CN217185945U - 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: a water storage tank; the electrolytic water tank is selectively communicated with the water storage tank and is provided with an electrolytic water outlet; the electrolysis module is arranged in the electrolysis water tank to form electrolysis water in the electrolysis water tank; and the power connection module is arranged in the electrolytic water tank and is electrically connected with the electrolytic module. From this, through setting up storage water tank and the electrolytic water tank of intercommunication each other to all set up electrolytic module in electrolytic water tank with connecing the electric module, electrolytic module connects the electric connection of electric module, can guarantee the electrolytic action of electrolytic module to the water in the electrolytic water tank like this, guarantees under the prerequisite of water supply installation's normal work, reduces the internal volume that electrolytic module occupies ground cleaning device's water supply installation, can promote ground cleaning device's water supply installation's compact structure nature.

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 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. In addition, the electrical connection between the electrolysis device and the power connection device is complicated, which increases the difficulty in manufacturing the water supply device.

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 connect the electric module and set up inside electrolytic water tank, and the structure is compacter.

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

According to the water supply device and the water storage tank of the floor cleaning equipment provided by the embodiment of the utility model; the electrolytic water tank is selectively communicated with the water storage tank and is provided with an electrolytic water outlet; an electrolysis module disposed within the electrolysis tank to form electrolyzed water within the electrolysis tank; and the power connection module is arranged in the electrolytic water tank and is electrically connected with the electrolytic module.

From this, through setting up storage water tank and the electrolytic water tank of intercommunication each other to all set up electrolytic module in electrolytic water tank with connecing the electric module, electrolytic module connects the electric connection of electric module, can guarantee the electrolytic action of electrolytic module to the water in the electrolytic water tank like this, guarantees under the prerequisite of water supply installation's normal work, reduces the internal volume that electrolytic module occupies ground cleaning device's water supply installation, can promote ground cleaning device's water supply installation's compact structure nature.

According to some embodiments of the invention, the power connection module is fixedly connected to the electrolysis module.

According to some embodiments of the invention, the electrolysis module comprises: the power supply comprises a support frame, an anode electrolytic plate and a cathode electrolytic plate, wherein the anode electrolytic plate and the cathode electrolytic plate are arranged in the support frame, and a power connection module is fixedly connected with the support frame and is respectively electrically connected with the anode electrolytic plate and the cathode electrolytic plate.

According to some embodiments of the utility model, connect the electric module to include: the support frame comprises a positive electrode power connection component, a negative electrode power connection component, a positive electrode conductive component and a negative electrode conductive component, wherein the positive electrode power connection component and the negative electrode power connection component are arranged on one side of the support frame at intervals, the positive electrode power connection component is electrically connected with the positive electrode electrolytic plate through the positive electrode conductive component, and the negative electrode power connection component is electrically connected with the negative electrode electrolytic plate through the negative electrode conductive component.

According to the utility model discloses a some embodiments, the mounting groove that two intervals set up is seted up to the support frame, anodal electrically conductive piece with the negative pole electrically conductive piece sets up respectively in two in the mounting groove.

According to some embodiments of the invention, the support frame comprises: bottom plate and mounting panel, the mounting panel set up in on the bottom plate, anodal electrolysis board with negative pole electrolysis board set up in on the bottom plate, anodal connect electrical component with negative pole connect electrical component set up respectively in one side of mounting panel, anodal electrically conductive piece with the electrically conductive piece of negative pole is in the bottom plate with extend in the mounting panel.

According to some embodiments of the utility model, the mounting panel is provided with convex anodal erection column and negative pole erection column, anodal erection column with the one end of anodal electrically conductive piece is corresponding just the negative pole erection column with the one end of the electrically conductive piece of negative pole is corresponding, anodal electrical component set up in the anodal erection column just the electrical component of negative pole set up in the negative pole erection column.

According to some embodiments of the utility model, the inside wall of electrolysis water tank is provided with the anodal lantern ring and the negative pole lantern ring, the anodal lantern ring cover is located anodal erection column and with be provided with the anodal sealing washer between the anodal erection column, the negative pole lantern ring cover is located the negative pole erection column and with be provided with the negative pole sealing washer between the negative pole erection column.

According to some embodiments of the invention, the mounting plate is detachably mounted on the inner side wall of the electrolytic water tank.

According to some embodiments of the present invention, the support frame further comprises: and the side coaming is arranged on the bottom plate, and two ends of the side coaming are respectively connected to two ends of the mounting plate.

According to some embodiments of the utility model, anodal electrical component includes anodal electrical terminal and anodal elasticity electrically conductive piece, the negative pole electrical component includes negative pole electrical terminal and negative pole elasticity electrically conductive piece, anodal elasticity electrically conductive piece connect in anodal electrical terminal with between the anodal electrically conductive piece, negative pole elasticity electrically conductive piece connect in the negative pole electrical terminal with between the negative pole electrically conductive piece.

According to some embodiments of the invention, the electrolysis module further comprises: and the insulating separator is arranged in the support frame and positioned between the anode electrolytic plate and the cathode electrolytic plate.

According to some embodiments of the invention, the electrolysis module further comprises: the cathode electrode column respectively penetrates through the cathode electrolytic plate and the cathode conductive piece and is respectively electrically connected with the cathode electrolytic plate and the cathode conductive piece, and the cathode electrode column respectively penetrates through the cathode electrolytic plate and the cathode conductive piece and is respectively electrically connected with the cathode electrolytic plate and the cathode conductive piece.

According to some embodiments of the utility model, the positive pole electrode post with negative pole electrode post bulge respectively in anodal electrically conductive piece with the electrically conductive setting of negative pole, the positive pole electrode post with negative pole electrode post is respectively in the protrusion anodal electrically conductive piece with the position that the electrically conductive piece of negative pole is provided with the screw thread, the electrolysis module still includes: the positive nut is matched with the thread of the positive electrode pole, and the negative nut is matched with the thread of the negative electrode pole.

According to some embodiments of the utility model, the positive pole electrolytic plate is located the top of negative pole electrolytic plate, be provided with protruding hole on the bottom plate, the negative pole electrolytic plate with insulating barrier is provided with dodges the first hole of dodging of protruding hole, the positive pole electrode post is worn to establish respectively the positive pole electrolytic plate protruding hole with anodal electrically conductive piece, be provided with the cage on the insulating barrier, be provided with the second on the positive pole electrolytic plate and dodge the hole, the second dodges the hole and dodges the cage, the negative pole electrode post set up in and wear to establish respectively in the cage negative pole electrolytic plate and negative pole electrically conductive piece.

According to some embodiments of the present invention, the inner side wall of the electrolytic water tank is provided with a step portion, and the edge of the support frame is supported on the step portion; and/or the support frame is fixed in the electrolytic water tank through a fastener; and/or the support frame is clamped in the electrolytic water tank.

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

According to some embodiments of the invention, the water supply device of the floor cleaning 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 the utility model discloses ground cleaning equipment, include: 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 arrangement 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 partial cross-sectional view of a water supply of a floor care appliance according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of an electrolytic water tank, an electrolytic module and a power connection module according to an embodiment of the present invention;

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

FIG. 6 is a schematic diagram of an electrolysis module and a power connection module according to an embodiment of the present invention;

FIG. 7 is an exploded view of an electrolysis module according to an embodiment of the present invention;

fig. 8 is a schematic view of a power connection module according to an embodiment of the present invention;

fig. 9 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 outlet; 12. an accommodating chamber; 13. a transparent cover;

20. an electrolytic water tank; 21. a positive electrode collar; 22. a negative electrode lantern ring; 23. an electrolyzed water outlet; 24. a fastener mounting post;

30. an electrolysis module; 31. a support frame; 311. a base plate; 3111. a raised hole; 312. mounting a plate; 3121. mounting grooves; 3122. a positive mounting post; 3123. a negative mounting post; 3124. mounting holes; 313. side coaming plates; 3131. a limiting block; 314. a fastener; 315. a positive electrode seal ring; 316. a negative electrode sealing ring; 32. a positive electrode electrolyte plate; 321. a second avoidance hole; 33. a negative electrode electrolytic plate; 331. a first avoidance hole; 332. water passing holes; 34. an insulating spacer; 341. an isolation cover; 35. a positive electrode column; 36. a negative electrode column; 37. a positive nut; 38. a negative nut;

40. a power connection module; 41. the positive electrode is connected with the electric piece; 411. the positive electrode is connected with the terminal; 412. a positive electrode elastic conductive member; 42. the negative electrode is connected with the electric piece; 421. the negative electrode is connected with a terminal; 422. a negative electrode elastic conductive member; 43. a positive electrode conductive member; 44. a negative electrode conductive member;

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

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. 1-9, 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 for a floor cleaning apparatus 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 3, a water supply device 100 of a floor cleaning apparatus according to an embodiment of the present invention may mainly include: the water storage tank 10, the electrolytic water tank 20, the electrolytic module 30 and the power connection module 40, wherein the electrolytic water tank 20 is selectively communicated with the water storage tank 10, the electrolytic module 30 is electrically connected with the power connection module 40, the electrolytic module 30 is arranged in the electrolytic water tank 20, and the electrolytic water tank 20 is provided with an electrolytic water outlet 23. Specifically, when a user is ready to use the floor cleaning device, the water supply device 100 of the floor cleaning device needs to be filled with water, and then the water supply device 100 of the floor cleaning device is installed in the floor cleaning device, so that the floor cleaning device is started up, and the power connection module 40 continuously supplies power to the electrolysis module 30, so that the electrolysis module 30 electrolyzes water in the electrolysis water tank 20, the function of supplying electrolyzed water to the floor cleaning device by the water supply device 100 of the floor cleaning device is realized, and the normal operation of the water supply device 100 of the floor cleaning device is ensured.

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 23, that is, 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 by the electrolysis module 30, so as to make the electrolysis module 30 continuously generate the electrolyzed water while the user uses the floor cleaning device to clean the floor, thereby improving the time utilization rate of the user 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, that is, the user can use the floor cleaning device to clean the floor, the water supply device 100 of the floor cleaning device can generate the electrolyzed water while the user generates the electrolyzed water, and the user has finished cleaning the floor in the process of generating the electrolyzed water by the water supply device 100, need wait earlier that electrolysis module is with the whole electrolysis back of water with traditional ground cleaning equipment, carry out the cleanness to ground again and compare, so set up, can further save user's time, can further promote user to ground cleaning equipment's use and experience.

Further, as shown in fig. 4, the power connection module 40 is disposed in the electrolytic water tank 20, so that the internal volume of the power connection module 40 occupying the water supply device 100 of the ground cleaning apparatus is reduced on the premise of ensuring continuous and stable power supply of the power connection module 40 to the electrolytic module 30, thereby improving the structural compactness of the power connection module 40 and the electrolytic module 30, facilitating the increase of the volume of the electrolytic water tank 20 to a certain extent, making the structural layout of the water supply device 100 of the ground cleaning apparatus more reasonable, and further improving the compactness of the internal structure of the water supply device 100 of the ground cleaning apparatus.

From this, through setting up storage water tank 10 and electrolytic water tank 20 that communicate each other to all set up electrolytic module 30 in electrolytic water tank 20 with connecing electric module 40, electrolytic module 30 connects with connecing electric module 40 electricity, can guarantee the electrolytic action of electrolytic module 30 to the water in electrolytic water tank 20 like this, under the prerequisite of guaranteeing water supply installation 100's normal work, reduce the internal volume that electrolytic module 30 occupies ground cleaning device's water supply installation 100, can promote ground cleaning device's water supply installation 100's compact structure nature.

As shown in fig. 2 to 4 and fig. 6, the power connection module 40 is connected and fixed to the electrolysis module 30. Specifically, connect electric module 40 and electrolysis module 30 and all set up inside electrolytic water tank 20, and connect electric module 40 and electrolysis module 30 electricity and connect, through will connect electric module 40 and electrolysis module 30 to be connected fixedly, can effectively reduce the distance between connecting electric module 40 and the electrolysis module 30, on the one hand can promote the compact structure nature of connecting electric module 40 and electrolysis module 30, can reduce and connect electric module 40 and the inside space of electrolytic water tank 20 that occupies of electrolysis module 30, and then can further optimize ground cleaning device's water supply installation 100's structural design, on the other hand, can make the electric connection between electric module 40 and the electrolysis module 30 more simple directly, not only can simplify the degree of difficulty of connecting electric module 40 and the electricity of electrolysis module 30 electricity, but also can reduce the cost of electricity connection.

As shown in fig. 4, 6 and 7, the electrolysis module 30 may mainly include: the power connection module 40 is fixedly connected with the support frame 31 and is respectively and electrically connected with the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33. Specifically, the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 are disposed in the support frame 31, and the support frame 31 can support the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, so as to ensure the structural stability of the electrolytic module 30.

Further, the power connection module 40 is fixedly connected to the support frame 31 and is electrically connected to the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 respectively, so that the power connection module 40 can stably supply power to the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, water in the electrolytic water tank 20 can be electrolyzed under the action of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, and the normal operation of the water supply device 100 of the floor cleaning equipment is ensured.

In addition, as shown in fig. 4, fig. 6 and fig. 7, the water through holes 332 are further disposed on the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, and the water through holes 332 on the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are oppositely disposed, so that on the premise of ensuring the electrolytic action of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 on water, the water through holes 332 of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 on water are improved, and the water through holes 332 of the positive electrode electrolytic plate 32 and the water through holes 332 of the negative electrode electrolytic plate 33 are prevented from being staggered with each other, so that the water through holes 332 of the positive electrode electrolytic plate 32 and the water through holes 332 of the negative electrode electrolytic plate 33 are blocked due to the tension of water, and further, the smoothness of the water flow in the electrolytic water tank 20 can be ensured, and the reliability of the electrolytic module 30 can be improved.

As shown in fig. 4, 6 and 8, the power connection module 40 may mainly include: the battery comprises a positive electrode electricity connecting piece 41, a negative electrode electricity connecting piece 42, a positive electrode electricity connecting piece 43 and a negative electrode electricity connecting piece 44, wherein the positive electrode electricity connecting piece 41 and the negative electrode electricity connecting piece 42 are arranged at one side of the support frame 31 at intervals, the positive electrode electricity connecting piece 41 is electrically connected with the positive electrode electrolytic plate 32 through the positive electrode electricity connecting piece 43, and the negative electrode electricity connecting piece 42 is electrically connected with the negative electrode electrolytic plate 33 through the negative electrode electricity connecting piece 44. Specifically, with anodal electrical connection 41 and the negative pole electrical connection 42 in the one side interval setting of support frame 31, so set up, under the installation that guarantees anodal electrical connection 41 and the negative pole electrical connection 42 sets up reliable and stable prerequisite, not only can the space of make full use of support frame 31 one side, can promote the space utilization in the electrolysis water tank 20, but also can make the structure between anodal electrical connection 41 and the negative pole electrical connection 42 and the electrolysis module 30 compacter, can further optimize the water supply installation 100's of ground cleaning setting structural design like this.

Further, the positive and negative electrical connectors 41 and 42 are electrically connected to the positive and negative conductive members 43 and 44, respectively, to electrically connect the positive electrical connector 41 to the positive electrolyte plate 32 and the negative electrical connector 42 to the negative electrolyte plate 33, respectively, so that the electrical connection between the power module 40 and the electrolyte module 30 can be more simply and reliably made.

Further, as shown in fig. 4, 6 and 8, the supporting frame 31 is provided with two mounting grooves 3121 disposed at intervals, and the positive conductive member 43 and the negative conductive member 44 are respectively disposed in the two mounting grooves 3121. Specifically, the positive electrode electrical connecting component 41 and the negative electrode electrical connecting component 42 are disposed on one side of the supporting frame 31, the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are disposed inside the supporting frame 31, two mounting grooves 3121 are disposed at intervals on the supporting frame 31, and the positive electrode conductive component 43 and the negative electrode conductive component 44 are respectively disposed in the two mounting grooves 3121, so that on the premise that the positive electrode conductive component 43 is ensured to realize the electrical connection between the positive electrode electrical connecting component 41 and the positive electrode electrolytic plate 32, and the negative electrode conductive component 44 is ensured to realize the electrical connection between the electrical connection module 40 and the electrolytic module 30, on one hand, the stable mounting of the positive electrode conductive component 43 and the negative electrode conductive component 44 can be realized, the structural reliability of the electrical connection module 40 can be improved, on the other hand, the original structure of the mounting plate 312 can be utilized, the mounting lengths of the positive electrode conductive component 43 and the negative electrode conductive component 44 can be effectively shortened, the installation space of the positive electrode conductive member 43 and the negative electrode conductive member 44 is reduced, so that the structural compactness of the power receiving module 40 and the electrolysis module 30 can be improved, and the structural design of the water supply device 100 of the floor cleaning equipment can be optimized.

As shown in fig. 4, 6 and 7, the supporting frame 31 may mainly include: the electrolytic cell comprises a bottom plate 311 and a mounting plate 312, the mounting plate 312 is arranged on the bottom plate 311, a positive electrolytic plate 32 and a negative electrolytic plate 33 are arranged on the bottom plate 311, a positive electric connecting part 41 and a negative electric connecting part 42 are respectively arranged on the mounting plate 312, a positive conductive part 43 and a negative conductive part 44 extend in the bottom plate 311 and the mounting plate 312, and thus the positive conductive part 43 can be respectively electrically connected with the positive electrolytic plate 32 arranged on the bottom plate 311 and the positive electric connecting part 41 arranged on the mounting plate 312, and the negative conductive part 44 can be respectively electrically connected with the negative electrolytic plate 33 arranged on the bottom plate 311 and the negative electric connecting part 42 arranged on the mounting plate 312, so that the electric connection between the electric connection module 40 and the electrolytic module 30 is realized, the electric connection between the electric connection module 40 and the electrolytic module 30 is simpler and more reliable, and the normal operation of the electrolytic module 30 can be ensured.

As shown in fig. 4 and 6 in combination, the mounting plate 312 is provided with a protruding positive mounting post 3122 and a negative mounting post 3123, the positive mounting post 3122 corresponding to one end of the positive conductive member 43 and the negative mounting post 3123 corresponding to one end of the negative conductive member 44, the positive electrical connecting member 41 being disposed in the positive mounting post 3122 and the negative electrical connecting member 42 being disposed in the negative mounting post 3123. Specifically, the positive mounting post 3122 and the negative mounting post 3123 are protruded from the mounting plate 312, and the positive mounting post 3122 corresponds to one end of the positive conductive member 43, the negative mounting post 3123 corresponds to one end of the negative conductive member 44, by disposing the positive electrical connecting member 41 in the positive mounting post 3122 and the negative electrical connecting member 42 in the negative mounting post 3123, it is possible to achieve a stable mounting arrangement of the positive electrical connecting member 41 and the negative electrical connecting member 42 on the mounting plate 312 through the positive mounting post 3122 and the negative mounting post 3123, thereby improving structural reliability of the water supply device 100 of the floor cleaning apparatus, and to achieve an electrical connection of the positive electrical connecting member 41 and the positive conductive member 43 and an electrical connection of the negative electrical connecting member 42 and the negative conductive member 44 after disposing the positive electrical connecting member 41 in the positive mounting post 3122 and the negative electrical connecting member 42 in the negative mounting post 3123, the implementation of the internal electrical connections of the power connection module 40 can thus be made more simple and efficient.

Further, as shown in fig. 4 and 5, the inner side wall of the electrolytic water tank 20 is provided with a positive collar 21 and a negative collar 22, the positive collar 21 is sleeved on the positive mounting column 3122, and a positive sealing ring 315 is disposed between the positive mounting column 3122, and the negative collar 22 is sleeved on the negative mounting column 3123, and a negative sealing ring 316 is disposed between the negative mounting column 3123 and the negative mounting column 3123. Specifically, the power connection module 40 and the electrolysis module 30 are both arranged in the electrolysis water tank 20, and by arranging the anode collar 21 and the cathode collar 22 on the inner side wall of the electrolysis water tank 20, when the power connection module 40 and the electrolysis module 30 are disposed in the electrolysis water tank 20, the positive collar 21 is sleeved on the positive mounting post 3122, the negative collar 22 is sleeved on the negative mounting post 3123, and a positive seal ring 315 is provided between the positive collar 21 and the positive mounting post 3122, a negative sealing ring 316 is arranged between the negative collar 22 and the negative mounting post 3123, so that the connection of the power module 40 and the electrolysis module 30 to the electrolytic water tank 20 can be realized, and it is possible to prevent water inside the electrolytic water tank 20 from passing through the gap between the positive electrode collar 21 and the positive electrode mounting column 3122, and the gap between the negative collar 22 and the negative mounting post 3123, affects the normal operation of the power connection module 40, so that the reliability of the water supply device 100 of the floor cleaning apparatus can be improved. The positive seal ring 315 and the negative seal ring 316 may be at least one of a rubber seal ring, a silica gel seal ring, and a latex seal ring.

Further, as shown in fig. 3 and 4 in conjunction, a mounting plate 312 is detachably mounted on the inner side wall of the electrolytic water tank 20. Specifically, through installing mounting panel 312 detachably on the inside wall in electrolytic water tank 20, can be when electrolysis module 30 sets up in electrolytic water tank 20 on the one hand like this, through installing mounting panel 312 on electrolytic water tank 20's inside wall, realize that electrolysis module 30 is at the inside stable installation setting of electrolytic water tank 20, on the other hand can be when electrolysis module 30 breaks down, through dismantling mounting panel 312 from electrolytic water tank 20's inside wall, thereby realize the separation of electrolysis module 30 and electrolytic water tank 20, can conveniently overhaul or change electrolysis module 30, can reduce the cost of maintenance of ground cleaning device's water supply installation 100.

As shown in fig. 4, 6 and 7, the supporting frame 31 may further include: and side enclosing plates 313, wherein the side enclosing plates 313 surround the outer sides of the anode electrolytic plate 32 and the cathode electrolytic plate 33, the side enclosing plates 313 are arranged on the bottom plate 311, and two ends of the side enclosing plates 313 are respectively connected with two ends of the mounting plate 312. Specifically, by surrounding the side coaming 313 around the outer sides of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, the structure of the side coaming 313 conforms to the external shape of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, and by arranging the side coaming 313 on the bottom plate 311, the two ends of the side coaming 313 are respectively connected to the two ends of the mounting plate 312, so that the bottom plate 311, the mounting plate 312 and the side coaming 313 can limit the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 inside the support frame 31, thereby not only ensuring the compactness of the structure of the support frame 31, but also limiting the movement of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33, further stabilizing the installation arrangement of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 in the support frame 31, and improving the structural reliability and stability of the electrolytic module 30.

In addition, the inner side wall of the side wall 313 is further provided with a limit block 3131, the limit block 3131 is arranged at an interval with the bottom plate 311, and the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 are arranged between the limit block 3131 and the bottom plate 311, so that the limit block 3131 can limit the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 up and down together with the bottom plate 311, and the installation of the positive electrode electrolytic plate 32 and the negative electrode electrolytic plate 33 in the supporting frame 31 is more stable, and the structural reliability and stability of the electrolytic module 30 can be further improved.

As shown in fig. 4, 6 and 8, the positive electrical component 41 may mainly include a positive electrical terminal 411 and a positive elastic conductive member 412, the negative electrical component 42 may mainly include a negative electrical terminal 421 and a negative elastic conductive member 422, the positive elastic conductive member 412 is connected between the positive electrical terminal 411 and the positive conductive member 43, and the negative elastic conductive member 422 is connected between the negative electrical terminal 421 and the negative conductive member 44. Specifically, by connecting the positive electrode conductive elastic member 412 between the positive electrode contact terminal 411 and the positive electrode conductive member 43, and connecting the negative electrode conductive elastic member 422 between the negative electrode contact terminal 421 and the negative electrode conductive member 44, it is possible to generate elastic compression of the positive electrode conductive elastic member 412 and the negative electrode conductive elastic member 422 on the premise of achieving electrical connection between the positive electrode contact member 41 and the positive electrode conductive member 43, and electrical connection between the negative electrode contact member 42 and the negative electrode conductive member 44, thereby improving stability and reliability of electrical connection between the positive electrode contact member 41 and the positive electrode conductive member 43, and electrical connection between the negative electrode contact member 42 and the negative electrode conductive member 44. It is noted that positive elastic conductive element 412 and negative elastic conductive element 422 may be conductive springs, and are not limited herein.

As shown in fig. 4 and 7, the electrolysis module 30 may further mainly include: and the insulating separator 34, wherein the insulating separator 34 is arranged in the support frame 31 and is positioned between the anode electrolytic plate 32 and the cathode electrolytic plate 33. Specifically, the insulating spacer 34 is disposed between the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33, so that the positive electrode electrolyte plate 32 and the negative electrode electrolyte plate 33 can be prevented from contacting each other, and the electrolytic module 30 is prevented from short-circuiting, thereby ensuring the normal operation of the electrolytic module 30 and improving the reliability of the electrolytic module 30.

As shown in fig. 4, 6 and 7, the electrolysis module 30 may further mainly include: the cathode comprises a cathode electrode post 35 and a cathode electrode post 36, wherein the cathode electrode post 35 respectively penetrates through the cathode electrolytic plate 32, the insulating spacer 34 and the cathode conductive piece 43, the cathode electrode post 35 is respectively electrically connected with the cathode electrolytic plate 32 and the cathode conductive piece 43, the cathode electrode post 36 respectively penetrates through the cathode electrolytic plate 33 and the cathode conductive piece 44, and the cathode electrode post 36 is respectively electrically connected with the cathode electrolytic plate 33 and the cathode conductive piece 44. Specifically, the positive electrode column 35 is respectively penetrated through the positive electrode electrolytic plate 32, the insulating spacer 34 and the positive electrode conductive piece 43, the positive electrode column 35 is respectively electrically connected with the positive electrode electrolytic plate 32 and the positive electrode conductive piece 43, so that the electric connection between the positive electrode electrolytic plate 32 and the positive electrode conductive piece 43 can be realized, the negative electrode column 36 is respectively penetrated through the negative electrode electrolytic plate 33 and the negative electrode conductive piece 44, the negative electrode column 36 is respectively electrically connected with the negative electrode electrolytic plate 33 and the negative electrode conductive piece 44, so that the electric connection between the negative electrode electrolytic plate 33 and the negative electrode conductive piece 44 can be realized, the electric connection between the electrolytic module 30 and the power connection module 40 is realized, and the normal work of the electrolytic module 30 can be ensured.

Further, as shown in fig. 4, fig. 6, fig. 7 and fig. 9, the positive electrode post 35 and the negative electrode post 36 respectively protrude from the positive conductive piece 43 and the negative conductive piece 44, the positive electrode post 35 and the negative electrode post 36 are respectively provided with threads at positions protruding from the positive conductive piece 43 and the negative conductive piece 44, and the electrolysis module 30 may further mainly include: a positive nut 37 and a negative nut 38, the positive nut 37 being fitted at the thread of the positive electrode post 35, and the negative nut 38 being fitted at the thread of the negative electrode post 36. Specifically, after the positive electrode post 35 is inserted into the positive electrode electrolytic plate 32, the insulating spacer 34, the negative electrode electrolytic plate 33 and the positive electrode conductive piece 43, a part of the bottom of the positive electrode post protrudes out of the positive electrode conductive piece 43, threads are arranged on the part protruding out of the positive electrode conductive piece 43 at the bottom of the positive electrode post 35, and the positive electrode nut 37 is arranged, so that the positive electrode nut 37 is in threaded fit with the threads at the bottom of the positive electrode post 35, the positive electrode electrolytic plate 32, the insulating spacer 34, the negative electrode electrolytic plate 33 and the positive electrode conductive piece 43 are locked with each other, thereby not only improving the structural stability of the electrolytic module 30, but also enabling the electric connection between the positive electrode post 35 and the positive electrode electrolytic plate 32 and the positive electrode conductive piece 43 to be more reliable.

Further, after the negative electrode post 36 is arranged on the negative electrode electrolytic plate 33 and the negative electrode conductive piece 44 in a penetrating mode, a part of the negative electrode post protrudes out of the negative electrode conductive piece 44, threads are arranged on the part protruding out of the negative electrode conductive piece 44 at the bottom of the negative electrode post 36, and the negative electrode nut 38 is arranged to be in threaded fit with the threads at the bottom of the negative electrode post 36, so that the negative electrode electrolytic plate 33 and the negative electrode conductive piece 44 are locked with each other, the structural stability of the electrolytic module 30 can be further improved, and the electric connection between the negative electrode post 36 and the negative electrode electrolytic plate 33 and the negative electrode conductive piece 44 can be more reliable.

Referring to fig. 4, 6, 7 and 9, the positive electrode plate 32 is located above the negative electrode plate 33, the bottom plate 311 is provided with a protrusion hole 3111, the negative electrode plate 33 and the insulating spacer 34 are provided with a first avoiding hole 331 avoiding the protrusion hole 3111, the positive electrode post 35 respectively penetrates through the positive electrode plate 32, the protrusion hole 3111 and the positive conductive piece 43, the insulating spacer 34 is provided with a shield 341, the positive electrode plate 32 is provided with a second avoiding hole 321, the second avoiding hole 321 avoids the shield 341, and the negative electrode post 36 is arranged in the shield 341 and respectively penetrates through the negative electrode plate 33 and the negative conductive piece 44. Specifically, the positive electrode plate 32 is located above the insulating spacer 34, the insulating spacer 34 is located above the negative electrode plate 33, the top of the positive electrode post 35 is provided with a connector, in the process that the positive electrode post 35 sequentially penetrates through the positive electrode plate 32, the insulating spacer 34, the negative electrode plate 33 and the positive electrode conductive piece 43, the connector at the top of the positive electrode post 35 is firstly in butt contact with the positive electrode plate 32 to realize electric connection, in order to prevent the part of the positive electrode post 35 located below the connector from being in contact with the negative electrode plate 33 and the insulating spacer 34 to cause the electric connection of the positive electrode post 35 to fail, first avoiding holes 322 corresponding to each other can be arranged on the negative electrode plate 33 and the insulating spacer 34, and a protrusion hole 3111 is arranged on the bottom plate 311, the protrusion 3111 protrudes upwards and is located in the first avoiding hole 322, and the part of the positive electrode post 35 located below the connector, which penetrates through the negative electrode plate 33 and the insulating spacer 34, directly penetrates through the protrusion A hole 3111, and an electrical connection with the positive electrode conductive member 43 is achieved, so that the stability of the electrical connection of the positive electrode post 35 can be ensured, and the structural reliability of the electrolytic module 30 can be improved.

Further, through offering the second in anodal electrolysis board 32 and dodging hole 321, and offer cage 341 on insulating barrier 34, dodge cage 341 through making second and dodging hole 321, can make inside and anodal electrolysis board 32 of cage 341 keep apart each other, set up negative pole post 36 in cage 341, negative pole post 36 in cage 341 will not contact with anodal electrolysis board 32, and negative pole post 36 can directly wear to establish negative pole electrolysis board 33 and the electrically conductive piece of negative pole 44, and realize that negative pole post 36 is connected with the electricity of negative pole electrolysis board 33 and the electrically conductive piece of negative pole 44, can guarantee the stability that negative pole post 36 is connected electrically like this, thereby can promote the structural reliability of electrolysis module 30.

As shown in fig. 4 and 5, the support frame 31 is fixed in the electrolytic water tank 20 by a fastener 314. Specifically, set up fastener erection column 24 at electrolysis water tank 20 inside wall, be provided with mounting hole 3124 on the support frame 31, through wearing to establish mounting hole 3124 with fastener 314 to with fastener erection column 24 fastening connection, just can realize the installation setting of support frame 31 in electrolysis water tank 20, thereby not only can make the installation setting of support frame 31 in electrolysis water tank 20 more simple and convenient, can guarantee the stability and the reliability of the installation setting of support frame 31 in electrolysis water tank 20 in addition.

In other embodiments of the present invention, the inner wall of the electrolytic water tank 20 is provided with a step portion, and the edge of the supporting frame 31 is supported on the step portion. Specifically, the step portion is disposed on the inner side wall of the electrolytic water tank 20, so that when the support frame 31 is disposed inside the electrolytic water tank 20, only the edge of the support frame 31 needs to be supported on the step portion, and the step portion provides a supporting force for the support frame 31, so as to achieve the installation and disposition of the support frame 31 inside the electrolytic water tank 20, make the installation and disposition of the support frame 31 inside the electrolytic water tank 20 simpler and more convenient, and simplify the structural design of the electrolytic water tank 20.

In the other embodiments of the present invention, the supporting frame 31 is connected to the inside of the electrolytic water tank 20, so that the stability of the supporting frame 31 installed and set in the electrolytic water tank 20 can be ensured, and the installation and the detachment of the supporting frame 31 in the electrolytic water tank 20 can be more simple and convenient.

As shown in fig. 2 and 3, the water supply device 100 of the floor cleaning device may further include: and a water replenishing valve 60, wherein the water storage tank 10 is provided with a water storage outlet 11, the water replenishing valve 60 is arranged at the water storage outlet 11 and selectively opens and closes the water storage outlet 11, or the electrolytic water tank 20 is provided with an electrolytic water inlet, and the water replenishing valve 60 is arranged at the electrolytic water inlet and selectively opens and closes the electrolytic water inlet. Specifically, the storage outlet 11 of the storage tank 10 and the electrolyzed water inlet of the electrolyzed water tank 20 are correspondingly arranged, and water in the storage tank 10 can flow out through the storage outlet 11 and further flow into the electrolyzed water tank 20 through the electrolyzed water inlet. Further, the water replenishing valve 60 is disposed at the water storage outlet 11 or the electrolyzed water inlet, so that when the electrolyzed water tank 20 is short of water, the water replenishing valve 60 can correspondingly open the water storage outlet 11 or the electrolyzed water inlet to communicate the water storage outlet 11 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 60 can correspondingly close the water storage outlet 11 or the electrolyzed water inlet to disconnect the water storage outlet 11 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 cut-off of the electrolyzed water tank 20 is realized.

As shown in fig. 2 and 3, the water supply device 100 of the floor cleaning device may further mainly include: and a water outlet valve 70, the water outlet valve 70 being provided at the electrolyzed water outlet 23 and selectively opening and closing the electrolyzed water outlet 23. Specifically, the outlet valve 70 is disposed at the electrolyzed water outlet 23, when the user uses the floor cleaning device, the water supply device 100 of the floor cleaning device works, the outlet valve 70 opens the electrolyzed water outlet 23, so that the electrolyzed water flows to the floor brush of the floor cleaning device, thereby realizing the cleaning and mopping of the floor cleaning device on the floor, when the user stops using the floor cleaning device, the water supply device 100 of the floor cleaning device does not work, the outlet valve 70 closes the electrolyzed water outlet 23, thereby preventing the leakage of the electrolyzed water, and ensuring the reliability of the water supply device 100 of the floor cleaning device.

It should be noted that the water replenishing valve 60 and the water outlet valve 70 can be one of a one-way valve, a hydraulic float and an electronic one-way valve switch, so that the water storage outlet 11 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 23 can control the flow of the electrolyzed water according to whether the electrolyzed module 30 electrolyzes all the water in the electrolyzed water tank 20 and the instruction of the user. The water replenishing valve 60 and the water outlet valve 70 may be different or the same, and are not limited herein.

As shown in fig. 2 and 3, the water supply device 100 of the floor cleaning device may further mainly include: the base 50, the base 50 is arranged at the bottom of the electrolytic water tank 20, the base 50 and the water storage tank 10 together define the accommodating cavity 12, and the electrolytic water tank 20 is arranged in the accommodating cavity 12. Specifically, the base 50 is disposed at the bottom of the electrolytic water tank 20, and the base 50 and the water storage tank 10 jointly define the accommodating cavity 12, so that the accommodating cavity 12 can accommodate 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, as shown in fig. 1, a transparent cover 13 capable of being selectively opened or closed is further disposed on the water storage tank 10, 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 provided as the transparent water storage tank 10.

According to the utility model discloses ground cleaning equipment can mainly 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 a 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 "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 (20)

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

a water storage tank (10);

an electrolytic water tank (20), the electrolytic water tank (20) being selectively communicated with the water storage tank (10), the electrolytic water tank (20) being provided with an electrolytic water outlet (23);

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

the power connection module (40), the power connection module (40) is arranged in the electrolytic water tank (20) and is electrically connected with the electrolytic module (30).

2. Water supply device for a floor cleaning appliance according to claim 1, characterized in that the power module (40) is fixedly connected to the electrolysis module (30).

3. Water supply device of a floor cleaning appliance 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), anodal electrolysis board (32) with negative pole electrolysis board (33) set up in support frame (31), connect electric module (40) with support frame (31) be connected fixed and respectively with anodal electrolysis board (32) with negative pole electrolysis board (33) electricity is connected.

4. Water supply device of a floor cleaning appliance according to claim 3, characterized in that the power module (40) comprises: the cathode-type electrolytic cell comprises a cathode electric connection component (41), a cathode electric connection component (42), a cathode electric connection component (43) and a cathode electric connection component (44), wherein the cathode electric connection component (41) and the cathode electric connection component (42) are arranged on one side of a support frame (31) at intervals, the cathode electric connection component (41) passes through the cathode electric connection component (43) and a cathode electrolytic plate (32) are electrically connected, and the cathode electric connection component (42) passes through the cathode electric connection component (44) and the cathode electrolytic plate (33) are electrically connected.

5. The water supply device of claim 4, wherein the supporting frame (31) is provided with two mounting grooves (3121) at intervals, and the positive conductive member (43) and the negative conductive member (44) are respectively disposed in the two mounting grooves (3121).

6. Water supply device for a floor cleaning appliance according to claim 4, characterized in that the support frame (31) comprises: bottom plate (311) and mounting panel (312), mounting panel (312) set up in on bottom plate (311), positive electrolysis board (32) with negative pole electrolysis board (33) set up in on bottom plate (311), anodal electric component (41) with negative pole electric component (42) set up respectively in one side of mounting panel (312), anodal electrically conductive piece (43) with negative pole electrically conductive piece (44) is in bottom plate (311) with extend in mounting panel (312).

7. The water supply device of a floor cleaning device according to claim 6, wherein the mounting plate (312) is provided with a protruding positive mounting post (3122) and a negative mounting post (3123), the positive mounting post (3122) corresponding to one end of the positive conductive member (43) and the negative mounting post (3123) corresponding to one end of the negative conductive member (44), the positive electrical connecting member (41) being provided within the positive mounting post (3122) and the negative electrical connecting member (42) being provided within the negative mounting post (3123).

8. The water supply device of the floor cleaning device according to claim 7, characterized in that the inner side wall of the electrolytic water tank (20) is provided with a positive pole collar (21) and a negative pole collar (22), the positive pole collar (21) is sleeved on the positive pole mounting column (3122) and a positive pole sealing ring (315) is arranged between the positive pole mounting column (3122), and the negative pole collar (22) is sleeved on the negative pole mounting column (3123) and a negative pole sealing ring (316) is arranged between the negative pole mounting column (3123).

9. The water supply of a floor scrubbing apparatus according to claim 6 wherein said mounting plate (312) is removably mounted to an inside wall of said electrolytic water tank (20).

10. Water supply device for a floor cleaning appliance according to claim 6, characterized in that the support frame (31) further comprises: the side coaming (313), side coaming (313) are around positive pole electrolysis board (32) and the outside of negative pole electrolysis board (33), side coaming (313) set up in bottom plate (311) and both ends connect respectively in the both ends of mounting panel (312).

11. The water supply device of a floor cleaning device as claimed in claim 4, wherein the positive electrical component (41) comprises a positive electrical terminal (411) and a positive elastic conductive member (412), the negative electrical component (42) comprises a negative electrical terminal (421) and a negative elastic conductive member (422), the positive elastic conductive member (412) is connected between the positive electrical terminal (411) and the positive conductive member (43), and the negative elastic conductive member (422) is connected between the negative electrical terminal (421) and the negative conductive member (44).

12. Water supply device of a floor cleaning appliance according to claim 6, characterized in that the electrolysis module (30) further comprises: an insulating separator (34), the insulating separator (34) being disposed within the support frame (31) and between the positive electrolyte plate (32) and the negative electrolyte plate (33).

13. The water supply of a floor scrubbing apparatus as set forth in claim 12, wherein said electrolysis module (30) further comprises: anodal electrode post (35) and negative pole electrode post (36), anodal electrode post (35) wear to establish respectively anodal electrolysis board (32), insulating separator (34) with anodal electrically conductive piece (43) and respectively with anodal electrolysis board (32) with anodal electrically conductive piece (43) electricity is connected, negative pole electrode post (36) wear to establish respectively negative pole electrolysis board (33) with negative pole electrically conductive piece (44) and respectively with negative pole electrolysis board (33) with negative pole electrically conductive piece (44) electricity is connected.

14. The water supply device for floor cleaning equipment as claimed in claim 13, wherein the positive electrode column (35) and the negative electrode column (36) are disposed to protrude from the positive conductive member (43) and the negative conductive member (44), respectively, the positive electrode column (35) and the negative electrode column (36) are provided with threads at positions protruding from the positive conductive member (43) and the negative conductive member (44), respectively, the electrolysis module (30) further comprising: the positive electrode pole comprises a positive electrode nut (37) and a negative electrode nut (38), wherein the positive electrode nut (37) is matched at the thread of the positive electrode pole (35) and the negative electrode nut (38) is matched at the thread of the negative electrode pole (36).

15. The water supply of a floor scrubbing apparatus according to claim 13, the anode electrolytic plate (32) is positioned above the cathode electrolytic plate (33), the bottom plate (311) is provided with a convex hole (3111), the negative electrode electrolytic plate (33) and the insulating spacer (34) are provided with a first avoidance hole (331) for avoiding the protrusion hole (3111), the anode electrode column (35) is respectively arranged on the anode electrolytic plate (32), the convex hole (3111) and the anode conductive piece (43) in a penetrating way, the insulating separator (34) is provided with a separation cover (341), the anode electrolytic plate (32) is provided with a second avoidance hole (321), the second avoidance hole (321) avoids the isolation cover (341), and the negative electrode pole (36) is arranged in the isolation cover (341) and respectively penetrates through the negative electrode electrolytic plate (33) and the negative electrode conductive piece (44).

16. The water supply device of a floor cleaning device according to claim 3, characterized in that the inner side wall of the electrolytic water tank (20) is provided with a step on which the edge of the support frame (31) is supported; and/or

The support frame (31) is fixed in the electrolytic water tank (20) through a fastener (314); and/or

The support frame (31) is clamped in the electrolytic water tank (20).

17. The water supply of a floor scrubbing apparatus as set forth in claim 1, further comprising: the water replenishing valve (60), the water storage tank (10) is provided with a water storage outlet (11), the water replenishing valve (60) is arranged at the water storage outlet (11) and selectively opens and closes the water storage outlet (11); or

The electrolytic water tank (20) is provided with an electrolytic water inlet, and the water replenishing valve (60) is arranged at the electrolytic water inlet and selectively opens and closes the electrolytic water inlet.

18. The water supply of a floor scrubbing apparatus of claim 1, further comprising: a water outlet valve (70), wherein the water outlet valve (70) is arranged at the electrolyzed water outlet (23) and selectively opens and closes the electrolyzed water outlet (23).

19. The water supply of a floor scrubbing apparatus of claim 1, further comprising: the base (50), the base (50) set up in the bottom of electrolysis water tank (20), base (50) and storage water tank (10) are injectd jointly and are held chamber (12), electrolysis water tank (20) set up in hold the chamber (12).

20. 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 19, 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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