Clean, clean depressed place of moisturizing dual-purpose
Technical Field
The invention relates to the technical field of matched devices of floor mopping machines, in particular to a cleaning dock with dual purposes of cleaning and water supplementing.
Background
The floor-cleaning machine is widely applied to floor cleaning, but the prior art does not have a storage device specially used for the floor-cleaning machine, so that the floor-cleaning machine is inconvenient to place; after the rag of the floor-scrubbing machine is dirty, a user needs to detach the rag for cleaning so as to be convenient for next use, and because the requirement on the automation degree of the household appliance is gradually increased, the mode of manually cleaning the rag is out of the favorite range of the user, so that the use experience of the user is poor; in addition, the clean water in the water tank of the floor-scrubbing machine usually needs to be manually injected, and due to the limitation of the structure and the function of the water tank of the floor-scrubbing machine, the upper part of the water tank of the floor-scrubbing machine is not allowed to be provided with a large water injection hole, so that the clean water is easy to spill when a user needs to inject the clean water into the water tank of the floor-scrubbing machine. Therefore, how to design a device capable of supplementing water to a water tank of the floor-cleaning machine and cleaning a cleaning cloth of the floor-cleaning machine is a technical problem which needs to be solved.
Disclosure of Invention
Aiming at the defects in the technology, the invention provides a cleaning dock with dual purposes of cleaning and water replenishing.
The technical scheme adopted by the invention for solving the technical problems is as follows:
a cleaning, moisturizing dual-purpose cleaning dock, comprising: a docking body; the upper dock body is arranged on the lower dock body, and a water tank structure is formed on the upper dock body; the cleaning plate is arranged on the lower dock body and used for performing friction cleaning on a rag of the floor wiping machine; and a water pumping device arranged in the lower dock body and used for pumping clean water out of the water tank structure and pumping the clean water into a water tank of the floor mopping machine and onto the cleaning plate.
Preferably, the water tank structure comprises a side water tank and a surrounding water tank.
Preferably, the enclosing water tank and the side water tank are integrally formed, and a water storage cavity for storing clear water is formed between the enclosing water tank and the side water tank in a communicating manner.
Preferably, the water pumping device comprises a water pump which is fixedly arranged in the lower dock body, and the water pump is communicated with the water tank structure; the water replenishing spigot is communicated and connected with the water pump through a water replenishing pipeline; the water replenishing valve is arranged on the floor scrubbing machine and is communicated with a water tank of the floor scrubbing machine;
the water replenishing spigot can be hermetically inserted on the water replenishing valve so as to guide clear water into the water tank of the floor-scrubbing machine.
Preferably, the water pumping device further comprises a nozzle which is communicated and connected with the water pump through a cleaning pipeline and is used for spraying clean water in the water tank structure onto the cleaning plate so as to wet the floor cleaning rag.
Preferably, the water pump is connected to the water tank structure through a water inlet pipe; the water pump is also connected with a water outlet pipe, and one end part of the water outlet pipe is communicated with a flow-dividing tee joint; the cleaning pipeline and the water replenishing pipeline are both connected to the flow dividing tee joint for guiding and conveying the divided clean water.
Preferably, the water supplementing pipeline is provided with an electromagnetic stop valve for water supplementing, so as to control the conduction or the interception of the water supplementing pipeline; the cleaning pipeline is provided with an electromagnetic stop valve for cleaning, and the electromagnetic stop valve is used for controlling the cleaning pipeline to be conducted or cut off.
Preferably, a plurality of cleaning parts are formed on the cleaning plate, and the nozzles are arranged in the cleaning parts; the cleaning part is composed of a plurality of cleaning rib plates which are arranged annularly.
Preferably, the cleaning rib plates are arranged to protrude out of the cleaning plate, and the cleaning rib plates are triangular prism-shaped.
Preferably, the water replenishing valve is an electromagnetic valve, and the electromagnetic valve is defined to be communicated when the water replenishing valve is inserted into the water replenishing spigot; when the water replenishing valve is disconnected from the water replenishing spigot, the water replenishing valve is cut off.
Preferably, the water replenishing valve is a mechanical valve; the water replenishing valve is provided with a first valve port and a second valve port; a through-flow cavity communicated with the first valve port and the second valve port is formed in the water replenishing valve; a valve core is arranged in the through flow cavity; an elastic part for resetting the valve core is arranged in the water replenishing valve; the elastic element is limited to be capable of cutting off a passage between the first valve port and the second valve port through the action valve core when the water supplementing plug is pulled out.
Preferably, a water level sensor used for collecting the water level information of the clean water in the floor wiping machine is arranged on the water tank of the floor wiping machine.
Compared with the prior art, the invention has the beneficial effects that: the cleaning dock with the dual purposes of cleaning and water replenishing can provide a placing space and is convenient for accommodating a floor mopping machine; the water tank of the floor mopping machine can be automatically supplemented with water according to the water level information in the water tank of the floor mopping machine; and the water-carrying friction washing can be carried out on the wiping rag on the cleaning plate according to the requirements of users. This application compact structure, easy and simple to handle can accomodate and supplement before using the mopping machine by a station, have higher practical value and spreading value.
Drawings
FIG. 1 is a schematic view of the present invention in a state where a floor scrubber is installed;
FIG. 2 is a schematic view of the overall structure of the present invention;
FIG. 3 is an exploded view of the present invention;
FIGS. 4-5 are schematic views of the cleaning plate of the present invention from different perspectives;
FIG. 6 is a schematic structural view of a water pumping device according to the present invention;
FIGS. 7-8 are schematic views of a portion of the construction of the floor scrubbing machine;
fig. 9 is a schematic view of the internal structure of the water replenishing valve of the present invention.
FIG. 10 is an isometric view of the overall structure of the floor scrubbing cleaning plate;
FIG. 11 is a schematic top view of the overall construction of the floor scrubbing cleaning panel;
FIG. 12 is a schematic view of the mounting structure of the nozzle;
figures 13, 14 and 15 are schematic views of the bottom structure of the floor scrubbing cleaning panel from different perspectives.
Detailed Description
The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.
Example one
As shown in fig. 1 to 9, the present invention provides a cleaning dock for cleaning and refilling water, comprising:
a dock body 11;
the upper dock body 12 is seated on the lower dock body 11, and a water tank structure is formed on the upper dock body 12;
a cleaning plate 4 installed on the dock body 11 for friction cleaning of a floor wiper cloth 23; and
pumping means arranged in the docking body 11 for pumping clean water out of the tank structure and pumping clean water into the scrubber tank 21 mounted on the scrubber 2 and onto the cleaning plate 4.
The water tank structure includes a side water tank 121 and a surrounding water tank 122. The enclosed water tank 122 and the side water tank 121 are integrally formed, and a water storage cavity for storing clean water is formed between the enclosed water tank 122 and the side water tank 121 in a communicating manner, so that the water storage cavity has a large water storage amount, and the upper dock body 12 can be stably seated on the lower dock body 11. The side water tank 121 is provided with a water injection hole for injecting clean water, and the water injection hole is covered with a sealing button 123 in a sealing manner. The lower dock body 11 and the upper dock body 12 jointly form a clean dock body 1.
Specifically, the water pumping device comprises
The water pump 3 is fixedly arranged in the lower dock body 11, and the water pump 3 is communicated with the water tank structure;
the water replenishing spigot 5 is communicated and connected with the water pump 3 through a water replenishing pipeline 33; and
the water replenishing valve 25 is arranged on the floor scrubbing machine 2 and is communicated with the floor scrubbing machine water tank 21;
the water replenishing spigot 5 can be hermetically inserted on the water replenishing valve 25 so as to guide clear water into the water tank 21 of the floor-scrubbing machine.
The water replenishing valve 25 is provided with a first valve port 251 and a second valve port 252, the first valve port 251 is connected to the water tank 21 of the floor cleaning machine in a communicating manner, and the second valve port 252 can be connected with the water replenishing spigot 5 in a sealing and inserting manner in a communicating manner;
when the water supplement faucet 5 and the second valve port 252 are in the plugging state, the first valve port 251 and the second valve port 252 are in the conducting state, and when the water supplement faucet 5 and the second valve port 252 are not in the plugging state, the first valve port 251 and the second valve port 252 are in the non-conducting state. The water replenishing valve 25 is an electromagnetic valve, and the electromagnetic valve is defined to be communicated when the water replenishing valve 25 is inserted into the water replenishing spigot 5; when the water replenishing valve 25 is disconnected from the water replenishing spigot 5, the water replenishing valve 25 is cut off. Referring to fig. 9, the water replenishment valve 25 is a mechanical valve. A through-flow chamber 250 is formed in the refill valve 25, and communicates with both the first port 251 and the second port 252. A valve body 253 for opening or closing a passage between the first port 251 and the second port 252 is installed in the flow passage chamber 250. The water replenishing valve 25 is provided with an elastic member 254 for resetting the valve element 253. The elastic member 254 is defined to be able to cut off the passage between the first port 251 and the second port 252 by the operation valve body 253 when the refill socket 5 is pulled out. The elastic member 254 is a spring, and has one end abutting against the water replenishing valve 25 and the other end abutting against the valve element 253. A spool passage for communicating the first port 251 and the second port 252 is formed in the spool 253. A seal ring for closing the second valve port 252 is fixed to the valve core 253. The valve core 253 is a cylinder structure with a cross-shaped cross section, and a valve core flow channel is formed between two adjacent cylinder edges. The valve core 253 is inserted into the elastic member 254, so that the whole valve core 253 is vertical to play a role in guiding, and the valve core 253 moves along the axial direction of the water replenishing valve 25, so that the sealing surface of the sealing ring can be fully sealed with the second valve port 252.
The water replenishing spigot 5 is fixedly arranged on the cleaning plate 4, and a water replenishing flow passage 50 for guiding clear water to the water replenishing spigot 5 is formed on the cleaning plate 4. A water replenishing joint 51 is formed in the water replenishing flow path 50, and the water replenishing pipe 33 is connected to the water replenishing joint 51 so as to be able to communicate with it in a sealed manner. The water pumping means further comprises a nozzle 42 in fluid communication with the water pump 3 via the cleaning conduit 34 for spraying clean water from the tank arrangement onto the cleaning plate 4 for wetting the floor wiper 23. The nozzle 42 is fixedly installed on the cleaning plate 4, and a cleaning flow passage 420 for guiding clean water to the nozzle 42 is formed on the cleaning plate 4. The cleaning flow passage 420 is formed with a cleaning joint 421, and the cleaning pipeline 34 can be connected to the cleaning joint 421 in a sealing and communicating manner. The water pump 3 is connected to the water tank structure through a water inlet pipe 31. The water pump 3 is also connected with a water outlet pipe 32, and one end part of the water outlet pipe 32 is communicated with a flow dividing tee 320. The cleaning pipeline 34 and the water replenishing pipeline 33 are both connected to the flow dividing tee 320 for guiding the divided clean water.
The water replenishing pipeline 33 is provided with a water replenishing electromagnetic check valve 331 for controlling the conduction or the interception of the water replenishing pipeline 33; the cleaning electromagnetic check valve 332 is installed on the cleaning pipeline 34 for controlling the cleaning pipeline 34 to conduct or cut off.
The cleaning plate 4 is formed with a plurality of cleaning portions in which nozzles 42 are provided. The cleaning part is composed of a plurality of cleaning rib plates 41 which are arranged in a ring shape. Cleaning rib 41 includes first rib 411 and second rib 412 disposed at an interval. The outer end of first rib 411 and the outer end of second rib 412 are located on the same circular line, and first rib 411 is shorter than second rib 412. The cleaning rib plates 41 are arranged to protrude from the cleaning plate 4, and the cleaning rib plates 41 are triangular prism-shaped. The cleaning plate 4 is provided with a sewage outlet 43 for guiding sewage. The docking body 11 is formed with a mounting cavity 110 for mounting the cleaning plate 4. The bottom surface of the installation cavity 110 is provided with a lowest relief area, and the lowest relief area is provided with a water falling hole 111; a sewage cleaning tank 13 for collecting sewage guided from the water falling hole 111 is detachably installed in the docking body 11; the sewage flowing down from the cleaning plate 4 can pass through the drain hole 43 and the drain hole 111 and is guided down in the sewage cleaning tank 13 to be uniformly treated.
The floor-scrubbing machine 2 comprises a machine body 20, and a floor-scrubbing machine water tank 21 is detachably arranged on the machine body 20; a floor-scrubbing machine base 22 which is arranged on the machine body 20 in a swinging manner, wherein a rotary driving device 27 is fixed on the floor-scrubbing machine base 22, and a floor-scrubbing machine cleaning cloth 23 is rotatably connected on the rotary driving device 27.
As an embodiment of the invention, the floor scrubbing machine 2 further comprises a spray head 26 and a floor scrubbing machine water pump. A spray head 26 for spraying wet the floor to be cleaned. A scrubber pump is provided in the body 20 for pumping the clean water in the scrubber tank 21 to the spray head 26. The water replenishing valve 25 is fixed in the floor scrubbing machine base 22, and the bottom of the floor scrubbing machine base 22 is provided with a through hole 24 for mounting the water replenishing valve 25. The water tank 21 of the floor-scrubbing machine is provided with a water level sensor for collecting the water level information of the clean water inside the water tank.
This clean, clean depressed place of moisturizing dual-purpose theory of operation:
when the floor cleaning machine 2 is used for cleaning the ground, the rotary driving device 27 is linked with the floor cleaning rag 23 to rotationally clean the ground, the operation of the water pump of the floor cleaning machine can be controlled by the corresponding button, the water pump of the floor cleaning machine can pump out clean water from the water tank 21 of the floor cleaning machine, the clean water is pumped into the spray head 26, and the clean water is sprayed to the ground to be cleaned through the spray head 26.
When the floor cleaning machine 2 is used, the floor cleaning machine is placed on the clean dock body 1, and meanwhile, the water replenishing spigot 5 is plugged into the second valve port 252 in a sealing and communicating mode, and at the moment, the first valve port 251 and the second valve port 252 are in a conducting state.
Then, a water level sensor arranged on the water tank 21 of the floor-scrubbing machine detects the water level of the clean water in the water tank 21 of the floor-scrubbing machine, when the water level is below a max value, the water pump 3 starts to operate and the water supplementing is conducted by the electromagnetic check valve 331, the water pump 3 enables the clean water in the water tank structure to pass through the water inlet pipe 31, the water outlet pipe 32, the flow dividing tee 320, the water supplementing pipeline 33, the water supplementing flow channel 50, the water supplementing spigot 5 and the water supplementing valve 25 in sequence, and the clean water is pumped into the water tank 21 of the; until the water level in the water tank 21 of the floor-scrubbing machine is not lower than the max value, the water pump 3 stops running and the electromagnetic stop valve 331 for water supplement is in the cut-off state; when the water level is not below the max value, the electromagnetic water replenishing check valve 331 is in the shut-off state, and the water replenishing pump 3 does not operate.
When the floor cleaning rag 23 needs to be cleaned, a corresponding button on the floor cleaning machine 2 is pressed, at the moment, the rotary driving device 27 is linked with the floor cleaning rag 23 to rotate and rub on the cleaning plate 4, the water pump 3 starts to work and the electromagnetic stop valve 332 for cleaning is conducted, the water pump 3 enables clean water in the water tank structure to sequentially pass through the water inlet pipe 31, the water outlet pipe 32, the flow dividing tee 320, the cleaning pipeline 34, the cleaning flow channel 420 and the nozzle 42 and pumps the clean water to the cleaning plate 4 so as to wet the floor cleaning rag 23; the floor-scrubbing cloth 23 obtains a cleaning effect under the water-carrying friction washing of the cleaning rib plate 41, and the sewage flowing down from the cleaning plate 4 is guided into the sewage cleaning tank 13 to be cleaned uniformly.
In addition, the invention can also realize that when the water tank 21 of the floor cleaning machine is replenished with clean water, the cleaning cloth 23 of the floor cleaning machine is cleaned, in the process, the water pump 3 works, and the electromagnetic stop-and-go valve 331 for water replenishment and the electromagnetic stop-and-go valve 332 for cleaning are both in a conducting state.
In summary, when the water tank 21 of the floor-cleaning machine is replenished with clean water or the floor-cleaning cloth 23 of the floor-cleaning machine is cleaned, the water pump 3 is required to operate, and the clean water is correspondingly guided through the pipeline which needs to be communicated, so that the clean water in the water tank structure is guided through two independent pipelines.
Example two
Referring to fig. 10 to 15, the present invention provides a floor cleaning board comprising a board body 1, a nozzle 23 and a first flow path 31. In the present embodiment, the plate body 1 has a substantially rectangular shape with four corners rounded off, and this shape is merely an example and is not limiting. The plate body 1 has, in its thickness direction, an upper surface defining a washing zone 2 for washing the washing elements of the floor cleaning machine, which may be the entire upper surface of the plate body or a part of the upper surface, preferably corresponding to the cleaning elements. A plurality of outwardly projecting cleaning structures are arranged in the washing zone 2. The number of nozzles 23 is at least one for ejecting fluid to the cleaning member. The first flow path 31 is used to deliver fluid to the nozzle 23. The nozzle can be connected with an indoor tap water pipe, can also be communicated with a water tank of the floor mopping machine, and can also be communicated with other devices with conveying functions. In an embodiment of the present invention, the fluid is clear water, but may be a liquid to which a detergent is added to increase the cleaning effect.
As an embodiment of the invention, the cleaning areas are two circular areas corresponding to the shapes of the cleaning pieces, and the circular areas are slightly larger than the cleaning pieces, so that the cleaning pieces can be effectively cleaned. In this embodiment, at least one nozzle is disposed in each cleaning region, and the nozzles spray liquid toward a surface of the cleaning member facing the cleaning plate to wet the cleaning member.
Specifically, the first flow path 31 includes:
a groove integrally formed with the plate body 1; and
a first cover plate 311 for cooperating with the groove to form the first flow channel 31.
As an embodiment of the present invention, the groove is defined by a first enclosing plate 32 formed on the plate body 1;
the first flow passage 31 is formed with a first flow chamber disposed in communication with the nozzle 23.
The groove is integrally formed on the plate body, so that the cost can be effectively reduced, the space is saved, and the transverse strength of the plate body is improved. A first slot 320 is formed on the first enclosing plate 32, and a first inserting strip 312 is formed on the first cover plate 311; the first insert 312 can be inserted and fixed in the first slot 320, so as to improve the installation stability between the first enclosing plate 32 and the first cover plate 311. The first enclosing plate 32 and the first cover plate 311 are fixed by one of an ultrasonic connection process, a dispensing connection process, an implantation connection process and a friction connection process. The nozzle 23 is integrally formed with the plate body 1; the nozzle 23 includes a nozzle boss 231 having a nozzle hole 233 formed therein to communicate with the first flow path 31; a V-shaped nozzle groove 232 is formed at the water spraying position of the nozzle boss 231. The V-shaped nozzle groove 232 can spray out the liquid in a scattering mode, and the wetting area of the cleaning piece is increased. A water injection hole 30 communicated with the first flow channel 31 is formed on the plate body 1. The cleaning structure is a rib plate integrally formed with the plate body 1. A plurality of rib plates in the cleaning area are annularly arranged along a preset center. The rib plates are arranged to protrude out of the plate body 1, and the cross sections of the rib plates are triangular. The plurality of webs includes a first web 211 having a first length and a second web 212 having a second length; the first rib plates 211 and the second rib plates 212 are arranged at intervals, and the outer end parts of the first rib plates 211, which are far away from the preset center, and the outer end parts of the second rib plates 212, which are far away from the preset center, are located on the same circumferential line. Two rib plates with different lengths are arranged at intervals, and a part of space is reserved at a position close to the circle center, so that the cleaning effect is effectively prevented from being influenced due to the fact that the rib plates at the circle center are too dense.
The rib plate will be further described. Slope surfaces 213 are formed at both ends of the rib plate. The rib plates are integrally triangular so as to enhance the cleaning effect. The rib plate and the plate body are integrally formed, and meanwhile, the rib plate is hollow, so that the cost is reduced. The plate body 1 is provided with a reinforcing rib plate 11. The reinforcing ribs are arc-shaped, and part of the reinforcing rib plates 11 are basically parallel to the outer edge of the plate body, so that the strength of the plate body can be effectively enhanced. The reinforcing rib plate can also be integrally formed with the plate body. The outer fringe part of plate body 1 encloses and is equipped with the dress board 12 of putting up, sets up in the outer fringe of plate body, supports the plate body, further strengthens plate body intensity simultaneously. The plate body 1 is provided with an injection molding groove 10 for molding the rib plate. A second flow channel 41 is formed on the plate body 1; the second flow channel 41 is composed of a second enclosing plate 42 formed on the plate body 1 and a second cover plate 411 fixed on the second enclosing plate 42; a second flow chamber 400 is formed in the second flow passage 41. A second slot 420 is formed on the second enclosing plate 42, and a second inserting strip 412 is formed on the second cover plate 411; the second insert 412 can be inserted and fixed in the second slot 420, so as to improve the installation stability between the second enclosing plate 42 and the second cover plate 411. The second enclosing plate 42 and the second cover plate 411 are fixed by one of an ultrasonic connection process, a glue dispensing connection process, an implantation connection process and a friction connection process. A connecting pipe 413 communicated with the second flow chamber 400 is formed on the second cover plate 411, and a water outlet hole 40 communicated with the second flow chamber 400 is formed on the plate body 1. The water injection hole 30 and the water outlet hole 40 are both threaded holes. The floor scrubbing cleaning panel also includes at least one drain opening 22 integrally formed with the panel body 1. The water outlet penetrates through the upper surface and the lower surface of the plate body. The drainage openings are generally arranged between two rib plates, and in the embodiment, two drainage openings are arranged between every two adjacent rib plates so as to quickly drain dirty water to the lower side of the plate body.
The invention also provides a cleaning device, which is limited with an accommodating space, and the floor cleaning board is placed in the accommodating space. The working principle of the floor cleaning board is as follows: the floor cleaning machine is placed on the plate body 1, clean water is sprayed on the cleaning cloth for rotary operation through the water injection hole 30 and the first flow channel 31 by the nozzle 23, the cleaning cloth achieves a cleaning effect under the friction action of the convexly arranged rib plates, and sewage after the cleaning of the floor cleaning machine cleaning cloth is guided down through the water outlet 22.
The first rib plate 211 and the second rib plate 212 which are arranged annularly and have different lengths can enable the wiping cloth of the floor wiping machine to obtain better cleaning effect; constitute first runner 31 through the first bounding wall 32 of shaping on plate body 1 and fix the first apron 311 on first bounding wall 32, through setting up nozzle 23 integrated into one piece on plate body 1, can improve the integrated level of scrubbing machine cleaning plate greatly under the prerequisite that satisfies the functional requirement to the quantity of assembly part has been reduced, has not only saved the assemble duration, has improved assembly efficiency, has still reduced manufacturing cost.
While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.