CN114451840A - Water supply device of floor cleaning equipment and floor cleaning equipment - Google Patents

Abstract

The invention discloses a water supply device of a ground cleaning device and the ground cleaning device, the water supply device of the ground cleaning device comprises: a water storage tank; the electrolytic water tank is selectively communicated with the water storage tank and is provided with an electrolytic water outlet; and the electrolysis module is arranged in the electrolysis water tank so as to form electrolyzed water in the electrolysis water tank. From this, storage water tank and electrolytic water tank through setting up mutual intercommunication, and set up the electrolysis module in the electrolytic water tank, the electrolysis module only need with the water electrolysis in the electrolytic water tank alright flow out the electrolysis water with the water supply installation that makes ground cleaning equipment, can be guaranteeing that ground cleaning equipment's water supply installation's water storage capacity is certain like this, and under the certain prerequisite of electrolysis module power, reduce the time of ground cleaning equipment's water supply installation output electrolysis water, can reduce the time that the user waited for ground cleaning equipment's water supply installation outflow electrolysis water, thereby can promote user's use and experience.

Description

Water supply device of floor cleaning equipment and floor cleaning equipment

Technical Field

The invention relates to the technical field of floor cleaning, in particular to a water supply device of floor cleaning equipment and the floor cleaning equipment.

Background

With the development of science and technology and the improvement of the living standard of people, the ground cleaning equipment is generally popularized gradually as the ground cleaning equipment has better cleaning effect on the ground and is recognized by people. Furthermore, an electrolysis device is arranged in a clean water tank of the ground cleaning equipment, and the water supply device can flow out of the electrolyzed water through the electrolysis of the electrolysis device, so that the electrolyzed water has a better sterilization effect, and the cleaning effect of the ground cleaning equipment on the ground can be improved.

In prior art, ground cleaning device generally directly sets up electrolytic device in the clear water tank, in order to reduce the frequency that the user changed water supply installation, need set up water supply installation's water storage area ground great, electrolytic device just can let the brineelectrolysis go out after becoming the brineelectrolysis with the water electrolysis in the whole clear water tank, and whole process needs the user to wait for longer time, seriously influences the user and experiences to ground cleaning device's use.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides the water supply device of the floor cleaning equipment, so that the time for a user to wait for the electrolyzed water to flow out of the water supply device of the floor cleaning equipment is short, and the use experience of the user is good.

The invention further proposes a floor cleaning device.

According to an embodiment of the invention, a water supply device of a floor cleaning device comprises: a water storage tank; the electrolytic water tank is selectively communicated with the water storage tank and is provided with an electrolytic water outlet, and the volume of the electrolytic water tank is smaller than that of the water storage tank; an electrolysis module disposed within the electrolysis tank to form electrolyzed water within the electrolysis tank.

From this, storage water tank and electrolytic water tank through setting up mutual intercommunication, and set up the electrolysis module in the electrolytic water tank, the electrolysis module only need with the water electrolysis in the electrolytic water tank alright flow out the electrolysis water with the water supply installation that makes ground cleaning equipment, can be guaranteeing that ground cleaning equipment's water supply installation's water storage capacity is certain like this, and under the certain prerequisite of electrolysis module power, reduce the time of ground cleaning equipment's water supply installation output electrolysis water, can reduce the time that the user waited for ground cleaning equipment's water supply installation outflow electrolysis water, thereby can promote user's use and experience.

According to some embodiments of the invention, the water supply of the floor scrubbing apparatus further comprises: and the power connection module is arranged outside the electrolytic water tank and is connected with the electrolytic module through a connecting wire.

According to some embodiments of the invention, the power connection module comprises: the electrolytic cell comprises a junction box, a positive wiring terminal and a negative wiring terminal, wherein the positive wiring terminal and the negative wiring terminal are arranged on the junction box, the end parts of the positive wiring terminal and the negative wiring terminal protrude out of the junction box, and the positive wiring terminal and the negative wiring terminal are respectively connected with the electrolytic module through the connecting wires.

According to some embodiments of the invention, the junction box comprises: box body, elastic sealing member and lid, the lid set up in on the box body, elastic sealing member set up in the box body with between the lid, positive binding post with negative binding post all wears to establish on the elastic sealing member.

According to some embodiments of the invention, the positive connection terminals are at least two and at least two of the positive connection terminals are connected to the corresponding connection line.

According to some embodiments of the invention, the water supply of the floor scrubbing apparatus further comprises: the base, the base set up in electrolytic water tank's bottom, the base with the storage water tank is injectd jointly and is held the chamber, electrolytic water tank set up in hold the intracavity.

According to some embodiments of the invention, the electrolytic water tank is provided with an avoiding groove, a clamping part is arranged in the avoiding groove, and the junction box is arranged in the avoiding groove and is in clamping fit with the clamping part.

According to some embodiments of the invention, the water storage tank comprises: the electrolytic water tank is arranged on the box plate and is provided with a water storage outlet, and the electrolytic water tank is selectively communicated with the water storage outlet.

According to some embodiments of the invention, the main case comprises: case shell, first baffle and second baffle, first baffle with the second baffle set up in on the case shell and the interval sets up on the case shell, the second baffle is provided with the water storage export, the electrolysis water tank orientation open the setting in one side of second baffle.

According to some embodiments of the invention, the enclosure comprises: the electrolytic water tank comprises a first shell part and a second shell part, wherein a first partition is arranged at one end of the first shell part, a second partition is arranged at the boundary of the first shell part and the second shell part, an accommodating space is defined by the second shell part, the second partition and a part of the tank plate corresponding to the second shell part, and the electrolytic water tank is arranged in the accommodating space.

According to some embodiments of the invention, the electrolysis module comprises: support frame, anodal electrolysis board and negative pole electrolysis board, the support frame set up in the electrolytic water tank, anodal electrolysis board with negative pole electrolysis board set up respectively in the support frame, anodal electrolysis board with negative pole electrolysis board is connected with the connecting wire respectively.

According to some embodiments of the invention, the support frame is provided with a mounting groove, a support rib is arranged in the mounting groove, and the positive electrode electrolytic plate and the negative electrode electrolytic plate are arranged in the mounting groove and located on two sides of the support rib.

According to some embodiments of the invention, the supporting rib is provided in plurality, and the supporting ribs are arranged in a crossing manner.

According to some embodiments of the present invention, a first isolation ring and a second isolation ring are respectively disposed at two intersections of the plurality of support ribs, one of the positive electrode electrolytic plate and the negative electrode electrolytic plate is provided with a first avoidance hole, the first avoidance hole avoids the first isolation ring, a connector is disposed at a top of the connection line, the connector of the connection line is disposed in the first isolation ring and is pressed against the other of the positive electrode electrolytic plate and the negative electrode electrolytic plate, and the connection line penetrates the other of the positive electrode electrolytic plate and the negative electrode electrolytic plate and is electrically connected to the power connection module; the positive pole electrolytic plate with another in the negative pole electrolytic plate is provided with the second and dodges the hole, the second dodges the hole and dodges the second isolating ring, another the connecting wire the connector is pressed and is located positive pole electrolytic plate with on one in the negative pole electrolytic plate, another the connecting wire is worn to establish in proper order positive pole electrolytic plate with in the negative pole electrolytic plate the second isolating ring with positive pole electrolytic plate with another in the negative pole electrolytic plate and with connect the electric connection of electric module.

According to some embodiments of the invention, a threading column is arranged in the electrolytic water tank, a threading hole is formed in the threading column, the positive electrode electrolytic plate or the negative electrode electrolytic plate is arranged at the top of the threading column, and the connecting wire is electrically connected with the corresponding positive electrode electrolytic plate or the corresponding negative electrode electrolytic plate after being threaded through the threading hole.

According to some embodiments of the invention, the connection line comprises: the electrolytic water tank comprises a first line segment, a second line segment and a third line segment, wherein the first line segment is arranged in the electricity connection module and electrically connected with the electricity connection module, the second line segment is arranged outside the electricity connection module and the electrolytic water tank and is bent relative to the first line segment and the third line segment, and the third line segment penetrates through the threading hole and is electrically connected with the electrolytic module.

According to some embodiments of the present invention, the electrolytic water tank is provided at an inner side wall thereof with a step portion on which an edge of the support frame is supported.

According to some embodiments of the invention, the positive electrode electrolyte plate and the negative electrode electrolyte plate are provided with water through holes, and the positive electrode electrolyte plate and the negative electrode electrolyte plate are identical in structure and are symmetrically arranged about the center of the support frame.

According to some embodiments of the invention, the volume of the water storage tank is V1, the volume of the electrolytic water tank is V2, and V1 and V2 satisfy the following relation: V2/V1 is more than or equal to 0.1 and less than or equal to 0.6.

According to some embodiments of the invention, the water supply of the floor scrubbing apparatus further comprises: the water replenishing valve is arranged at the water storage outlet and selectively opens and closes the water storage outlet; or

The electrolytic water tank is provided with an electrolytic water inlet, and the water replenishing valve is arranged at the electrolytic water inlet and selectively opens and closes the electrolytic water inlet.

According to some embodiments of the invention, the water supply of the floor scrubbing apparatus further comprises: and the water outlet valve is arranged at the electrolyzed water outlet and selectively opens and closes the electrolyzed water outlet.

A floor scrubbing apparatus according to an embodiment of the present invention comprises: a host; the ground brush is connected to the bottom of the main machine; the water supply device of the floor cleaning equipment comprises a water storage tank, an electrolytic water tank, a water outlet pipe, a water inlet pipe, a water outlet pipe and a water outlet pipe.

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 of a floor care appliance according to an embodiment of the invention;

FIG. 2 is an exploded view of the water supply of the floor scrubbing apparatus of the present invention;

FIG. 3 is a partial cross-sectional view of a water supply of the floor scrubbing apparatus of an embodiment of the present invention;

FIG. 4 is a schematic view of an electrolytic water tank of an embodiment of the present invention;

FIG. 5 is a schematic view of an electrolytic water tank of an embodiment of the present invention;

FIG. 6 is an exploded view of an electrolysis module and connecting wires according to an embodiment of the invention;

FIG. 7 is a cross-sectional view of an electrolysis module and connecting wires of an embodiment of the invention;

FIG. 8 is a cross-sectional view of an electrolysis module and connecting wires of an embodiment of the invention;

fig. 9 is an exploded view of a power module according to an embodiment of the invention.

Reference numerals:

100. a water supply device;

10. a water storage tank; 11. a main box body; 111. a cabinet housing; 1111. a first shell portion; 1112. a second shell portion; 112. a first separator; 113. a second separator; 1131. a water storage outlet; 12. a boxboard; 13. a transparent cover; 14. an accommodating space;

20. an electrolytic water tank; 21. an avoidance groove; 211. a clamping part; 22. threading the wire column; 221. threading holes; 23. a step portion; 24. an electrolyzed water outlet; 25. a via hole; 26. fixing a column;

30. an electrolysis module; 31. a support frame; 311. mounting grooves; 312. supporting ribs; 313. a first spacer ring; 314. a second isolation ring; 315. a limiting block; 316. a through hole; 32. a positive electrode electrolyte plate; 321. a first avoidance hole; 322. water passing holes; 33. a negative electrode electrolytic plate; 331. a second avoidance hole;

40. a power connection module; 41. a junction box; 411. a box body; 412. an elastomeric seal; 413. a box cover; 42. a positive terminal; 43. a negative terminal;

50. a connecting wire; 51. a first line segment; 52. a second line segment; 53. a third line segment; 54. a connector; 55. sealing the rubber sleeve; 56. a bolt;

60. a base; 70. a water replenishing valve; 80. and (4) a water outlet valve.

Detailed Description

Embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being illustrative, and the embodiments of the present invention will be described in detail below.

Referring now to fig. 1-9, a water supply 100 for a floor scrubbing apparatus according to an embodiment of the present invention is described, the water supply 100 for a floor scrubbing apparatus being applicable to a floor scrubbing apparatus, which may be a floor scrubbing machine or a floor scrubbing machine.

Referring to fig. 1 to 3, a water supply device 100 of a floor cleaning apparatus according to an embodiment of the present invention may mainly include: a water storage tank 10, an electrolytic water tank 20, and an electrolytic module 30, wherein the electrolytic water tank 20 and the water storage tank 10 are selectively communicated, the electrolytic module 30 is disposed in the electrolytic water tank 20, and the electrolytic water tank 20 is provided with an electrolytic water outlet 24. Specifically, when the user is ready to use the floor cleaning apparatus, the water supply device 100 of the floor cleaning apparatus is first filled with water, and then the water supply device 100 of the floor cleaning apparatus is installed in the floor cleaning apparatus, and then the floor cleaning apparatus is turned on and the electrolysis module 30 is electrolyzed, so that the electrolyzed water can be supplied.

During the process of filling water into the water supply device 100 of the floor cleaning device, the water sequentially enters the water storage tank 10 and the electrolytic water tank 20, and during the process of electrolysis of the electrolytic module 30, the electrolytic module 30 only needs to electrolyze the water in the electrolytic water tank 20 into electrolytic water, so that the electrolytic water in the electrolytic water tank 20 can flow out from the electrolytic water outlet 24 for use by the floor cleaning device.

Compared with the traditional ground cleaning equipment, the arrangement is that a user does not need to wait for the electrolytic module to electrolyze all water in the water supply device of the ground cleaning equipment into electrolytic water, and then the electrolytic water flows out of the water supply device of the ground cleaning equipment, but only needs to wait for the electrolytic module 30 to electrolyze water in the electrolytic water tank 20 into electrolytic water, and then the electrolytic water can flow out of the water supply device 100 of the ground cleaning equipment, and the ground cleaning equipment starts to work normally, so that the capacity of the water supply device 100 of the ground cleaning equipment can be ensured to be constant, and the power of the electrolytic module 30 is constant, the efficiency of the water supply device 100 of the ground cleaning equipment for producing the electrolytic water is improved, the time of the user waiting for the water supply device 100 of the ground cleaning equipment to flow out the electrolytic water from starting, and the use experience of the user can be improved.

Further, in the process of using the floor cleaning device, the electrolyzed water in the electrolyzed water tank 20 will slowly flow out from the electrolyzed water outlet 24, i.e. the water in the electrolyzed water tank 20 will slowly decrease, because the electrolyzed water tank 20 is communicated with the water storage tank 10, the water in the water storage tank 10 will slowly flow into the electrolyzed water tank 20 for electrolysis of the electrolyzed water tank 20, so as to set up, when the user uses the floor cleaning device to clean the floor, the electrolyzed water will be continuously generated by the electrolysis module 30, so that the time utilization rate of the user can be improved on the premise of ensuring that the quantity of the electrolyzed water generated by the water supply device 100 of the floor cleaning device is not changed, i.e. the electrolyzed water is generated by the water supply device 100 of the floor cleaning device, the user can use the floor cleaning device to clean the floor, compared with the conventional floor cleaning device, the user needs to wait for the electrolysis module to electrolyze all the water first, the cleaning of ground is compared again, so set up, can further save user's time, can further promote user to the use experience of ground cleaning device.

Further, electrolytic water tank 20's volume is less than storage water tank 10's volume, so set up, under the prerequisite of guaranteeing that the whole volume of water supply unit 100 is unchangeable, set up electrolytic water tank 20's volume less, can promote electrolytic module 30 and become the efficiency of electrolytic water with the water electrolysis in electrolytic water tank 20 to can reduce the time that the user waited for, can promote user's use and experience.

From this, through setting up storage water tank 10 and electrolytic water tank 20 that communicate each other, and set up electrolysis module 30 in electrolytic water tank 20, electrolysis module 30 only need with electrolysis of water in electrolytic water tank 20 alright with make ground cleaning device's water supply installation 100 outflow electrolytic water, can be in the water storage capacity of guaranteeing ground cleaning device's water supply installation 100 certain like this, and under the certain prerequisite of electrolysis module 30 power, reduce the time that ground cleaning device's water supply installation 100 produced the electrolytic water, can reduce the time that the user waited for ground cleaning device's water supply installation 100 outflow electrolytic water, thereby can promote user's use and experience.

As shown in fig. 2 and 3, the water supply device 100 of the floor cleaning device may further mainly include: and the power connection module 40 is arranged outside the electrolytic water tank 20, and is connected with the electrolytic module 30 through a connecting wire 50. Specifically, the power connection module 40 is disposed outside the electrolytic water tank 20, and the power connection module 40 is connected to the electrolytic module 30 through the connection line 50, so that the power connection module 40 is prevented from occupying the internal space of the electrolytic water tank 20 on the premise of ensuring continuous and stable power supply of the power connection module 40 to the electrolytic module 30, and thus the structural layout of the water supply device 100 of the floor cleaning device is more reasonable, and the reliability of the water supply device 100 of the floor cleaning device is further improved.

Further, as shown in fig. 2, fig. 3 and fig. 7, the power connection module 40 may mainly include: the electrolytic cell comprises a junction box 41, a positive terminal 42 and a negative terminal 43, wherein the positive terminal 42 and the negative terminal 43 are arranged on the junction box 41, the ends of the positive terminal 42 and the negative terminal 43 protrude out of the junction box 41, and the positive terminal 42 and the negative terminal 43 are respectively connected with the electrolytic module 30 through connecting wires 50. Specifically, the positive terminal 42 and the negative terminal 43 are disposed on the terminal box 41, and the ends of the positive terminal 42 and the negative terminal 43 protrude from the terminal box 41, so that the connection line 50 can be conveniently electrically connected with the ends of the positive terminal 42 and the negative terminal 43, the electric module 40 can be conveniently maintained, and the use experience of the water supply device 100 of the floor cleaning device by a user can be improved.

As shown in fig. 7, the terminal block 41 may mainly include: the box body 411, the elastic sealing piece 412 and the box cover 413, the box cover 413 is arranged on the box body 411, the elastic sealing piece 412 is arranged between the box body 411 and the box cover 413, and the positive wiring terminal 42 and the negative wiring terminal 43 are arranged on the elastic sealing piece 412 in a penetrating mode. Specifically, by detachably disposing the box cover 413 on the box body 411 and disposing the elastic sealing element 412 between the box body 411 and the box cover 413, the box body 411 can be selectively opened by the box cover 413 on the premise of ensuring the tightness of the interior of the junction box 41, so that the structure inside the box body 411 can be conveniently maintained and replaced, and the structural design of the junction box 41 can be further optimized.

Further, the elastic sealing member 412 is disposed between the box body 411 and the box cover 413, and the positive terminal 42 and the negative terminal 43 are inserted into the elastic sealing member 412, so that the elastic sealing member 412 can elastically protect the positive terminal 42 and the negative terminal 43, and the structural reliability of the junction box 41 can be further improved. It should be noted that the elastic sealing member 412 may be at least one of a rubber sealing member, a silicone sealing member, and a latex sealing member.

As shown in fig. 2 and 9, the number of the positive terminals 42 is at least two, and at least two positive terminals 42 are connected to the corresponding connecting wires 50, so as to ensure the stability and reliability of the electrical connection between the positive terminals 42 and the corresponding connecting wires 50, thereby improving the continuous stability of the power supply of the power connection module 40 to the electrolysis module 30.

As shown in fig. 2 and 3, the water supply device 100 of the floor cleaning device may further mainly include: the base 60, the base 60 is arranged at the bottom of the electrolytic water tank 20, the base 60 and the water storage tank 10 together define a containing cavity, and the electrolytic water tank 20 is arranged in the containing cavity. Specifically, the base 60 is disposed at the bottom of the electrolytic water tank 20, and the base 60 and the water storage tank 10 jointly define a containing cavity, so that the containing cavity can contain the electrolytic water tank 20, thereby not only improving the structural compactness and the space utilization rate of the water supply device 100 of the floor cleaning equipment, but also protecting the electrolytic water tank 20 and improving the structural stability of the water supply device 100 of the floor cleaning equipment.

In addition, be provided with fixed column 26 on electrolytic water tank 20's the diapire, base 60 is provided with the perforation in the position that corresponds fixed column 26, and the fastener wears to establish perforation and fixed column 26 in proper order to make electrolytic water tank 20 be connected fixedly with base 60, so, not only can make electrolytic water tank 20's setting more stable firm on the one hand, and electrolytic water tank 20's the mode of setting is simple direct moreover, and on the other hand can promote electrolytic water tank 20 and the stability and the reliability that store water tank 10 communicates each other.

Referring to fig. 2 to 5, the electrolytic water tank 20 is provided with an avoiding groove 21, a clamping portion 211 is provided in the avoiding groove 21, the junction box 41 is installed in the avoiding groove 21, and the junction box 41 is clamped and matched with the clamping portion 211. Specifically, the avoiding groove 21 is formed in the vertical outer side wall of the electrolytic water tank 20, so that the junction box 41 is arranged in the avoiding groove 21, the space utilization rate of the water supply device 100 of the floor cleaning equipment can be improved, the structure of the water supply device 100 of the floor cleaning equipment can be more compact, and the volume of the water supply device 100 of the floor cleaning equipment can be further reduced.

Further, set up joint portion 211 in dodging the groove 21, make the direct joint of terminal box 41 set up in joint portion 211, not only can guarantee the stability that terminal box 41 installed the setting in dodging the groove 21 like this, but also can reduce the degree of difficulty that terminal box 41 installed the setting in dodging the groove 21, can make things convenient for setting up of terminal box 41 in dodging the groove 21.

As shown in fig. 1-3, the water storage tank 10 may mainly include: the electrolytic water tank comprises a main tank body 11 and a tank plate 12, wherein the tank plate 12 is arranged on one side of the main tank body 11, the electrolytic water tank 20 is arranged on the tank plate 12, the main tank body 11 is provided with a water storage outlet 1131, and the electrolytic water tank 20 is selectively communicated with the water storage outlet 1131. Specifically, by disposing the box board 12 on one side of the main box body 11, the main box body 11 and the box board 12 can define the water storage area of the water storage tank 10 together, and by disposing the electrolytic water tank 20 on the box board 12, not only the stability and reliability of the installation and disposition of the electrolytic water tank 20 can be improved, but also the integration level between the electrolytic water tank 20 and the water storage tank 10 can be improved, and the structure of the water supply device 100 of the floor cleaning device can be more compact and reliable.

Further, a water storage outlet 1131 is provided in the main tank 11, and the electrolytic water tank 20 is selectively communicated with the water storage outlet 1131, so that water in the water storage tank 10 can selectively flow into the electrolytic water tank 20 through the water storage outlet 1131, thereby replenishing water in time when the electrolytic water tank 20 is short of water, and cutting off water in time when the electrolytic water tank 20 is full of water.

As shown in fig. 1 to 3, the main casing 11 may mainly include: the electrolytic water tank comprises a box shell 111, a first partition plate 112 and a second partition plate 113, wherein the first partition plate 112 and the second partition plate 113 are arranged on the box shell 111, the first partition plate 112 and the second partition plate 113 are arranged on the box shell 111 at intervals, the second partition plate 113 is provided with a water storage outlet 1131, and one side of the electrolytic water tank 20 facing the second partition plate 113 is arranged in an open mode. Specifically, the first partition 112 and the second partition 113 are disposed on the housing 111 at intervals, so that the housing 111, the first partition 112, the second partition 113 and the tank plate 12 together define a water storage area of the water storage tank 10, and the structural design of the main tank 11 can be simplified.

Further, the second separator 113 is provided with a water storage outlet 1131, and the electrolytic water tank 20 is provided to be opened toward one side of the second separator 113. Specifically, the water storage outlet 1131 is provided in the second partition 113, and the electrolytic water tank 20 is provided to be open to the side of the second partition 113, on the one hand, the second partition 113 can not only directly seal the electrolytic water tank 20 to the side of the second partition 113, thereby ensuring the tightness of the electrolytic water tank 20, simplifying the structural design of the electrolytic water tank 20, the water supply device 100 of the floor cleaning device can be more compact, and on the other hand, the water in the water storage tank 10 can directly flow to the electrolytic water tank 20 through the water storage outlet 1131 on the second partition 113, so that the path for the water to flow from the water storage tank 10 to the electrolytic water tank 20 can be shortened, therefore, the speed of water entering the electrolytic water tank 20 from the water storage tank 10 can be increased, the speed of the water supply device 100 of the floor cleaning equipment for producing the electrolytic water can be increased to a certain extent, and the structural reliability of the water supply device 100 of the floor cleaning equipment can be improved.

As shown in fig. 2 and 3, the housing 111 may essentially comprise: the electrolytic water tank comprises a first shell portion 1111 and a second shell portion 1112, wherein a first partition plate 112 is arranged at one end of the first shell portion 1111, a second partition plate 113 is arranged at the boundary of the first shell portion 1111 and the second shell portion 1112, the second partition plate 113 and a part of the tank board 12 corresponding to the second shell portion 1112 define an accommodating space 14, and the electrolytic water tank 20 is arranged in the accommodating space 14. Specifically, the cabinet case 111 is partitioned into a first case portion 1111 and a second case portion 1112, and the first case portion 1111 and the second case portion 1112 are fixedly connected to each other, the first partition 112 is disposed at one end of the first case portion 1111, and the second partition 113 is disposed at a connection of the other end of the first case portion 1111 and the second case portion 1112, i.e., a boundary of the first case portion 1111 and the second case portion 1112, the second partition 113, and a portion of the cabinet plate 12 corresponding to the second case portion 1112 define an accommodation space 14, and the accommodation space 14 may be used for installation of the electrolytic water tank 20.

Therefore, the stability and the reliability of the installation of the electrolytic water tank 20 in the water supply device 100 of the floor cleaning equipment can be further improved, the structural design of the water supply device 100 of the floor cleaning equipment can be further simplified, the structure of the water supply device 100 of the floor cleaning equipment can be more compact, the volume of the water supply device 100 of the floor cleaning equipment can be smaller, and the installation and the application of the water supply device 100 of the floor cleaning equipment in the floor cleaning equipment can be facilitated.

In addition, due to the arrangement, the electrolytic water tank 20 and the water storage tank 10 can be detached and separated conveniently, so that the cleaning, maintenance and replacement of the electrolytic water tank 20 by a user can be facilitated, and the use experience of the user on the water supply device 100 of the ground cleaning equipment can be further improved.

Furthermore, as shown in fig. 1, the main box 11 is further provided with a transparent cover 13 capable of being selectively opened or closed, when the transparent cover 13 is in a closed state, the water supply device 100 of the floor cleaning device can normally operate, and when the water supply device 100 of the floor cleaning device fails or a user wants to observe the water level of water in the water supply device 100 of the floor cleaning device, the user can directly observe through the transparent cover 13, so that the user can more clearly know the internal structure and the operating state of the water supply device 100 of the floor cleaning device, and the user experience of the water supply device 100 of the floor cleaning device can be improved. Of course, the water storage tank 10 may be integrally formed as a transparent water storage tank.

As shown in fig. 2, 3 and 6, the electrolysis module 30 may mainly include: the electrolytic cell comprises a support frame 31, a positive electrode electrolytic plate 32 and a negative electrode electrolytic plate 33, wherein the support frame 31 is arranged in the electrolytic water tank 20, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are respectively arranged on the support frame 31, and the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are respectively connected with a connecting wire 50. Specifically, the support frame 31 provided with the anode electrolytic plate 32 and the cathode electrolytic plate 33 is arranged in the electrolytic water tank 20, and the anode electrolytic plate 32 and the cathode electrolytic plate 33 are respectively connected with the connecting line 50, so that the electrolytic module 30 can be stably installed inside the electrolytic water tank 20, water inside the electrolytic water tank 20 can be electrolyzed under the action of the anode electrolytic plate 32 and the cathode electrolytic plate 33, and the normal operation of the water supply device 100 of the floor cleaning equipment is ensured.

Further, as shown in fig. 6, a mounting groove 311 is provided on the supporting frame 31, a supporting rib 312 is provided in the mounting groove 311, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are provided in the mounting groove 311, and the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are respectively located at two sides of the supporting rib 312. Specifically, the mounting groove 311 is arranged on the support frame 31, so that the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are arranged in the mounting groove 311, on one hand, the stability of the mounting arrangement of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 in the mounting groove 311 can be ensured, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 can be prevented from being displaced on the support frame 31, and the electrolytic module 30 is caused to malfunction, so that the structural reliability of the electrolytic module 30 can be improved, on the other hand, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 can be prevented from being excessively protruded out of the surface of the support frame 31, so that the parts of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 protruding out of the support frame 31 are scratched and damaged, and the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 occupy an excessive space in the electrolytic water tank 20.

Furthermore, the support ribs 312 are disposed in the mounting grooves 311, and the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 are disposed on two sides of the support ribs 312, so that the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 can be separated by the support ribs 312, the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 can be prevented from contacting with each other, the short circuit of the electrolytic module 30 can be prevented, and the structural reliability of the electrolytic module 30 can be further improved.

In addition, as shown in fig. 6, a limiting block 315 is further disposed in the mounting groove 311, the limiting block 315 is disposed on the side wall of the supporting frame 31, the limiting block 315 and the supporting rib 312 are disposed at an interval, and the limiting block 315 and the supporting rib 312 can limit the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 together, so that the mounting arrangement of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 in the mounting groove 311 is more stable, and the structural reliability and stability of the electrolytic module 30 can be further improved.

As shown in fig. 6, the support rib 312 is provided in plurality, and the support ribs 312 are arranged to intersect with each other. Specifically, the supporting ribs 312 are arranged in a plurality of numbers, and the supporting ribs 312 are arranged in a cross manner, so that the structural strength of the supporting frame 31 is improved on the premise that the anode electrolytic plate 32 and the cathode electrolytic plate 33 are stably arranged on the supporting frame 31, and the structural stability and reliability of the electrolytic module 30 are further improved.

Further, as shown in fig. 6 to 8, a first isolation ring 313 and a second isolation ring 314 are respectively disposed at two intersections of the plurality of support ribs 312, one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 is provided with a first avoidance hole 321, the first avoidance hole 321 avoids the first isolation ring 313, a connector 54 is disposed at the top of the connection line 50, the connector 54 of one of the connection lines 50 is disposed in the first isolation ring 313 and is pressed on the other one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, and one of the connection lines 50 penetrates the other one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 and is electrically connected to the power connection module 40; anodal electrolytic plate 32 with another in the negative pole electrolytic plate 33 is provided with the second and dodges hole 331, the second dodges hole 331 dodges second isolating ring 314, another connecting wire 50 the connector 54 is pressed and is located anodal electrolytic plate 32 with on one in the negative pole electrolytic plate 33, another connecting wire 50 wears to establish in proper order anodal electrolytic plate 32 with in the negative pole electrolytic plate 33 one second isolating ring 314 with anodal electrolytic plate 32 with another in the negative pole electrolytic plate 33 and with it connects the electric connection of electric module 40.

Specifically, by providing the first isolation ring 313 at one intersection of the plurality of support ribs 312, providing the first escape hole 321 at a position corresponding to the first isolation ring 313 in one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, making the first escape hole 321 escape from the first isolation ring 313, and making the space inside the first isolation ring 313 and one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 separate from each other, and after the connector 54 of one connecting wire 50 is provided in the space inside the first isolation ring 313, the connector 54 of one connecting wire 50 will be separated from one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, and since the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 are respectively provided on both sides of the support ribs 312, the connector 54 of one connecting wire 50 will be pressed against and electrically connected to the other of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, the portion of a connecting wire 50 under the connecting head 54 is inserted through one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 and electrically connected to the power module 40. Further, one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 is provided with a bolt on a side of the connector 54 away from one of the connecting lines 50, and the bolt can play a fastening role in pressing the connector 54 of one of the connecting lines 50 on one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, so that the effect of electrically connecting the connector 54 of one of the connecting lines 50 with the other one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 can be improved.

Correspondingly, by disposing the second isolating ring 314 at the other intersection of the plurality of supporting ribs 312, disposing the second avoiding hole 331 at the position corresponding to the second isolating ring 314 on the other one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, pressing the connector 54 of the other connecting wire 50 on one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, and electrically connecting the connector 54 of the other connecting wire 50 with one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 in a contact manner, the part of the other connecting wire 50 located below the connector 54 is electrically connected with the power connection module 40 after sequentially passing through one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, the second isolating ring 314 and the other one of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, and thus, the two connecting wires 50 can electrically connect the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 with the power connection module 40, and a stable circuit is formed, so that the structural reliability of the electrolytic module 30 can be improved. It should be noted that, since the second separating ring 314 can separate the space inside the second separating ring 314 from the other of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, the connecting wire 50 will not contact with the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 in the process of passing through the second separating ring 314 and the other of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, so that the short circuit of the other connecting wire 50 can be prevented, and the structural reliability of the electrolytic module 30 can be ensured.

Further, one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 is provided with a bolt on a side away from the connector 54 of the other connecting line 50, the bolt is located in the second isolating ring 314, and the bolt can play a role of fastening the pressing of the connector 54 of the other connecting line 50 and one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, so that the effect of electrically connecting the connector 54 of the other connecting line 50 and one of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 can be improved.

Referring to fig. 4 and 5, a threading column 22 is disposed in the electrolytic water tank 20, a threading hole 221 is formed in the threading column 22, the positive electrode electrolytic plate 32 or the negative electrode electrolytic plate 33 is disposed on the top of the threading column 22, and the connecting wire 50 is electrically connected to the corresponding positive electrode electrolytic plate 32 or the negative electrode electrolytic plate 33 after passing through the threading hole 221. Specifically, the electrolytic module 30 is disposed in the electrolytic water tank 20, and the electrolytic module 30 is connected to the connection line 50, through setting the threading post 22 in the electrolytic water tank 20, the threading hole 221 is formed in the threading post 22, the positive electrode electrolytic plate 32 or the negative electrode electrolytic plate 33 is disposed at the top of the threading post 22, so the connection line 50 can be threaded through the threading hole 221, and is electrically connected to the corresponding positive electrode electrolytic plate 32 or the negative electrode electrolytic plate 33, thereby not only the connection stability of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 with the connection line 50 can be ensured, but also the threading post 22 can isolate the connection line 50 from the water in the electrolytic water tank 20, thereby ensuring the structural stability of the connection line 50.

Furthermore, the bottom wall of the electrolytic water tank 20 is provided with a through hole 25 communicated with the threading hole 221 in the threading column 22, after one end of each of the two connecting wires 50 is electrically connected with the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, the other end of each of the two connecting wires passes through the threading hole 221 of the threading column 22, extends from the through hole 25 of the electrolytic water tank 20 to the outside of the electrolytic water tank 20, and is electrically connected with the power connection module 40.

It should be noted that, the connection positions of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 and the connection line 50 are further provided with a sealing rubber sleeve, the sealing rubber sleeve is sleeved on the periphery of the connection line 50, and the sealing rubber sleeve is tightly matched with the inner peripheral wall of the threading hole 221, so that the water inside the electrolytic water tank 20 can be prevented from flowing out from the matching gap between the threading hole 221 and the connection line 50, and the reliability of the water supply device 100 of the floor cleaning equipment can be improved.

As shown in fig. 2 and fig. 6, the connection line 50 may mainly include: first line segment 51, second line segment 52 and third line segment 53, first line segment 51 sets up in connecing electric module 40 to with connect electric module 40 electricity and be connected, second line segment 52 sets up outside connecing electric module 40 and electrolytic water tank 20, and relative first line segment 51 and the setting of buckling of third line segment 53, third line segment 53 wears to establish in threading hole 221, and is connected with electrolytic module 30 electricity. Specifically, the first line segment 51 of the connection line 50 is electrically connected with the power connection module 40, the third line segment 53 is electrically connected with the electrolysis module 30, and the second line segment 52 is connected with the first line segment 51 and the third line segment 53, so that the electrolysis module 30 and the power connection module 40 can be stably and electrically connected, the power supply of the power connection module 40 to the electrolysis module 30 is continuously and stably achieved, and the water electrolysis effect of the water supply device 100 of the floor cleaning equipment is further ensured.

Further, the first line segment 51 is disposed in the power connection module 40, the third line segment 53 is disposed in the electrolytic water tank 20, the second line segment 52 is disposed outside the power connection module 40 and the electrolytic water tank 20, and the second line segment 52 is bent with respect to the first line segment 51 and the third line segment 53, so that the arrangement of the connection line 50 can be compliant with the installation positions of the power connection module 40 and the electrolytic water tank 20, the structure of the water supply device 100 of the floor cleaning equipment is more compact, and the structural design of the water supply device 100 of the floor cleaning equipment is optimized.

Referring to fig. 5, the electrolytic water tank 20 is provided with a step 23 on the inner wall thereof, and the edge of the support frame 31 is supported on the step 23. Specifically, step portion 23 is arranged on the inner side wall of electrolytic water tank 20, and when support frame 31 is arranged inside electrolytic water tank 20, the edge of support frame 31 can be supported on step portion 23, so that the accuracy of position arrangement of support frame 31 inside electrolytic water tank 20 can be ensured, positive electrode electrolytic plate 32 and negative electrode electrolytic plate 33 on support frame 31 can be ensured to be located at the better electrolytic position inside electrolytic water tank 20, the stability and reliability of support frame 31 in the inside arrangement of electrolytic water tank 20 can be ensured, and the electrolytic action of positive electrode electrolytic plate 32 and negative electrode electrolytic plate 33 on support frame 31 on water in electrolytic water tank 20 can be more stable and efficient.

As shown in fig. 3 and 6, the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 are provided with water through holes 322, and the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 have the same structure and are symmetrically arranged about the center of the support frame 31. Specifically, by providing the water through holes 322 on the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, and the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 are made to have the same structure, the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 are arranged symmetrically with respect to the center of the support rib 312, this makes it possible to arrange the water through holes 322 of the positive electrode electrolyte sheet 32 and the negative electrode electrolyte sheet 33 in opposition, thereby improving the water permeability of the water through holes 322 of the anode electrolytic plate 32 and the cathode electrolytic plate 33 on the premise of ensuring the normal electrolysis of the anode electrolytic plate 32 and the cathode electrolytic plate 33 to water, it is possible to prevent the water through holes 322 of the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 from being staggered with each other, which may cause clogging between the water through holes 322 of the positive electrode electrolyte plate 32 and the water through holes 322 of the negative electrode electrolyte plate 33 due to the tension of water, thereby ensuring the smoothness of the water flow in the electrolytic water tank 20 and improving the structural reliability of the electrolytic module 30.

In addition, as shown in fig. 3 and fig. 6, the supporting frame 31 is further provided with a through hole 316 at a position corresponding to the water storage outlet 1131, a part of the water flowing out of the water storage outlet 1131 flows to the area between one side of the supporting frame 31 and the water storage outlet 1131, then flows to the area between the other side of the supporting frame 31 and the bottom of the electrolytic water tank 20 through the water through holes 322 on the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, and another part of the water flows directly to the area between the other side of the supporting frame 31 and the bottom of the electrolytic water tank 20 through the through hole 316, after the area between the other side of the supporting frame 31 and the bottom of the electrolytic water tank 20 is filled with water, the water in the area between the other side of the supporting frame 31 and the bottom of the electrolytic water tank 20 flows back to the area between one side of the supporting frame 31 and the water storage outlet 1131 through the water through holes 322 and the through hole 316, so as to realize the slow filling of the electrolytic water tank 20 with water, the water can not only flow on two sides of the support frame 31 through the water holes 322 on the anode electrolytic plate 32 and the cathode electrolytic plate 33, but also flow on two sides of the support frame 31 through the through holes 316, so that the smoothness of the flow of the water on two sides of the support frame 31 can be improved, and the electrolysis efficiency of the water in the electrolytic water tank 20 can be improved.

The volume of the water storage tank 10 is V1, the volume of the electrolytic water tank 20 is V2, and V1 and V2 satisfy the relation: V2/V1 is more than or equal to 0.1 and less than or equal to 0.6. Specifically, the ratio of the volume of the electrolytic water tank 20 to the volume of the water storage tank 10 is set within a reasonable range, which not only can prevent the volume of the electrolytic water tank 20 from being too small relative to the volume of the water storage tank 10, resulting in low electrolysis efficiency of the electrolysis module 30 to water, and can ensure that the electrolysis module 30 can fully electrolyze water in the electrolytic water tank 20, but also can prevent the volume of the electrolytic water tank 20 from being too large relative to the volume of the water storage tank 10, resulting in too long time for the electrolysis module 30 to electrolyze water in the electrolytic water tank 20, thereby ensuring that the waiting time of a user is not too long, and further optimizing the structural design of the water supply device 100 of the ground cleaning equipment.

As shown in fig. 2, the water supply device 100 of the floor cleaning device may further mainly include: the water replenishing valve 70, the water storage tank 10 is provided with a water storage outlet 1131, the water replenishing valve 70 is arranged at the water storage outlet 1131 and selectively opens and closes the water storage outlet 1131, or the electrolytic water tank 20 is provided with an electrolytic water inlet, and the water replenishing valve 70 is arranged at the electrolytic water inlet and selectively opens and closes the electrolytic water inlet. Specifically, the storage outlet 1131 of the storage tank 10 and the electrolyzed water inlet of the electrolyzed water tank 20 are correspondingly arranged, and the water in the storage tank 10 can flow out through the storage outlet 1131 and further flow into the inside of the electrolyzed water tank 20 through the electrolyzed water inlet. Further, the water replenishing valve 70 is disposed at the water storage outlet 1131 or the electrolyzed water inlet, so that when the electrolyzed water tank 20 is short of water, the water replenishing valve 70 can correspondingly open the water storage outlet 1131 or the electrolyzed water inlet to communicate the water storage outlet 1131 with the electrolyzed water inlet, so that water in the water storage tank 10 enters the electrolyzed water tank 20 to replenish water to the electrolyzed water tank 20 in time, and when the electrolyzed water tank 20 is full of water, the water replenishing valve 70 can correspondingly close the water storage outlet 1131 or the electrolyzed water inlet to disconnect the water storage outlet 1131 from the electrolyzed water inlet, so that water in the water storage tank 10 cannot enter the electrolyzed water tank 20, and thus timely water shutoff of the electrolyzed water tank 20 is realized.

As shown in fig. 2, the water supply device 100 of the floor cleaning device may further mainly include: a water outlet valve 80, the water outlet valve 80 being provided at the electrolyzed water outlet 24 and selectively opening and closing the electrolyzed water outlet 24. Specifically, the outlet valve 80 is arranged at the electrolyzed water outlet 24, when the user uses the ground cleaning equipment, the water supply device 100 of the ground cleaning equipment works, the outlet valve 80 opens the electrolyzed water outlet 24, so that the electrolyzed water flows to the floor brush of the ground cleaning equipment, the ground cleaning equipment is cleaned and mopped on the ground, when the user stops using the ground cleaning equipment, the water supply device 100 of the ground cleaning equipment does not work, the outlet valve 80 closes the electrolyzed water outlet 24, so that the leakage of the electrolyzed water is prevented, and the reliability of the water supply device 100 of the ground cleaning equipment can be ensured.

It should be noted that the water replenishing valve 70 and the water outlet valve 80 can be one of a check valve, a hydraulic float and an electronic check valve switch, so that the water storage outlet 1131 or the electrolyzed water inlet can control the flow of the water in the water storage tank 10 to the electrolyzed water tank 20 according to whether the electrolyzed water tank 20 is full of water, the water replenishing of the electrolyzed water tank 20 is more automatic and timely, and the electrolyzed water outlet 24 can control the flow of the electrolyzed water according to whether the electrolyzed water in the electrolyzed water tank 20 is electrolyzed by the electrolysis module 30 and the instruction of the user. The water replenishing valve 70 and the water outlet valve 80 may be different or the same, and are not limited herein.

A floor scrubbing apparatus according to embodiments of the present invention may generally include: the water supply device 100 comprises a main machine, a floor brush and the floor cleaning equipment, wherein the floor brush is connected to the bottom of the main machine, a water storage tank 10 is arranged on the main machine, an electrolytic water tank 20 is arranged on the main machine or the floor brush, and electrolytic water is supplied to the floor brush. Specifically, set up storage water tank 10 in the host computer to set up electrolysis water tank 20 in host computer or scrubbing brush, storage water tank 10 can be to electrolysis water tank 20 timely moisturizing, and electrolysis water tank 20 can provide the brineelectrolysis to the scrubbing brush, so as to supply the normal work of scrubbing brush, can promote ground cleaning equipment's working property like this, and can promote the user and experience ground cleaning equipment's use. It should be noted that the floor brush can be a floor washing brush and a floor brushing brush, and the user can selectively control the floor washing brush and the floor brushing brush according to the requirements of different situations.

In the description of the present invention, it is to be understood that the terms "central," "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 are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the 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 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 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 (22)

1. A water supply arrangement (100) of a floor cleaning device, comprising:

a water storage tank (10);

an electrolytic water tank (20), the electrolytic water tank (20) being in selective communication with the water storage tank (10), the electrolytic water tank (20) being provided with an electrolytic water outlet (24), the volume of the electrolytic water tank (20) being smaller than the volume of the water storage tank (10);

an electrolysis module (30), the electrolysis module (30) being disposed within the electrolysis water tank (20) to form electrolysis water within the electrolysis water tank (20).

2. The water supply arrangement (100) of a floor scrubbing apparatus of claim 1, further comprising: the power connection module (40) is arranged outside the electrolytic water tank (20) and connected with the electrolytic module (30) through a connecting wire (50).

3. Water supply arrangement (100) of a floor cleaning device according to claim 2, characterized in that the power module (40) comprises: the electrolytic cell comprises a junction box (41), a positive terminal (42) and a negative terminal (43), wherein the positive terminal (42) and the negative terminal (43) are arranged on the junction box (41) and the end part of the positive terminal (42) protrudes out of the junction box (41), and the positive terminal (42) and the negative terminal (43) are respectively connected with the electrolytic module (30) through the connecting wire (50).

4. Water supply arrangement (100) of a floor cleaning device according to claim 3, characterized in that the junction box (41) comprises: box body (411), elastic sealing element (412) and lid (413), lid (413) set up in on box body (411), elastic sealing element (412) set up in box body (411) with between lid (413), anodal binding post (42) with negative pole binding post (43) all wear to establish on elastic sealing element (412).

5. Water supply device (100) for a floor cleaning appliance according to claim 3, characterized in that the positive connection terminals (42) are at least two and at least two of the positive connection terminals (42) are each connected to a respective connection line (50).

6. A water supply arrangement (100) for a floor scrubbing apparatus as claimed in claim 3, further comprising: the base (60), the base (60) set up in the bottom of electrolysis water tank (20), base (60) and storage water tank (10) are injectd jointly and are held the chamber, electrolysis water tank (20) set up in hold the intracavity.

7. The water supply device (100) of a floor cleaning device according to claim 6, characterized in that the electrolytic water tank (20) is provided with an avoiding groove (21), a clamping portion (211) is provided in the avoiding groove (21), and the junction box (41) is installed in the avoiding groove (21) and is in clamping fit with the clamping portion (211).

8. Water supply device (100) of a floor cleaning appliance according to claim 6, characterized in that the water storage tank (10) comprises: main tank body (11) and boxboard (12), boxboard (12) set up in one side of main tank body (11), electrolysis water tank (20) set up in on boxboard (12), main tank body (11) are provided with water storage export (1131), electrolysis water tank (20) with water storage export (1131) selectively communicates.

9. Water supply arrangement (100) of a floor scrubbing apparatus according to claim 8, wherein said main tank (11) comprises: case shell (111), first baffle (112) and second baffle (113), first baffle (112) with second baffle (113) set up in on case shell (111) and in interval setting on case shell (111), second baffle (113) are provided with water storage outlet (1131), electrolytic water tank (20) orientation the open setting in one side of second baffle (113).

10. A water supply arrangement (100) for a floor scrubbing apparatus as claimed in claim 9, wherein said housing (111) comprises: a first shell portion (1111) and a second shell portion (1112), the first partition plate (112) is disposed at one end of the first shell portion (1111), the second partition plate (113) is disposed at a boundary of the first shell portion (1111) and the second shell portion (1112), the second partition plate (113) and the case plate (12) correspond to a portion of the second shell portion (1112) to define an accommodation space (14), and the electrolytic water tank (20) is disposed in the accommodation space (14).

11. Water supply arrangement (100) of a floor cleaning device according to claim 2, characterized in that the electrolysis module (30) comprises: support frame (31), anodal electrolysis board (32) and negative pole electrolysis board (33), support frame (31) set up in electrolytic water tank (20), anodal electrolysis board (32) with negative pole electrolysis board (33) set up respectively in support frame (31), anodal electrolysis board (32) with negative pole electrolysis board (33) are connected with connecting wire (50) respectively.

12. The water supply device (100) for a floor cleaning device according to claim 11, wherein a mounting groove (311) is provided on the supporting frame (31), a supporting rib (312) is provided in the mounting groove (311), and the positive electrode electrolytic plate (32) and the negative electrode electrolytic plate (33) are provided in the mounting groove (311) and located at two sides of the supporting rib (312).

13. The water supply device (100) of a floor cleaning appliance according to claim 12, characterized in that the supporting rib (312) is provided in plurality, and a plurality of supporting ribs (312) are arranged in a crossing manner.

14. Water supply device (100) of a floor cleaning appliance according to claim 13, characterized in that a first isolation ring (313) and a second isolation ring (314) are respectively arranged at two intersections of the plurality of support ribs (312), one of the anode electrolytic plate (32) and the cathode electrolytic plate (33) is provided with a first avoidance hole (321), the first avoidance hole (321) avoids the first isolating ring (313), a connector (54) is arranged at the top of the connecting line (50), the connector (54) of one connecting line (50) is arranged in the first isolating ring (313) and is pressed on the other one of the positive electrode electrolytic plate (32) and the negative electrode electrolytic plate (33), and the other one of the positive electrode electrolytic plate (32) and the negative electrode electrolytic plate (33) is penetrated by one connecting line (50) and is electrically connected with the power connection module (40);

anodal electrolysis board (32) with another in negative pole electrolysis board (33) is provided with the second and dodges hole (331), hole (331) are dodged to the second dodge second isolating ring (314), another connecting wire (50) connector (54) are pressed and are located anodal electrolysis board (32) with on one in negative pole electrolysis board (33), another connecting wire (50) are worn to establish in proper order anodal electrolysis board (32) with in negative pole electrolysis board (33) one second isolating ring (314) with anodal electrolysis board (32) with another in negative pole electrolysis board (33) and with connect electric module (40) electricity and connect.

15. The water supply device (100) of the floor cleaning device according to claim 11, wherein a threading column (22) is arranged in the electrolytic water tank (20), a threading hole (221) is formed in the threading column (22), the positive electrode electrolytic plate (32) or the negative electrode electrolytic plate (33) is arranged on the top of the threading column (22), and the connecting wire (50) is electrically connected with the corresponding positive electrode electrolytic plate (32) or the negative electrode electrolytic plate (33) after being threaded through the threading hole (221).

16. Water supply arrangement (100) of a floor cleaning device according to claim 15, characterized in that the connection line (50) comprises: the power supply device comprises a first line segment (51), a second line segment (52) and a third line segment (53), wherein the first line segment (51) is arranged in the power connection module (40) and electrically connected with the power connection module (40), the second line segment (52) is arranged outside the power connection module (40) and the electrolytic water tank (20) and is bent relative to the first line segment (51) and the third line segment (53), and the third line segment (53) penetrates through the threading hole (221) and is electrically connected with the electrolytic module (30).

17. The water supply device (100) of a floor cleaning appliance according to claim 11, characterized in that the inner side wall of the electrolytic water tank (20) is provided with a step (23), and the edge of the support frame (31) is supported on the step (23).

18. The water supply device (100) for floor cleaning devices according to claim 11, characterized in that the positive electrolyte plate (32) and the negative electrolyte plate (33) are provided with water through holes (322), and the positive electrolyte plate (32) and the negative electrolyte plate (33) are identical in structure and are symmetrically arranged about the center of the support frame (31).

19. Water supply device (100) for a floor cleaning appliance according to claim 1, characterized in that the volume of the water storage tank (10) is V1, the volume of the electrolysis water tank (20) is V2, and V1 and V2 satisfy the relation: V2/V1 is more than or equal to 0.1 and less than or equal to 0.6.

20. The water supply arrangement (100) of a floor scrubbing apparatus of claim 1, further comprising: the water replenishing valve (70), the water storage tank (10) is provided with a water storage outlet (1131), the water replenishing valve (70) is arranged at the water storage outlet (1131) and selectively opens and closes the water storage outlet (1131); or

The electrolytic water tank (20) is provided with an electrolytic water inlet, and the water replenishing valve (70) is arranged at the electrolytic water inlet and selectively opens and closes the electrolytic water inlet.

21. The water supply arrangement (100) of a floor scrubbing apparatus of claim 1, further comprising: a water outlet valve (80), wherein the water outlet valve (80) is arranged on the electrolyzed water outlet (24) and selectively opens and closes the electrolyzed water outlet (24).

22. A floor cleaning apparatus, comprising:

a host;

the ground brush is connected to the bottom of the main machine;

a water supply arrangement (100) for a floor cleaning appliance as claimed in any one of the claims 1 to 21, the water storage tank (10) being provided at the main unit, the electrolytic water tank (20) being provided at the main unit and/or the floor brush and supplying electrolytic water to the floor brush.

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