CN113181392A - Workstation with disinfection function - Google Patents

Abstract

The invention discloses a workstation with a disinfection function, which comprises a shell, a clear water tank, a cleaning tank, an electrolysis structure and a first electrolyzed water delivery pipe, wherein the shell is provided with a first water inlet and a first water outlet; the housing includes a main body portion and a parking portion; the clear water tank is arranged in the main body part; the cleaning tank is arranged on the parking part; the electrolysis structure is communicated with the clear water tank and is provided with an electrolysis cavity for electrolyzing water in the electrolysis cavity; the first electrolyzed water delivery pipe is communicated with the electrolysis cavity and the cleaning tank. The electrolysis structure will be electrolyzed by the water that flows into in the clear water tank, produces the electrolysis water, and when the intercommunication between electrolysis chamber and the first electrolysis water conveyer pipe, the washing tank is carried to the electrolysis water, cleans and disinfects, solves the inconvenient problem that sets up sterile device of current cleaning robot.

Description

Workstation with disinfection function

Technical Field

The invention relates to the technical field of workstations of cleaning robots, in particular to a workstation with a disinfection function.

Background

The rag of current cleaning machines people leads to it to need often disinfect owing to often contact dirty environment, if set up sterile device on cleaning machines people and can make cleaning machines human volume grow, is unfavorable for the miniaturized requirement to cleaning machines people now, consequently, needs a workstation that has the disinfection function, for cleaning machines people's rag disinfection.

Disclosure of Invention

The invention mainly aims to provide a workstation with a disinfection function, and aims to solve the problem that a disinfection device is inconvenient to arrange on the existing cleaning robot.

The invention provides a workstation with a disinfection function, comprising:

a housing including a main body portion and a parking portion;

the clear water tank is arranged in the main body part;

a cleaning tank arranged on the parking part;

the electrolysis structure is communicated with the clear water tank and is provided with an electrolysis cavity for electrolyzing water in the electrolysis cavity;

the first electrolyzed water delivery pipe is communicated with the electrolysis cavity and the cleaning tank.

Further, the workstation with disinfection function still includes:

the sewage tank is arranged in the main body part;

the second electrolyzed water delivery pipe is communicated with the electrolysis cavity and the sewage tank;

and the sewage conveying pipe is communicated with the sewage tank and the cleaning tank.

Further, the workstation with the disinfection function also comprises a waterway control structure;

the water path control structure is communicated with the electrolysis cavity;

the first electrolyzed water delivery pipe is communicated with the electrolysis cavity through a waterway control structure; the second electrolyzed water delivery pipe is communicated with the electrolysis cavity through a waterway control structure;

the waterway control structure controls the connection and disconnection between the electrolysis cavity and the first electrolyzed water delivery pipe;

the waterway control structure controls the connection and disconnection between the electrolysis cavity and the second electrolyzed water delivery pipe.

Further, the clean water tank is communicated with the electrolysis cavity through a one-way valve.

Further, the main part is equipped with clear water tank arrangement groove, and the check valve includes:

the first check valve component is arranged on the bottom of the clean water tank;

the second one-way valve component is arranged on the clear water tank accommodating groove and is communicated with the electrolysis cavity;

the first one-way valve assembly is abutted by and in communication with the second one-way valve assembly.

Furthermore, a check valve groove is formed in the bottom of the clean water tank, the first check valve component is inserted into the check valve groove, and the lower end of the first check valve component is in sealing contact with the groove wall of the check valve groove and penetrates through the bottom of the check valve groove.

Further, the first one-way valve assembly includes:

the lower end of the first positioning piece penetrates through the bottom of the one-way valve groove and comprises a positioning piece main body and an external pressing bulge, the external pressing bulge is arranged on the outer wall of the positioning piece main body along the circumferential direction, an upper groove is formed in the upper end of the positioning piece main body, a lower groove is formed in the lower end of the positioning piece main body, and a rod passing hole communicated with the upper groove and the lower groove is formed in the positioning piece main body;

the first positioning cylinder is connected with the first positioning piece, a blind hole with an opening at the lower end is formed in the first positioning cylinder, a water flowing hole communicated with the blind hole is formed in the side wall of the first positioning cylinder, and the water flowing hole is a strip-shaped hole which is formed in the upper portion and the lower portion;

the plug connector comprises an upper plug-in part, a guide sliding block and a plug rod, wherein the diameter of the upper plug-in part is larger than that of the plug rod, the upper plug-in part is inserted into the blind hole, the plug rod is movably inserted into the rod hole, the plug rod is provided with a rod hole, one end of the rod hole is positioned on the side wall of the plug rod close to the upper plug-in part, the other end of the rod hole is positioned at the lower end of the plug rod, the lower end of the plug rod is used for abutting against the second check valve component, the other end of the rod hole is communicated with the second check valve component, and the guide sliding block is slidably inserted into the water;

the abutting spring is arranged in the blind hole and abuts against the upper insertion part;

the first outer sealing piece is sleeved outside the positioning piece main body and arranged between the outer pressing bulge and the bottom of the one-way valve groove;

the first inner sealing element is arranged in the upper groove and movably sleeved outside the inserted rod.

Further, the second one-way valve assembly includes:

the second positioning piece is fixedly arranged, an insertion groove is formed in one end, facing the first one-way valve component, of the second positioning piece, a water passing hole communicated with the electrolytic structure is formed in the bottom of the insertion groove, the insertion rod is inserted into the insertion groove and abuts against the bottom of the insertion groove, and the other end of the rod hole is communicated with the water passing hole;

the second inner sealing element is arranged in the insertion groove and movably sleeved outside the insertion rod;

and the bearing is arranged below the second positioning piece and used for abutting against the second positioning piece.

Further, the waterway control structure comprises:

the reversing valve comprises a reversing valve shell and a rotor, the reversing valve shell is fixedly arranged, and a communicating pipeline is arranged on the rotor;

and the steering engine is in transmission connection with the reversing valve and is used for driving the rotor to rotate so as to enable the two ends of the communicating pipeline to reach the corresponding connectors and be communicated with the pipes connected with the connectors, and the communicating of the electrolytic cavity and the first electrolytic water conveying pipe and the communicating of the second electrolytic water conveying pipe are respectively realized.

Furthermore, the reversing valve shell comprises three interfaces which are respectively a first interface, a second interface and a third interface;

the first interface is communicated with the electrolysis cavity through a water inlet pipe;

the second interface is connected with the first electrolyzed water delivery pipe;

the third interface is connected with a second electrolyzed water delivery pipe.

The invention provides a workstation with a disinfection function, wherein an electrolysis structure electrolyzes water flowing from a clean water tank to generate electrolyzed water with a disinfection effect, when an electrolysis cavity is communicated with a first electrolyzed water conveying pipe, the electrolyzed water is conveyed to a cleaning tank through the first electrolyzed water conveying pipe and cleans and disinfects cleaning cloth in the cleaning tank, the cleaning cloth is disinfected in the workstation with the disinfection function, a disinfection device is not required to be arranged on a cleaning robot, and the problem that the disinfection device is inconvenient to arrange on the existing cleaning robot is solved.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of a workstation with disinfection of the present invention;

FIG. 2 is a schematic bottom view of an embodiment of a workstation with disinfection of the present invention;

FIG. 3 is a schematic cross-sectional view of an embodiment of a workstation with disinfection of the present invention;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is an enlarged schematic view of portion B of FIG. 3;

FIG. 6 is a schematic view of an embodiment of a first one-way valve assembly in a workstation having a sanitizing function according to the present invention;

FIG. 7 is a schematic diagram of an embodiment of a plug-in unit for a workstation with sterilization according to the present invention;

FIG. 8 is a schematic cross-sectional view of an embodiment of a diverter valve in a workstation having a sanitizing function according to the present invention;

FIG. 9 is a schematic view of an embodiment of a cleaning tank in a workstation with a disinfecting function according to the present invention.

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood by those skilled in the art that, as used herein, the singular forms "a", "an", "the" and "the" may include the plural forms as well, unless expressly stated otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, units, modules, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, units, modules, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Referring to fig. 1-9, the present invention provides a workstation with disinfection function, comprising a housing 1, a clean water tank 112, a cleaning tank 3, an electrolysis structure 2 and a first electrolyzed water delivery pipe 5; the housing 1 includes a main body portion 11 and a parking portion 12; the clean water tank 112 is arranged in the main body part 11; the cleaning tank 3 is arranged on the parking part 12; the electrolysis structure 2 is communicated with the clean water tank 112 and is provided with an electrolysis cavity 261 for electrolyzing water in the electrolysis cavity 261; the waterway control structure 4 is communicated with the electrolysis cavity 261; the first electrolyzed water supplying tube 5 communicates the electrolysis chamber 261 with the cleaning tank 3.

Specifically, electrolysis structure 2 will be electrolyzed by the water that flows into in clean water tank 112, produce the electrolytic water that has the disinfection effect, when the intercommunication between electrolysis chamber 261 and first electrolytic water conveyer pipe 5, the electrolytic water carries washing tank 3 through first electrolytic water conveyer pipe 5, and clean and disinfect to the rag that is in washing tank 3, disinfect the rag at the workstation that has the disinfection function, need not set up sterile device at cleaning machines people, solve the problem of the last inconvenient sterile device that sets up of current cleaning machines people.

It should be noted that in some embodiments, the housing 1 is a unitary member; in some embodiments, the housing 1 is assembled from a plurality of components; in the present embodiment, there is a gap between the cleaning tank 3 and the main body 11, and the cleaning tank 3 is located at an end of the parking part 12 far from the main body 11, and matches with the position of the cleaning cloth of the cleaning robot.

Further, the workstation with disinfection function further comprises a sewage tank 114, a second electrolyzed water delivery pipe 6 and a sewage delivery pipe 7; the sewage tank 114 is provided in the main body portion 11; the second electrolyzed water supplying pipe 6 communicates the electrolysis chamber 261 with the sewage tank 114; the sewage transport pipe 7 communicates the sewage tank 114 and the wash bowl 3.

Specifically, the sewage tank 114 is communicated with the cleaning tank 3 through the sewage delivery pipe 7, so that the sewage in the cleaning tank 3 can be collected in the sewage tank 114; the electrolyzed water is delivered to the sewage tank 114 through the second electrolyzed water delivery pipe 6, and the sewage tank 114 is sterilized; in some embodiments, the communication between the electrolysis chamber 261 and the second electrolyzed water delivery pipe 6 and the communication between the electrolysis chamber 261 and the first electrolyzed water delivery pipe 5 may not occur simultaneously, for example, the electrolysis chamber 261 may have a limited space and cannot provide too much electrolyzed water simultaneously, or only needed portions may be sterilized by electrolyzed water according to actual needs, thereby saving resources.

In some embodiments, the body part 11 is provided with a sump seating groove 113; the sewage tank 114 is disposed in the sewage tank seating groove 113.

Further, in some embodiments, the workstation with disinfection function further comprises a waterway control structure 4; the waterway control structure 4 is communicated with the electrolysis cavity 261; the first electrolyzed water delivery pipe 5 is communicated with the electrolysis cavity 261 through the waterway control structure 4; the second electrolyzed water delivery pipe 6 is communicated with the electrolysis cavity 261 through the waterway control structure 4; the waterway control structure 4 controls the connection and disconnection between the electrolysis cavity 261 and the first electrolyzed water delivery pipe 5; the waterway control structure 4 controls communication and disconnection between the electrolytic chamber 261 and the second electrolyzed water feeding pipe 6.

It should be noted that the waterway control structure 4 controls the connection and disconnection between the electrolytic chamber 261 and the second electrolyzed water delivery pipe 6, and delivers the electrolyzed water to the sewage tank 114 through the second electrolyzed water delivery pipe 6 to sterilize the sewage tank 114; it should be noted that in some embodiments, waterway control structure 4 may control simultaneous communication and disconnection between electrolysis chamber 261 and second electrolyzed water delivery pipe 6 and between electrolysis chamber 261 and first electrolyzed water delivery pipe 5; in some embodiments, communication between electrolysis chamber 261 and second electrolyzed water supply conduit 6 and communication between electrolysis chamber 261 and first electrolyzed water supply conduit 5 may not occur simultaneously; the waterway control structure 4 can control the connection and disconnection between the electrolytic cavity 261 and the first electrolyzed water delivery pipe 5 manually or by triggering, for example, in a cleaning starting mode, when the cleaning robot reaches a stop position of the workstation from the outside, the waterway control structure 4 is triggered to control the connection between the electrolytic cavity 261 and the first electrolyzed water delivery pipe 5, and after a set time is reached or the cleaning cloth leaves the cleaning tank 3, the waterway control structure 4 is triggered to control the connection and disconnection between the electrolytic cavity 261 and the first electrolyzed water delivery pipe 5; when the rag leaves washing tank 3, can delay and trigger water route control structure 4 and control to turn off between electrolysis chamber 261 and first electrolysis water conveyer pipe 5, it is clean with the remaining sewage disinfection of rag in washing tank 3.

Further, in some embodiments, the cleaning tank 3 is provided with a first scraper 31; the first scraper 31 is bar-shaped and is provided along the edge of the side of the washing tub 3 away from the main body part 11.

Specifically, when the cleaning cloth enters or exits the cleaning groove 3, the first scraper 31 is in contact with the cleaning cloth in the transverse direction of the movement direction of the cleaning cloth, and hangs the sewage and dirt on the cleaning cloth; the first scraper 31 is disposed along the edge of the cleaning tank 3 away from the main body 11, and can scrape the moisture of the cleaning cloth as much as possible during the process of removing the cleaning cloth from the cleaning tank 3.

Further, in some embodiments, referring to fig. 9, a second scraper 32 is provided on the cleaning tank 3; the second squeegee 32 has a bar shape, and the second squeegee 32 has one end facing the first squeegee 31 and the other end facing the main body portion 11.

Specifically, the second scraping plates 32 are arranged in a plurality of parallel, and the first scraping plates 31 and the second scraping plates 32 are arranged in a relatively crossed mode so as to scrape dirt and water on the cleaning cloth at different angles and clean the cleaning cloth more comprehensively.

In some embodiments, the cross section of the first scraper 31 is triangular, and the cross section of the second scraper 32 is triangular, so that the triangular structure is convenient for scraping out moisture of the cleaning cloth and is not easy to hook the cleaning cloth.

Further, in some embodiments, clean water tank 112 communicates with electrolysis chamber 261 through one-way valve 8.

Specifically, water in clean water tank 112 may be directed into electrolysis chamber 261 through one-way valve 8.

Further, in some embodiments, the main body portion 11 is provided with a clean water tank seating groove 111, and the check valve 8 includes a first check valve assembly 81 and a second check valve assembly 82; the first check valve assembly 81 is disposed on the bottom of the clean water tank 112; the second check valve assembly 82 is arranged on the clean water tank accommodating groove 111 and is communicated with the electrolysis cavity 261; the first check valve assembly 81 is abutted by the second check valve assembly 82 and is in communication with the second check valve assembly 82.

Specifically, when the clean water tank 112 is arranged in the clean water tank accommodating groove 111, the first check valve assembly 81 abuts against and is communicated with the second check valve assembly 82, so that the clean water tank 112 is communicated with the electrolysis cavity 261, when the clean water tank 112 is lifted, the first check valve assembly 81 is released from abutting against the second check valve assembly 82, so that the clean water tank 112 is isolated from the electrolysis cavity 261, the inside of the first check valve assembly 81 is closed without abutting against, the lower side of the clean water tank 112 is sealed, water leakage is avoided, and the clean water tank 112 is conveniently taken out and cleaned.

Further, in some embodiments, a check valve groove 1121 is formed on the bottom of the clean water tank 112, the first check valve assembly 81 is inserted into the check valve groove 1121, and the lower end of the first check valve assembly 81 passes through the bottom of the check valve groove 1121 in sealing contact with the groove wall of the check valve groove 1121.

Specifically, in this embodiment, the check valve groove 1121 is disposed at the lowest position of the bottom of the clean water tank 112, so that the water in the clean water tank 112 can flow into the check valve groove 1121 to the greatest extent, the water in the clean water tank 112 can be fully utilized, the clean water tank 112 is located above the electrolysis cavity 261, the water in the clean water tank 112 can be electrolyzed to the greatest extent, and only a very small amount of water may be accumulated in the last electrolysis cavity 261, but the utilization of water resources is also increased.

Further, in some embodiments, the first one-way valve assembly 81 includes a first positioning member 811, a first positioning cylinder 812, a plug member 813, a biasing spring 815, a first outer seal 814, and a first inner seal 816; the lower end of the first positioning element 811 penetrates through the bottom of the one-way valve groove 1121, the first positioning element 811 comprises a positioning element main body 8111 and an external pressing protrusion 8112, the external pressing protrusion 8112 is circumferentially arranged on the outer wall of the positioning element main body 8111, the upper end of the positioning element main body 8111 is provided with an upper groove, the lower end of the positioning element main body 8111 is provided with a lower groove, and the positioning element main body 8111 is provided with a rod passing hole communicated with the upper groove and the lower groove; the first positioning cylinder 812 is connected with the first positioning piece 811, a blind hole with an opening at the lower end is arranged on the first positioning cylinder 812, a water flowing hole 8121 communicated with the blind hole is arranged on the side wall of the first positioning cylinder 812, and the water flowing hole 8121 is a strip-shaped hole arranged up and down; the plug-in unit 813 comprises an upper plug-in unit 8131, a guide sliding block 8133 and a plug rod 8132, wherein the diameter of the upper plug-in unit 8131 is larger than that of the plug rod 8132, the upper plug-in unit 8131 is inserted into the blind hole, the plug rod 8132 is movably inserted into the rod hole, the plug rod 8132 is provided with a rod hole 8134, one end of the rod hole 8134 is located on the side wall of the plug rod 8132 close to the upper plug-in unit 8131, the other end of the rod hole 8134 is located at the lower end of the plug rod 8132, the lower end of the plug rod 8132 is used for abutting against the second check valve assembly 82, the other end of the rod hole 8134 is communicated with the second check valve assembly 82, and the guide sliding block 8133 is inserted into the water flow hole 8121 in a sliding manner that one end of the rod hole 8134 is opposite to the water flow hole 8121; the abutting spring 815 is arranged in the blind hole and abuts against the upper insertion part 8131; the first outer sealing element 814 is sleeved outside the positioning element main body 8111 and is arranged between the outer pressing protrusion 8112 and the bottom of the one-way valve groove 1121; the first inner sealing member 816 is disposed in the upper groove and movably sleeved outside the insertion rod 8132.

Specifically, by abutting against the lower end of the insertion rod 8132, the upper insertion part 8131 presses the abutting spring 815, so that one end of the rod hole 8134 is opposite to and communicated with the water flowing hole 8121, and water in the clean water tank 112 enters the electrolysis cavity 261 after passing through the water flowing hole 8121, the rod hole 8134 and the second check valve assembly 82; when the clean water tank 112 is lifted, the lower end of the insert rod 8132 leaves the second check valve assembly 82, the external force is removed, the insert part 813 moves downwards under the action of the resisting spring 815, the first inner sealing element 816 covers the upper end of the rod hole 8134, the first check valve assembly 81 is closed, and the first outer sealing element 814 and the first inner sealing element 816 play a sealing role.

In this embodiment, the upper plugging portion 8131 includes a column 81311 with a cross-shaped cross section and a disc-shaped abutting plate 81312, the abutting spring 815 is sleeved on the column 81311 and abuts against the abutting plate 81312, so that the abutting spring 815 and the upper plugging portion 8131 can be prevented from being dislocated, and the extrusion effect of the upper plugging portion 8131 on the abutting spring 815 is ensured; in the present embodiment, the guide slider 8133 is provided on the abutting plate 81312.

In this embodiment, the first positioning member 811 and the first positioning barrel 812 are clamped, so that the assembly is convenient.

In this embodiment, the first positioning element 811 has a positioning screw on the external pressing protrusion 8112, and a magnet is disposed on the corresponding one-way valve groove 1121, and the magnet is attracted to the positioning screw, so that the first one-way valve element 81 is more stable.

Further, the second one-way valve assembly 82 includes a second positioning member 821, a second inner seal 822, and a retainer 823; the second positioning part 821 is fixedly arranged, one end facing the first one-way valve component 81 is provided with an insertion groove, the bottom of the insertion groove is provided with a water through hole 8211 communicated with the electrolytic structure 2, the insertion rod 8132 is inserted into the insertion groove and abuts against the bottom of the insertion groove, and the other end of the rod hole 8134 is communicated with the water through hole 8211; the second inner sealing element 822 is arranged in the insertion groove and movably sleeved outside the insertion rod 8132; the bearing 823 is disposed below the second positioning part 821 and used for abutting against the second positioning part 821.

Specifically, the second positioning element 821 is used for abutting against the insertion rod 8132 of the plug-in unit 813, so that the first check valve assembly 81 is conducted, and the second inner sealing element 822 plays a role in sealing, so as to prevent water from leaking from a joint of the insertion rod 8132 and the second positioning element 821; bearing 823 is used for dragging the convenient equipment of second setting element 821 in the below, and in some embodiments, bearing 823 is fixed through the grafting mode, is equipped with the groove on bearing 823 for example, is equipped with the arch in the inside of electrolysis trough spare, and then fixes bearing 823 through bearing 823 and this protruding grafting.

Further, the electrolytic structure 2 comprises an electrolytic cell member 26, an electrolysis device 262 and a push-pull plate 27; the upper end of the electrolytic bath piece 26 is fixedly connected with the main body part 11 and is provided with an electrolytic hole, and the electrolytic hole vertically penetrates through the electrolytic bath piece 26; the electrolysis device 262 is arranged in the electrolysis hole and is used for electrolyzing water; the push-pull plate 27 is detachably connected with the lower end of the electrolytic cell piece 26 and is used for covering the lower side of the sealed electrolytic hole so as to limit the electrolytic device 262; wherein, the electrolysis chamber 261 comprises a chamber body positioned at the upper part of the electrolysis device 262 in the electrolysis hole.

In this embodiment, the push-pull plate 27 is detachable, i.e. after the electrolytic assembly is inserted into the electrolytic hole of the electrolytic cell member 26, the push-pull plate 27 is fixed on the electrolytic cell member 26, and the electrolytic assembly is pulled by the push-pull plate 27 below; in some embodiments, the electrolyzer member 26 can be a separate piece that is fastened to the body portion 11 by bolting, gluing, clamping, etc.

Specifically, the electrolysis device 262 includes two conductive nets, one connected to the positive electrode and the other connected to the negative electrode, and electrolyzes water when energized, and a distance is provided between the two conductive nets to prevent short circuit; after the power is switched on, water on the surface of the conductive net is electrolyzed under the action of voltage, atomic hydrogen is generated on the conductive net connected with the negative electrode, atomic oxygen is generated on the conductive net connected with the positive electrode, one part of the atomic oxygen generates water hydrogen ion hydroxyl free radicals (OH-), and the other part of the atomic oxygen generates O3, so that the device has good effects of disinfecting, sterilizing and purifying organic and non-organic substances, and the whole process has no new pollution; in some embodiments, sodium chloride is added to the water, and after electrolysis, sodium hypochlorite is generated, and the sodium hypochlorite has a bactericidal effect; in some embodiments, the sterilization effect can be achieved only by electrolyzing clear water, and the source water is tap water.

In the present embodiment, the electrolytic bath member 26 is disposed at the lower side of the clean water tank, as shown in the figure, the electrolytic bath member 26 is formed by extending the bottom plate of the clean water tank installation groove 111 downwards, the electrolytic bath member 26 is further provided with water leakage holes 263, the water leakage holes 263 are disposed on the side wall of the electrolytic bath member 26 and are located above the electrolytic device 262, and the electrolyzed water in the electrolysis cavity 261 flows out through the water leakage holes 263 and flows to the first electrolyzed water delivery pipe 5 or the second electrolyzed water delivery pipe 6 or the water path control structure 4. So set up, be favorable to the residual water in the clear water tank of furthest's reduction and the electrolysis trough spare 26, make full use of water resource, and the water that directly flows out from the electrolysis trough has higher concentration, has better disinfection and sterilization effect.

Further, referring to fig. 2 and 8, in some embodiments, the waterway control structure 4 includes a directional valve 42 and a steering engine 41; the reversing valve 42 comprises a reversing valve housing 426 and a rotor 422, the reversing valve housing 426 is fixedly arranged, and a communicating pipeline 421 is arranged on the rotor 422; the steering engine 41 is in transmission connection with the reversing valve 42 and is used for driving the rotor 422 to rotate so that the two ends of the communicating pipeline 421 reach the corresponding connectors and are communicated with the pipes connected with the connectors, and the communication between the electrolytic cavity 261 and the first electrolyzed water conveying pipe 5 and the communication between the electrolytic cavity 261 and the second electrolyzed water conveying pipe 6 are respectively realized.

Specifically, the output end of the steering engine 41 drives the rotor 422 of the reversing valve 42 to rotate, and the positions of the two ends of the communicating pipe 421 on the rotor 422 can be adjusted by rotating the rotor 422 of the reversing valve 42, so that the communicating pipe 421 is connected with different pipes, and the two pipes communicated with the two ends of the communicating pipe 421 are communicated.

Further, the reversing valve housing 426 includes three ports, a first port 423, a second port 424, and a third port 425; the first port 423 is communicated with the electrolysis chamber 261 through a water inlet pipe; the second interface 424 is connected with the first electrolyzed water supplying pipe 5; the third port 425 is connected to the second electrolyzed water supplying pipe 6. The two ends of the communication pipe 421 are respectively a first pipe end and a second pipe end; when the water inlet pipe is required to be communicated with the first electrolyzed water delivery pipe 5, the first pipe end corresponds to the first interface 423, and the second pipe end corresponds to the second interface 424; when the water inlet pipe is required to be communicated with the second electrolyzed water supplying pipe 6, the first pipe end corresponds to the third port 425, and the second pipe end corresponds to the first port 423.

The invention provides a workstation with a disinfection function, wherein an electrolysis structure 2 electrolyzes water flowing from a clean water tank 112 to generate electrolyzed water with a disinfection effect, when a waterway control structure 4 controls the communication between an electrolysis cavity 261 and a first electrolyzed water conveying pipe 5, the electrolyzed water is conveyed to a cleaning tank 3 through the first electrolyzed water conveying pipe 5 and cleans and disinfects cleaning cloth in the cleaning tank 3, the cleaning cloth is disinfected in the workstation with the disinfection function, a disinfection device does not need to be arranged on a cleaning robot, and the problem that the disinfection device is inconvenient to arrange on the existing cleaning robot is solved.

The invention provides a workstation with a disinfection function, which can electrolyze water in the workstation to obtain electrolyzed water, wherein the electrolyzed water has a disinfection function, so that a disinfectant is not required to be added into the water in a water tank, the problem that the water in the water tank has a disinfection effect due to the fact that the disinfectant is required to be added in the prior art is solved, the cost can be reduced on the basis of realizing disinfection, and the workstation with the disinfection function is more convenient to use.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A workstation with disinfection, comprising:

a housing including a main body portion and a parking portion;

the clear water tank is arranged in the main body part;

a cleaning tank arranged on the parking part;

the electrolysis structure is communicated with the clear water tank and is provided with an electrolysis cavity for electrolyzing water in the electrolysis cavity;

and the first electrolyzed water conveying pipe is communicated with the electrolysis cavity and the cleaning tank.

2. The workstation with disinfection function of claim 1, further comprising:

the sewage tank is arranged in the main body part;

the second electrolyzed water conveying pipe is communicated with the electrolysis cavity and the sewage tank;

and the sewage conveying pipe is communicated with the sewage tank and the cleaning tank.

3. The workstation with disinfection capability of claim 2, further comprising a waterway control structure;

the water path control structure is communicated with the electrolysis cavity;

the first electrolyzed water delivery pipe is communicated with the electrolysis cavity through the waterway control structure; the second electrolyzed water delivery pipe is communicated with the electrolysis cavity through the waterway control structure;

the waterway control structure controls the connection and disconnection between the electrolysis cavity and the first electrolyzed water delivery pipe;

the waterway control structure controls the communication and the disconnection between the electrolysis cavity and the second electrolyzed water delivery pipe.

4. The workstation with disinfection capability of claim 1, wherein said clean water tank communicates with said electrolysis chamber through a one-way valve.

5. The workstation with sterilization function of claim 4, wherein the main body part is provided with a clean water tank seating groove, and the check valve comprises:

the first one-way valve assembly is arranged on the bottom of the clean water tank;

the second one-way valve assembly is arranged on the clean water tank accommodating groove and is communicated with the electrolysis cavity;

the first one-way valve assembly is abutted by and in communication with the second one-way valve assembly.

6. The workstation with sterilization function according to claim 5, wherein a check valve slot is provided on the bottom of the clean water tank, the first check valve assembly is inserted into the check valve slot, and the lower end of the first check valve assembly passes through the bottom of the check valve slot in sealing contact with the slot wall of the check valve slot.

7. The workstation with disinfection functionality of claim 6, wherein said first one-way valve assembly comprises:

the lower end of the first positioning piece penetrates through the bottom of the one-way valve groove and comprises a positioning piece main body and an external pressing bulge, the external pressing bulge is arranged on the outer wall of the positioning piece main body along the circumferential direction, an upper groove is formed in the upper end of the positioning piece main body, a lower groove is formed in the lower end of the positioning piece main body, and a rod passing hole for communicating the upper groove and the lower groove is formed in the positioning piece main body;

the first positioning cylinder is connected with the first positioning piece, a blind hole with an opening at the lower end is formed in the first positioning cylinder, a water flowing hole communicated with the blind hole is formed in the side wall of the first positioning cylinder, and the water flowing hole is a strip-shaped hole which is formed in the upper portion and the lower portion;

the plug connector comprises an upper plug-in part, a guide sliding block and a plug rod, wherein the diameter of the upper plug-in part is larger than that of the plug rod, the upper plug-in part is inserted into the blind hole, the plug rod is movably inserted into the rod passing hole, the plug rod is provided with a rod hole, one end of the rod hole is positioned on the side wall of the plug rod close to the upper plug-in part, the other end of the rod hole is positioned at the lower end of the plug rod, the lower end of the plug rod is used for abutting against the second check valve component, the other end of the rod hole is communicated with the second check valve component, and the guide sliding block is slidably inserted into the water flowing hole so that one end of the rod hole is opposite to the water flowing hole;

the abutting spring is arranged in the blind hole and abuts against the upper insertion part;

the first outer sealing element is sleeved on the outer side of the positioning element main body and arranged between the outer pressing bulge and the bottom of the one-way valve groove;

the first inner sealing element is arranged in the upper groove and movably sleeved outside the inserted bar.

8. The workstation with disinfection capability of claim 7, wherein said second one-way valve assembly comprises:

the second positioning piece is fixedly arranged, an insertion groove is formed in one end, facing the first one-way valve assembly, of the second positioning piece, a water passing hole communicated with the electrolytic structure is formed in the bottom of the insertion groove, the insertion rod is inserted into the insertion groove and abuts against the bottom of the insertion groove, and the other end of the rod hole is communicated with the water passing hole;

the second inner sealing element is arranged in the insertion groove and movably sleeved outside the insertion rod;

and the bearing is arranged below the second positioning piece and used for abutting against the second positioning piece.

9. The workstation with disinfection capability of claim 3, wherein said waterway control structure comprises:

the reversing valve comprises a reversing valve shell and a rotor, the reversing valve shell is fixedly arranged, and a communicating pipeline is arranged on the rotor;

and the steering engine is in transmission connection with the reversing valve and is used for driving the rotor to rotate so as to enable the two ends of the communicating pipeline to reach the corresponding connectors and be communicated with the pipes connected with the connectors, and the communicating of the electrolytic cavity and the first electrolytic water conveying pipe and the communicating of the second electrolytic water conveying pipe are respectively realized.

10. The workstation with disinfection capability of claim 9, wherein said diverter valve housing includes three ports, a first port, a second port, and a third port;

the first interface is communicated with the electrolysis cavity through a water inlet pipe;

the second interface is connected with the first electrolyzed water delivery pipe;

the third interface is connected with the second electrolyzed water delivery pipe.

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