic plate 32 and negative pole electrolytic plate 33 set up in support frame 31, and support frame 31 is provided with anodal erection column 311 and negative pole erection column 312, and sealing washer 34 sets up respectively on the terminal surface of anodal erection column 311 and negative pole erection column 312 to with the sealed cooperation of electrolytic water tank 20, water supply installation 100 still includes: the power connection module 40 comprises a positive power connection piece 41 and a negative power connection piece 42, wherein the positive power connection piece 41 is electrically connected with the positive electrode electrolytic plate 32 and is arranged in the positive electrode mounting column 311, and the negative power connection piece 42 is electrically connected with the negative electrode electrolytic plate 33 and is arranged in the negative electrode mounting column 312. Specifically, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are both disposed on the support frame 31, the positive electrical connection member 41 and the negative electrical connection member 42 are respectively disposed in the positive electrode mounting post 311 and the negative electrode mounting post 312 by disposing the positive electrode mounting post 311 and the negative electrode mounting post 312 on the support frame 31, and the positive electrical connection member 41 and the negative electrical connection member 42 are electrically connected with the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, respectively, and the positive electrical connection member 41 and the negative electrical connection member 42 will be electrically connected with an external power source, respectively.

Therefore, it is necessary to form a through hole on the sidewall of the electrolytic water tank 20, after the positive mounting post 311 and the negative mounting post 312 are respectively inserted into the mounting holes, the end surfaces of the positive mounting post 311 and the negative mounting post 312 are respectively abutted against the inner wall of the water storage tank 10, in order to ensure the sealing property and the waterproof property of the water supply device 100 of the floor cleaning device, the sealing ring 34 may be provided on the end surfaces of the positive mounting post 311 and the negative mounting post 312, when the end surfaces of the positive mounting post 311 and the negative mounting post 312 are respectively abutted against the inner wall of the water storage tank 10, the sealing ring 34 may be elastically abutted against and matched with the inner wall of the water storage tank 10, thereby sealing the gap between the positive mounting post 311 and the negative mounting post 312 and the inner wall of the water storage tank 10, and further, not only water leakage of the water supply device 100 of the floor cleaning device may be prevented, but also the stability and the reliability of connection and fixation between the power connection module 40 and the electrolytic module 30 may be improved.

As shown in fig. 4 and 5, the positive electrode mounting post 311 and the negative electrode mounting post 312 are provided with annular receiving grooves 3111, respectively, and the seal rings 34 are received in the receiving grooves 3111. Specifically, the accommodating groove 3111 is formed in the end surfaces of the positive mounting post 311 and the negative mounting post 312, and the sealing ring 34 is disposed in the accommodating groove 3111, so that the reliability of elastic abutting sealing between the sealing ring 34 and the inner wall of the water storage tank 10 and between the positive mounting post 311 and the negative mounting post 312 can be further improved, the mounting and fixing of the sealing ring 34 can be more stable and reliable, and the structural reliability of the electrolytic water tank 20 can be further improved.

Referring to fig. 4 and 5, fixing posts 313 for fasteners to pass through are disposed at two ends of the supporting frame 31, the fasteners are fixedly connected to the electrolytic water tank 20 after passing through the fixing posts 313, a supporting rib 314 is disposed at a rear end of the supporting frame 31, and the supporting rib 314 is abutted against a rear end of the electrolytic water tank 20. Specifically, by arranging the fixing posts 313 at both ends of the supporting frame 31, in the process of arranging the electrolytic module 30 on the electrolytic water tank 20, the fixing posts 313 and the electrolytic water tank 20 can be penetrated by fasteners, and the supporting frame 31 and the electrolytic water tank 20 are connected and fixed, so that the stability and reliability of the installation and arrangement of the electrolytic module 30 on the electrolytic water tank 20 can be ensured.

Further, after the fastening member penetrates through the fixing columns 313 at the two ends of the support frame 31, the two ends of the support frame 31 may be installed unevenly, thereby causing the positive electrical connection member 41 and the negative electrical connection member 42 to protrude out of the water storage tank 10 at different lengths, and further causing the positive electrical connection member 41 and the negative electrical connection member 42 to be unstable in electrical connection with an external power supply, by providing the support rib 314 at the rear end of the support frame 31, the support rib 314 is abutted against the rear end of the electrolytic water tank 20, it can be realized that the support frame 31 and the electrolytic water tank 20 are connected more stably and evenly, thereby it can be realized that the positive electrical connection member 311 and the negative electrical connection member 312 protrude out of the water storage tank 10 at equal lengths, so that the positive electrical connection member 41 and the negative electrical connection member 42 are more stably and reliably connected with the external power supply, and further improving the structural reliability of the water supply device 100 of the floor cleaning equipment.

As shown in fig. 4 and 5, the support rib 314 is provided in plurality, and the support rib 314, the positive mounting post 311, and the negative mounting post 312 are provided at intervals between the two fixing posts 313. Specifically, the plurality of support ribs 314, the positive mounting posts 311 and the negative mounting posts 312 are arranged between the two fixing posts 313 at intervals, so that the mounting arrangement of the plurality of support frames 31, the positive mounting posts 311 and the negative mounting posts 312 and the electrolytic water tank 20 is more stable and firmer, and the protruding lengths of the positive mounting posts 311 and the negative mounting posts 312 protruding out of the water storage tank 10 are equal, so that the structural reliability of the electrolytic water tank 20 can be further improved.

As shown in fig. 4 and 5, the supporting frame 31 may mainly include: bottom plate 315, mounting panel 316 and preceding bounding wall 317, mounting panel 316 sets up in the rear end of bottom plate 315, and preceding bounding wall 317 encloses the edge of locating bottom plate 315 to both ends are connected with mounting panel 316 respectively, and anodal electrolysis board 32 and negative pole electrolysis board 33 set up on bottom plate 315, and anodal erection column 311 and negative pole erection column 312 set up on mounting panel 316, and two fixed columns 313 set up respectively in the both ends of preceding bounding wall 317. Specifically, the mounting plate 316 is disposed at the rear end of the bottom plate 315, the front wall 317 is surrounded at the edge of the bottom plate 315, two ends of the front wall 317 are respectively connected to the mounting plate 316, so that the structural design of the support frame 31 is reasonable, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are disposed on the bottom plate 315, the positive electrode mounting post 311 and the negative electrode mounting post 312 are disposed on the mounting plate 316, and the positive electrical connection part 41 and the negative electrical connection part 42 are respectively disposed in the positive electrode mounting post 311 and the negative electrode mounting post 312, so that the electrical connection between the positive electrical connection part 41 and the negative electrical connection part 42 and the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are more simply and directly performed. Further, the two fixing posts 313 are respectively provided at both ends of the dash panel 317, which not only facilitates the installation of the electrolytic module 30 on the electrolytic water tank 20, but also further improves the structural reliability of the water supply device 100 for the floor cleaning apparatus.

According to the utility model discloses ground cleaning equipment can mainly include above-mentioned ground cleaning equipment's water supply installation 100, sets up above-mentioned ground cleaning equipment's water supply installation 100 in ground cleaning equipment, can make ground cleaning equipment's structure compacter to ground cleaning equipment's water supply installation 100's structural design can be optimized.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A water supply arrangement for a floor cleaning appliance, comprising:

a water storage tank (10), wherein a water storage space (11) is formed in the water storage tank (10);

an electrolysis module (30); and

the water storage device comprises an electrolytic water tank (20), wherein an electrolytic space (21), a water inlet (22) and a water outlet (23) are formed in the electrolytic water tank (20), an electrolytic module (30) is arranged in the electrolytic space (21), the water inlet (22) is communicated with the water storage space (11), the water outlet (23) is selectively communicated with the electrolytic space (21), and the electrolytic module (30) and the water outlet (23) are arranged at intervals.

2. The water supply device for floor cleaning equipment according to claim 1, wherein the water outlet (23) is disposed adjacent to the front end of the bottom wall of the electrolytic water tank (20), the electrolytic module (30) is correspondingly disposed at the rear end of the electrolytic water tank (20), and the water inlet (22) is disposed at the bottom wall of the electrolytic water tank (20) and is offset to one side of the area between the electrolytic module (30) and the water outlet (23).

3. The water supply device for a floor cleaning device according to claim 2, characterized in that a connecting line of the center of the water outlet (23) to the center of the electrolytic module (30) projected on the bottom wall of the electrolytic water tank (20) is set as a reference line, and the center of the water inlet (22) is offset to one side of the reference line on the bottom wall of the electrolytic water tank (20).

4. The water supply device for a floor cleaning appliance according to claim 3, characterized in that the water inlet (22) and the water outlet (23) are both arranged on the bottom wall of the electrolysis water tank (20), and the projection of the electrolysis module (30) on the bottom wall of the electrolysis water tank (20) is spaced apart from the water inlet (22) and the water outlet (23), respectively.

5. Water supply device of a floor cleaning appliance according to claim 1, characterized in that the electrolysis module (30) comprises: the electrolytic water tank comprises a support frame (31), a positive electrode electrolytic plate (32), a negative electrode electrolytic plate (33) and a sealing ring (34), wherein the positive electrode electrolytic plate (32) and the negative electrode electrolytic plate (33) are arranged in the support frame (31), the support frame (31) is provided with a positive electrode mounting column (311) and a negative electrode mounting column (312), and the sealing ring (34) is respectively arranged on the end faces of the positive electrode mounting column (311) and the negative electrode mounting column (312) and is in sealing fit with the electrolytic water tank (20);

the water supply device (100) further comprises: connect electric module (40), connect electric module (40) including anodal electrical component (41) and negative pole electrical component (42), anodal electrical component (41) with anodal electrolysis board (32) electricity connect and set up in anodal erection column (311), negative pole electrical component (42) with negative pole electrolysis board (33) electricity connect and set up in negative pole erection column (312).

6. The water supply device for a floor cleaning appliance according to claim 5, wherein the positive mounting post (311) and the negative mounting post (312) are each provided with an annular receiving groove (3111), and the sealing ring (34) is received in the receiving groove (3111).

7. The water supply device of the floor cleaning device according to claim 5, wherein fixing posts (313) for fasteners to penetrate are arranged at two ends of the support frame (31), the fasteners penetrate through the fixing posts (313) and then are fixedly connected with the electrolytic water tank (20), a support rib (314) is arranged at the rear end of the support frame (31), and the support rib (314) is abutted against the rear end of the electrolytic water tank (20).

8. The water supply device of the floor cleaning device as claimed in claim 7, wherein the support rib (314) is provided in plurality, and the plurality of support ribs (314), the positive mounting column (311) and the negative mounting column (312) are arranged at intervals between the two fixing columns (313).

9. Water supply device of a floor cleaning appliance according to claim 7, characterized in that the support frame (31) comprises: the novel electrolytic cell comprises a bottom plate (315), a mounting plate (316) and a front wall plate (317), wherein the mounting plate (316) is arranged at the rear end of the bottom plate (315), the front wall plate (317) is arranged in a surrounding mode at the edge of the bottom plate (315) and two ends of the front wall plate are respectively connected with the mounting plate (316), a positive electrode electrolytic plate (32) and a negative electrode electrolytic plate (33) are arranged on the bottom plate (315), a positive electrode mounting column (311) and a negative electrode mounting column (312) are arranged on the mounting plate (316), and two fixing columns (313) are respectively arranged at two ends of the front wall plate (317).

10. A floor cleaning apparatus, comprising: a water supply arrangement (100) of a floor scrubbing apparatus as claimed in any one of claims 1 to 9.

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