CN110384447B - Mop head cleaning mechanism and cleaning barrel - Google Patents

Abstract

The invention belongs to the technical field of cleaning equipment, and relates to a mop head cleaning mechanism which comprises a cleaning opening for enabling a mop head to shuttle back and forth for cleaning and a water purifying opening for spraying purified water to the mop head.

Description

Mop head cleaning mechanism and cleaning barrel

Technical Field

The invention belongs to the technical field of cleaning equipment, and relates to a mop head cleaning mechanism which can clean a mop head by making the mop head perform piston type movement in a cleaning opening, wherein the mop head is a flat plate mop head or a collodion mop head.

Background

The mop is a common cleaning tool, and a mop which is popular in recent years is a flat plate mop, wherein the mop head of the mop is a flat plate, a layer of wiping material is arranged on the flat plate, when the mop is used, the flat plate is used for pressing the wiping material to mop the floor, and the floor mopped by the flat plate mop is cleaner due to the uniform stress.

Although the flat mop has a good floor mopping effect, the wiping materials are easy to be dirty and often need to be cleaned, and the currently common flat mop cleaning mechanism usually comprises a mop bucket, and a structure for cleaning the flat wiping materials is arranged in the mop bucket, but the structures for cleaning the wiping materials are exposed when the flat mop cleaning mechanism is used or is not used, and are easy to be damaged due to accidental impact of external force.

Disclosure of Invention

The invention aims to solve the technical problem that the cleaning structure of the cleaning barrel of the existing flat mop is always exposed outside and is easy to be damaged by external force accidental impact when the cleaning barrel is not used, and provides a mop head cleaning mechanism aiming at the problem.

The mop head cleaning mechanism is a main component for cleaning a mop head, and comprises a cleaning opening for the mop head to shuttle back and forth for cleaning, and is characterized in that a cleaning piece for cleaning the mop head is arranged in the cleaning opening, the cleaning piece comprises a stress section and a cleaning section connected with the stress section, the cleaning opening is provided with a sliding rail for the cleaning section to slide, the mop is provided with a force application end for abutting against the stress section, when the mop head is inserted into the cleaning opening, the force application end abuts against the stress section and pushes the cleaning section to move towards a mop head wiping direction along the sliding rail, the stress section comprises a stress surface abutting against the force application end and a stress section body for transmitting the stress applied to the stress surface to the cleaning section, and the direction of the stress surface is consistent with the direction of one end of the cleaning section.

After the mop head is inserted into the cleaning opening, the force application end abuts against the force application surface and applies force to the force application section body, the force application section body is transmitted to the cleaning section, the cleaning section moves towards the direction of the mop head wiping object, and the cleaning section can be hidden in the cleaning opening before the mop head is not inserted into the cleaning opening, so that the cleaning section is prevented from being damaged by the accidental impact of external force on the cleaning section, and the cleaning section can also partially extend into the cleaning opening. The mop head cleaning device comprises a mop head, a cleaning section, a cleaning opening, a cleaning section and a cleaning section, wherein the mop head is inserted into the cleaning opening, and the cleaning section is arranged on the mop head. After the mop head is pulled out from the cleaning opening after cleaning, the force application end is separated from the force bearing surface, and the cleaning section automatically retracts.

In some embodiments of the present invention, the direction of the force-bearing surface is the same as the direction of one end of the cleaning mop head of the cleaning section, so that the mop head can be supported by the mop head when inserted into the cleaning opening, and the force-bearing section and the cleaning section can respectively play roles.

In some embodiments of the present invention, the force-bearing section is connected to the cleaning section through a rotating mechanism, the rotating mechanism includes a rotating head and a rotating sleeve at least partially covering the rotating head, and the rotating sleeve is provided with a resisting surface resisting against the rotating head to prevent the rotating head from rotating relative to the rotating sleeve.

In some embodiments of the invention, the cleaning zone is a wiper, a brush or a roller.

In some embodiments of the invention, the force-bearing surface is a rolling surface.

In some embodiments of the present invention, the cleaning mechanism includes a clean water port for spraying clean water to the mop head, the cleaning mechanism further includes a clean water switch for closing or opening the clean water port or a water pressing mechanism communicated with the clean water port, the clean water switch is provided with a valve and a first action end, the water pressing mechanism is provided with a first action end, the mop is provided with a second action end opposite to the first action end, when the mop head is inserted into the cleaning port, the second action end is directly or indirectly connected with the first action end or the first action end receives a sensing signal of the second action end, and the working state of the clean water switch or the water pressing mechanism at least includes: fully open, fully closed and some operating conditions in between.

In some embodiments of the invention, the first active end is disposed on the cleaning element.

In some embodiments of the invention, the first active end is provided with a first contact surface, the second active end is provided with a second contact surface directly or indirectly abutting against the first contact surface, and the second contact surface abuts against the first contact surface at least part of the depth of the mop head inserted into the cleaning opening after the mop head is inserted into the cleaning opening.

In some embodiments of the invention, the first contact surface and/or the second contact surface is/are uneven.

In some embodiments of the present invention, at least one of the first contact surface and the second contact surface is a rolling surface.

In some embodiments of the present invention, the water pressurizing mechanism is a water pressurizing pump or a water pressurizing cavity, a reciprocating water pressurizing piston is disposed in the water pressurizing cavity, and the first acting end is disposed on the water pressurizing piston.

In some embodiments of the invention, the water pressing cavity is communicated with the water purifying port through a one-way channel.

In some embodiments of the present invention, the pressurized water chamber is further provided with an elastic reset member connected to the pressurized water piston, and the second action end is provided with a stop surface for stopping the first action end and moving the pressurized water piston towards the elastic reset member.

In some embodiments of the present invention, the cleaning mechanism further comprises a clean water area communicating with the clean water port and containing clean water.

In some embodiments of the present invention, the water purification area is provided with a water outlet hole, a sealing plug for plugging the water outlet hole, and a movable cavity for moving the sealing plug, the movable cavity is provided with an elastic reset member for pushing the sealing plug to the water outlet hole, the water purification hole is provided with a port for penetrating through the water outlet hole and pushing open the sealing plug, and the movable cavity is provided with an opening for communicating the water purification area and the water outlet hole.

In some embodiments of the invention, the water purification zone is disposed above the water purification port.

In some embodiments of the present invention, the cleaning mechanism further includes a flow guide member communicated with the water purifying port, and the flow guide member is a cleaning section.

In some embodiments of the invention, the cleaning mechanism further comprises a dewatering opening for inserting the mop head into the dewatering opening.

The invention also provides a mop head cleaning barrel which comprises a barrel body and a cleaning mechanism arranged on the barrel body, wherein the barrel body is provided with a mop head abutting piece and a sewage retention area for temporarily retaining the sewage after the mop head is cleaned, and the abutting piece prevents the mop head from entering the sewage retention area in the process of inserting the mop head into the cleaning opening for cleaning.

Drawings

FIG. 1 is a schematic view showing the construction of a flat mop cleaning bucket according to example 1;

FIG. 2 is a schematic structural diagram of the water purifying switch in the mop head cleaning process according to embodiment 2;

FIG. 3 is a schematic structural view of a valve according to embodiment 2 after modification;

FIG. 4 is a schematic sectional view of the cleaning mechanism according to embodiment 4;

FIG. 5 is a schematic sectional view of the cleaning mechanism according to embodiment 5;

FIG. 6 is a schematic sectional view of the cleaning mechanism according to embodiment 6;

FIG. 7 is a schematic top view of the cleaning mechanism according to embodiment 7;

FIG. 8 is a schematic perspective view of a cleaning mechanism according to embodiment 8;

FIG. 9 is a schematic sectional view of the cleaning mechanism according to embodiment 9;

FIG. 10 is a schematic view of the structure of the connection between the water purification area and the water purification port in example 13;

FIG. 11 is a schematic sectional view showing a cleaning mechanism in example 14;

FIG. 12 is a schematic sectional view of a cleaning mechanism in example 15;

fig. 13 is a perspective assembly view of the scraping and cleaning mechanism in the embodiment 16.

Detailed Description

The present embodiment is a detailed description of the summary of the invention.

As described in the summary of the invention, the invention provides a mop head cleaning mechanism, which is generally arranged on a conventional mop cleaning mechanism such as a cleaning barrel, and the mop head cleaning mechanism can be integrated with the cleaning mechanism or separated from the cleaning mechanism, and can be selected by a person skilled in the art based on the difficulty of preparing the integrated cleaning mechanism, and of course, the mop head cleaning mechanism can also be used independently and has the function of cleaning a mop head.

The mop head cleaning mechanism comprises a cleaning opening for the back and forth movement and cleaning of the mop head, and the cleaning mode can be suitable for a flat mop and a collodion mop, so that the mop head refers to the flat mop head or the collodion mop head unless specially indicated. The cleaning part is internally provided with a cleaning part for cleaning the mop head, the cleaning part comprises a stress section and a cleaning section connected with the stress section, the cleaning opening is provided with a sliding track for the cleaning section to slide, the mop is provided with a force application end for propping against the stress section, when the mop is inserted into the cleaning opening, the force application end props against the stress section and pushes the cleaning section to move towards the direction of a mop head wiping object along the sliding track, the stress section comprises a stress surface for propping against the force application end and a stress section body for transmitting the stress of the stress surface to the cleaning section, the direction of the stress surface is consistent with the direction of one end of the cleaning mop head of the cleaning section, the distance of the cleaning section extending into the cleaning opening can be controlled by the distance of the force application end for propping against the stress surface to move, therefore, the technical personnel in the field can easily adjust the cleaning force for inserting the mop head into the cleaning opening on the basis of the technical scheme of the invention, so as to produce a desired cleaning effect for the mop head wipe. When not cleaning the mop, can retract and hide in the washing mouth, prevent that the washing section from receiving the external world and touching and damaging.

In some embodiments of the invention, the force-bearing section and the cleaning section are connected by a rotating mechanism, the rotating mechanism comprises a rotating head and a rotating sleeve at least partially sleeved on the rotating head, the rotating sleeve is provided with a resisting surface which resists the rotating head to prevent the rotating head from rotating relative to the rotating sleeve, the rotating head and the rotating sleeve can be disassembled, the rotation range of the rotating head in the cleaning process is limited by the resisting surface arranged on the rotating sleeve, the cleaning section can clean the wiping objects of the mop head, and meanwhile, the cleaning section has two degrees of freedom relative to the cleaning opening, namely, the cleaning section rotates relative to the stress section through the rotating mechanism, the mop head props against the cleaning section and pushes the cleaning section to the opposite direction of the stress section, thereby can ensure the mop head in the cleaning process, the washing dynamics of washing section to the wiper is even, and is more smooth and easy to the washing of mop head wiper, and the cleaning performance is more even. The cleaning section can be a scraping blade, a brushing blade or a roller, and can clean the mop head wiping material in various modes.

In some embodiments of the invention, the force bearing surface is a rolling surface, so that the mop head can be cleaned at the cleaning opening more easily.

In some embodiments of the present invention, the cleaning mechanism comprises a clean water port for spraying clean water to the mop head and a clean water switch for closing or opening the clean water port to control the clean water port to spray clean water to the mop head wiper when the mop head is inserted into the cleaning port, and the clean water switch has three working states: the mop cleaning device comprises a completely opening state, a completely closing state and a partial working state between the completely opening state and the completely closing state, wherein the partial working state can be used for adjusting the purified water flow rate of a purified water port, and a purified water switch can be freely switched among three working states.

In some embodiments of the present invention, the water purifying switch is provided with a valve and a first action end, the valve is used for controlling the opening degree of the water purifying opening, the mop is provided with a second action end corresponding to the first action end, when the mop head is inserted into the cleaning opening, the second action end is directly or indirectly connected with the first action end, and the second action end is connected with the first action end and then applies force to the first action end, so that the first action end is changed in position. In some embodiments of the present invention, the second action end is connected to the first action end through the transmission structure, so that the second action end is not obstructed, and the first action end and the second action end can act through the transmission structure applying force to the first action end. In some embodiments of the present invention, the first active end may receive the sensing signal of the second active end, and the sensing signal is processed by the signal processing component, so as to control the opening and closing of the valve.

In some embodiments of the present invention, the water purifying switch is replaced with a water pressurizing mechanism, the water pressurizing mechanism is provided with a first action end, the water pressurizing mechanism can supply water to the water purifying port and can not supply water to the water purifying port, so that the technical effect similar to that of the water purifying switch can be achieved, and the water pressurizing mechanism also has three working states: a fully opened state, a fully closed state and a partial working state between the fully opened state and the fully closed state, wherein the partial working state can be used for adjusting the purified water flow rate of the purified water port, the water pressing mechanism can be freely switched among three working states, in some embodiments of the invention, the first action end is a trigger end of a control circuit for controlling the water pressurizing mechanism, the working state of the water pressurizing mechanism is controlled by electric power (such as an electromagnet and the like), in some embodiments of the invention, the first action end is a stress end for controlling the water pressurizing mechanism, the first action end is conducted to the water pressurizing mechanism after being stressed, the working state of the water pressurizing mechanism is changed, in some embodiments of the invention, the second active end is coupled to the first active end via a transmission structure, thus, the second action end is not prevented from applying force to the first action end through the transmission structure, so that the first action end and the second action end are acted. In some embodiments of the present invention, the first active end may receive the sensing signal from the second active end, and the sensing signal is processed by the signal processing component, so as to control the operating state of the water pressurizing mechanism.

In some embodiments of the present invention, the water pressing mechanism is a water pressing pump, in some embodiments of the present invention, the water pressing mechanism is a water pressing cavity, a reciprocating water pressing piston is disposed in the water pressing cavity, the first action end is disposed on the water pressing piston, and when the mop head is inserted into the cleaning opening, the second action end is connected through the first action end, so as to push the water pressing piston to reciprocate in the water pressing cavity, and supply water to the water purifying opening. In order to prevent the purified water from flowing backwards in the process that the water pressing cavity supplies water to the purified water port, in some embodiments of the invention, the water pressing cavity is communicated with the purified water port through a one-way channel.

In some embodiments of the invention, the water pressing cavity is further provided with an elastic resetting piece connected with the water pressing piston, the second action end is provided with a resisting surface which is used for resisting the first action end and enabling the water pressing piston to move towards the direction of the elastic resetting piece, when the mop head is inserted into the cleaning opening for cleaning, the second action end only needs to be propped against the water pressing piston through the resisting surface, and when the mop head moves towards the direction of pulling out the cleaning opening, the elastic resetting piece can automatically reset the water pressing piston, so that the mop head is cleaned more laborsavingly.

In some embodiments of the invention, the first active end is provided with a first contact surface and the second active end is provided with a second contact surface directly or indirectly abutting against the first contact surface. In some embodiments of the invention, after the mop head is inserted into the cleaning opening, the second contact surface always abuts against the first contact surface, so that the water purifying opening can always spray water to the mop head wiping material. In some embodiments of the invention, after the mop head is inserted into the cleaning opening, the second contact surface is abutted against the first contact surface within a partial depth range of the mop head inserted into the cleaning opening, so that the clean water opening is used for spraying water to clean the mop head wiping material intermittently. In this embodiment, the first contact surface directly abuts against the second contact surface means that the first contact surface directly abuts against the second contact surface to complete the force application action of the second contact surface against the first contact surface, and the first contact surface indirectly abuts against the second contact surface means that the first contact surface abuts against the second contact surface by means of the transmission structure to complete the force application action of the second contact surface against the first contact surface.

In some embodiments of the present invention, the first contact surface and/or the second contact surface is/are uneven, and the depth of the second contact surface against the first contact surface changes with the depth of the mop head after being inserted into the mop head for cleaning, so that the working state of the water purifying switch or the water pressing mechanism can be automatically controlled to adjust the water spraying amount of the water purifying port to the mop head wiper. In some embodiments of the present invention, at least one of the first contact surface and the second contact surface is a rolling surface, and after the mop head is inserted into the cleaning opening for cleaning, the first contact surface and the second contact surface can slide relatively, and the arrangement of the rolling surfaces can greatly reduce the friction force of the first contact surface and the second contact surface in relative sliding, so that the cleaning of the mop head is more labor-saving.

In some embodiments of the invention, the clean water outlet sprays water directly onto a mop inserted into the cleaning outlet, which is the simplest structure. In some embodiments of the invention, the cleaning mechanism further comprises a flow guide member communicated with the water purifying port, the flow guide member is provided with a nozzle aligned with the cleaning port, and purified water enters the flow guide member through the water purifying port and then is smoothly sprayed to the mop head wiping material, so that the problem that the water purifying port cannot be aligned with the mop head wiping material can be effectively solved.

In some embodiments of the present invention, the cleaning opening includes a cleaning opening body and a cleaning section connected to the cleaning opening body and used for cleaning the mop head, after the mop head is inserted into the cleaning opening, the cleaning section cleans the mop head by the cleaning section, and the cleaning section cleans the mop head by abutting against the mop head after the mop head is inserted into the cleaning opening.

In some embodiments of the present invention, the cleaning mechanism is not provided with a mop head cleaning chamber connected to the cleaning opening, and the sewage generated by cleaning the mop head through the cleaning opening automatically falls down by gravity without being accumulated in the cleaning chamber and contacting with the mop head under cleaning, so as to prevent the mop head under cleaning from being secondarily polluted. In some embodiments of the invention, the cleaning mechanism is provided with a cleaning cavity connected with the cleaning port, but a retention area for containing the mop head after cleaning to form sewage is additionally arranged in the cleaning cavity, and the retention area is not in contact with the mop head inserted into the cleaning port, so that secondary pollution of the sewage to the mop head wiping materials in cleaning can be avoided.

In some embodiments of the invention, the cleaning opening comprises a cleaning opening body and a cleaning section connected with the cleaning opening body and used for cleaning the mop head, the cleaning section is connected with the cleaning opening body through a support section, the support section is an elastic body and is rotationally connected with the cleaning section, the cleaning section has two degrees of freedom relative to the cleaning opening body when the mop head is cleaned, when the mop head is inserted into the cleaning opening, the cleaning section can be driven by a mop head wiper to rotate around the connection position of the support section and the cleaning section, meanwhile, the wiper abuts against the cleaning section, so that the cleaning section moves in the opposite direction along the elastic force of the support section, the cleaning section can clean the mop head wiper more smoothly, and the cleaning effect is more uniform.

In some embodiments of the invention, the cleaning section is connected with the cleaning opening through a supporting section, the supporting section is provided with a force-bearing end, after the mop head is inserted into the cleaning opening, the force-bearing end is abutted by the force-bearing end, so that the cleaning section is driven to move along the track on the body of the cleaning opening, the cleaning section is extended into the cleaning opening to clean the mop head to wipe, and when the mop head is pulled out of the cleaning opening, the cleaning section can automatically retract, so that the cleaning section is prevented from being exposed when the mop head is not cleaned. In some embodiments of the invention, the force-bearing end of the support section extends into the cleaning opening, and when the mop head is inserted into the cleaning opening, the two mop heads abut against the force-bearing end and urge the cleaning section to extend, thereby cleaning the wipe.

In some embodiments of the present invention, the cleaning section is a wiper blade, a brush blade, or a roller, when the cleaning section is a wiper blade, the wiper blade can be wiped to clean the wiper, when the cleaning section is a brush blade, the large-volume dirt adhered to the wiper can be removed in a labor-saving manner, and when the cleaning section is a roller, the wiper can be squeezed to clean the wiper.

In some embodiments of the invention, the cleaning section and the stressed section are detachably connected, and various existing detachable connections can be applied to the embodiments, most commonly, the cleaning section and the stressed section are mutually clamped, when the cleaning section needs to be replaced, the cleaning section is pulled out of the stressed section, and then other cleaning sections are selected for installation.

Although the water pressing piston can be pushed to press water only when the mop head is inserted into the cleaning opening, the water pressing cavity is used, the difficulty of reciprocating and cleaning the mop head at the cleaning opening is increased, and the water pressing cavity is more labor-consuming than the mop head without the water pressing cavity, therefore, in some embodiments of the invention, the cleaning mechanism further comprises a water purifying area which is communicated with the water purifying opening and contains purified water, in this embodiment, the water pressing cavity or the water pressing pump can firstly inject the purified water into the water purifying area and then supply the purified water to the water purifying opening from the water purifying area, of course, the water can be directly supplied to the water purifying opening by the water pressing cavity or the water pressing pump, and the water purifying area is only a standby purified water source of the water purifying opening.

In some embodiments of the present invention, the purified water region is located above the purified water port, and the purified water in the purified water region can automatically deliver the purified water to the purified water port only by opening a valve in the purified water switch, without providing additional power for delivering the purified water.

In some embodiments of the present invention, the water purification area may be provided separately to facilitate water collection, and in this embodiment, the water purification area is provided with a water outlet, a sealing plug for plugging the water outlet, and a movable cavity for moving the sealing plug, an elastic reset member for pushing the sealing plug toward the water outlet is provided in the movable cavity, the water purification area is provided with a port for penetrating through the water outlet and pushing open the sealing plug, and the movable cavity is provided with an opening for communicating the water purification area with the water outlet. When the water purification district is carried away from retaining, elasticity resets the piece and supports the sealing plug to the apopore direction so that plug the apopore, prevents to spill from the apopore to the water that the water purification district poured into, when water purification district communicates with the water purification mouth again, the sealing plug is backed down to the interface, and the water purification in the water purification district flows to the water purification mouth through activity chamber opening and interface.

In some embodiments of the present invention, the cleaning mechanism further includes a dewatering opening for inserting the mop head into the dewatering opening for dewatering, and after the cleaning mechanism has cleaned the mop head, the mop head can be inserted into the dewatering opening for dewatering.

The cleaning mechanism comprises a cleaning mechanism, a cleaning mechanism and a mop head cleaning barrel, wherein the cleaning mechanism is arranged in the cleaning mechanism, the cleaning mechanism is arranged on the cleaning barrel in a detachable mode, the cleaning mechanism is arranged in the cleaning mechanism, the cleaning barrel is further provided with a barrel body, the barrel body is provided with a mop head abutting piece and a sewage retention area for temporarily retaining sewage generated after the cleaning of the mop head, and the abutting piece prevents the mop head from entering the sewage retention area in the process of inserting the mop head into a cleaning opening for cleaning, so that the mop head can not be contacted with the generated sewage in the cleaning process, and secondary pollution in the cleaning process of the mop head can be avoided.

Example 1

The utility model provides a mop head cleaning barrel, its washing that is used for dull and stereotyped mop head 5, includes staving 6 and fixes wiper mechanism 8 on staving 6, wiper mechanism 8 is including supplying the mop head to make a round trip abluent washing mouth 9 and spout the water purification mouth of water to mop head 5, and the washing mouth is including fixing the washing mouth body 9 on wiper mechanism 8 and being connected and carrying out abluent doctor-bar 11 to mop head 5 with washing mouth body 9.

In this embodiment, the cleaning mechanism 8 is further provided with a dewatering opening 10, so that the mop head 5 can be inserted into the dewatering opening 10 for dewatering after cleaning. Of course, the dewatering operation can also be performed by the cleaning opening, for example, the clean water opening is controlled not to spray water to the cleaning opening, and then the cleaning opening is changed into the dewatering opening.

In this embodiment, the water purification transportation route that is located between clean mouth of a river and the washing mouth has been set up on wiper mechanism 8, this route includes transport pipe 2 and guide plate 4, 2 one end of transport pipe is clean mouth of a river and is equipped with opening 3, water purification in opening 3 is accepted to guide plate 4, and finally spray clean water to in the washing mouth and spill on mop head 5 wiper, along with mop head 5 make a round trip to move back and forth in the washing mouth, doctor-bar 11 is to dragging 5 wipers and wasing repeatedly, make the water purification turn into sewage, the sewage of production falls along doctor-bar 11 nature.

Cleaning mechanism 8 does not set up the abluent washing chamber of confession mop head 5, and the sewage accessible gravity that produces when mop head 5 washs separates automatically with mop head 5, and can not cause secondary pollution mop head 5, of course, technical staff in the art can set up the washing chamber too, for example in this embodiment, the washing chamber is more huge staving 6, and staving 6 bottom sets up and keeps off platform 7, prevents that mop head 5 from continuing to go deep into in the washing mouth when wasing, keeps off platform 7 below for the sewage detention district for hold the sewage that produces when mop head 5 washs, sewage can't contact with mop head 5 because of the separation of keeping off platform 7, thereby can prevent that sewage from receiving secondary pollution when mop head 5 washs.

Example 2

The embodiment is an improvement of embodiment 1, that is, a water purification switch for opening or closing a water purification port is additionally arranged on a cleaning mechanism, the water purification switch comprises a valve 15, one end of the valve 15 close to a conveying pipe 2 is a closed end 14 for sealing and plugging the water purification port, the other end of the valve 15 is connected with a spring 16, the valve 15 further comprises an L-shaped abutting block, a first contact surface 13 is arranged at the tail end of the L-shaped abutting block, two sides of a mop head 5 are provided with second contact surfaces 12 which abut against the first contact surfaces 13 when the mop head 5 is inserted into the cleaning port for cleaning, after the second contact surfaces 12 abut against the first contact surfaces 13, the whole valve 15 is pushed to move towards the compression direction of the spring 16, so that the closed end 14 is separated from the water purification port, at this time, the water purification port is opened, purified water can enter the conveying pipe 2 through the water purification port, and when the cleaning port of the mop head 5 is pulled out, the second contact surfaces 12 do not abut against the first contact surfaces 13 any more, the spring 16 moves the valve 15 back so that the closed end 14 re-plugs the clean water gap.

For this embodiment, once the mop head 5 is inserted into the cleaning opening with the second contact surface 12 against the first contact surface 13, it is always ensured that the mop head 5 is continuously supplied with clean water during the cleaning of the cleaning opening, but, as a modification to this embodiment, the second contact surface 12 is uneven, thus, the depth of the second contact surface 12 to the first contact surface 13 will be different according to the position of the first contact surface 13 to the second contact surface 12, so that the opening degree of the water purifying nozzle can be automatically controlled to adjust the water spraying size of the water purifying nozzle, and a special example is, when part of the second abutment surface 12 abuts against the first abutment surface 13, the closed end 14 fully opens the clean water port, the closed end 14 completely closes the clean water opening when another part of the second contact surface 12 is located against the first contact surface 13, whereby a person skilled in the art can design a cleaning program for a flat mop head by changing the shape of the second contact surface 12.

Example 3

This embodiment is an improvement of the valve in embodiment 2, the improved valve 17 has a first contact surface 20, a closed end 19 with a silicone sealing ring, and a spring 18, the first contact surface 20 is a roller surface and can be in rolling contact with the second contact surface 12, so as to greatly reduce the force required by the mop head 5 to shuttle back and forth between the cleaning openings for cleaning.

Example 4

The cleaning mechanism shown in embodiments 1 to 3 has two independent structures of a wiper blade and a valve, while the cleaning mechanism shown in this embodiment includes a water purifying switch for closing or opening a water purifying opening 25, a wiper blade 24 and a water purifying area 22, the wiper blade 24 is a valve in the water purifying switch, one end of the wiper blade 24 is connected to a spring 23, and the other end is a first contact surface 26, in this embodiment, a water purifying transportation path is not provided, and a mop head abuts against the first contact surface 26 in the wiper blade 24, so that the entire wiper blade 24 moves in a direction in which the spring 23 is compressed, thereby opening the water purifying opening 25, and spraying water to a part for cleaning a mop head wiper at the wiper blade 24, thereby a valve is not required to be additionally provided, and the structure of the cleaning mechanism is simpler and more effective.

Example 5

This embodiment is substantially the same as embodiment 4, except that the structure of the blade, the blade 27 includes a first contact surface 32, a support end connected to the torsion spring 28, and a closed end 30, after the mop head is inserted into the cleaning opening, a second contact surface (i.e. the wiping surface) on the mop head abuts against the first contact surface 32, as the mop head is further inserted into the cleaning opening, the blade 27 rotates along the support end against the torsion spring 28, so that the closed end 30 opens the water purifying opening 29, the clean water from the water purifying area 31 to the water purifying opening 29 is directly sprayed onto the mop head wiper along the blade 27, and the wiper is simultaneously wiped and cleaned, so that no additional valve is needed, the structure of the cleaning mechanism is simpler and more effective, when the mop head moves in the direction of pulling out the cleaning opening, the blade 27 rotates upward along with the mop head, and finally the closed end 30 closes the water purifying opening 29, therefore, in this embodiment, when the mop head is inserted downwards into the cleaning opening, the water purifying opening sprays water to the mop head, and when the mop head moves towards the pulling-out direction, the water purifying opening does not spray water to the mop head any more.

Example 6

This embodiment is substantially the same as embodiment 5, except that a support end of the wiper 33 is located at one end of the wiper 33 and connected to the torsion spring 34, and a closed end 35 is located at the middle of the wiper 33.

Example 7

The cleaning mechanism in embodiment 1 is improved by the embodiment, and comprises a cleaning opening 36 for the mop head to shuttle back and forth for cleaning and a dewatering opening 37 for dewatering the mop head, a middle sleeve 38 is sleeved outside the cleaning opening 36, a water purification switch for opening or closing a water purification opening is additionally arranged on the cleaning mechanism, the water purification switch comprises a valve, one end of the valve close to a conveying pipe 41 is a closed end 40, the other end of the valve is connected with a spring 39, the valve further comprises a resisting block provided with a first contact surface 42, when the mop head is inserted into the cleaning opening, a second contact surface arranged on the mop head can resist the cleaning opening and expand the cleaning opening so as to resist a transmission surface 43 arranged on the middle sleeve 38, and then the transmission surface 43 drives the tail end of the middle sleeve 38 to resist the first contact surface, and finally the water purification opening is opened.

Example 8

The utility model provides a mop head wiper mechanism, it is including supplying dull and stereotyped mop head male cleaning mouth, water purification district 49, water pump 47, be equipped with doctor-bar 44 in the cleaning mouth, a wiper for to dull and stereotyped mop head is scraped and is washd, water pump 47 communicates water purification district 49 through inlet tube 48, and discharge the water purification through outlet pipe 46, outlet pipe 46 is terminal for the water purification mouth towards mop head injection water purification, when dull and stereotyped mop head inserts the cleaning mouth and washs, water pump 47 can be opened, thereby it is clean to the mop head injection water in the water purification mouth, the sewage that obtains after the mop head washs flows into the detention district 50 of cleaning chamber bottom and does not contact with the mop head in the cleaning process, in order to prevent secondary pollution.

Example 9

The present embodiment is substantially the same as embodiment 8, and is different in that it includes a water pressing cavity 55, a water pressing piston 56 and a return spring 58 are disposed in the water pressing cavity 55, one end of the water pressing cavity 55 is communicated with the water purifying area 54 through a water inlet pipe 59, the other end is a water outlet pipe 53, the end of the water outlet pipe 53 is a water purifying port 60 for spraying water to the mop head, the mop head is inserted into the cleaning port, so that the wiper blade 52 wipes the mop head, and as the insertion depth increases, the bottom of the mop head can abut against the water pressing piston 56 and push the water pressing piston 56 to press downwards, so that purified water is sprayed from the water purifying area 54 to the wiper of the mop head through the water pressing cavity 55 and the water purifying port 60, as a preferred option, the water inlet pipe 59 is a one-way pipe leading from the water purifying area 54 to the water pressing cavity 55, and as a preferred option, the water outlet pipe 53 is a one-way pipe leading from the water pressing cavity 55 to the water purifying port 60, so as to prevent the purified water from flowing backwards.

As a modification of this embodiment, the mop is engaged with the water pressing piston 56 during cleaning, which can eliminate the spring 58 and ensure the normal operation of the water holding chamber 55.

Example 10

This embodiment is substantially the same as embodiment 9, except that the water purifying region 54 is not provided, so that the water pressing chamber 55 can only obtain purified water from an external purified water source, since this embodiment has no purified water storage structure, if it is necessary to spray purified water to the mop head, that is, the mop head is inserted into the cleaning opening, the water pressing chamber 55 can work normally (i.e., send water to the purified water opening 60), and when the mop head is pulled out from the cleaning opening, it is not necessary to spray purified water to the mop head, and at this time, the water pressing chamber 55 is in an idle state.

Example 11

The present embodiment is substantially the same as embodiment 8, and the difference is that the present embodiment is additionally provided with an induction control mechanism, the mechanism comprises an induction end and a control unit for connecting the induction end with the water pump, the mop head is induced by the induction end after being inserted into the cleaning opening, so that the water pump can be started to work, and when the mop head is pulled out from the cleaning opening, the mop head cannot be induced by the induction end, and the water pump naturally stops working. Any signal that can be used for sensing can be applied to the present embodiment, such as infrared, and the like.

Example 12

The embodiment is further described in embodiment 1, the cleaning mechanism in embodiment 1 is further provided with a water purifying area 1, the water purifying area 1 is communicated with the conveying pipe 2 through a water purifying port, and the water purifying area 1 is located above the water purifying port, so that purified water can automatically flow into the water purifying port from the water purifying area 1 without applying additional force to the purified water.

Example 13

The embodiment is an improvement of embodiment 1, and the improvement is mainly to improve a water purification area, a water outlet 56 is arranged on a bottom plate 57 of the water purification area, a movable cavity 60 is arranged on the water outlet 56 of the water purification area, a sealing plug 52 is arranged in the movable cavity 60, the sealing plug 52 is connected with the top of the movable cavity 60 through a spring 53, the spring 53 pushes the sealing plug 52 towards the water outlet 56, so that the sealing plug 52 can seal the water outlet 56 in a natural state, the water purification area is provided with a connector 58 which penetrates through the water outlet 56 and pushes open the sealing plug 52, the connector 58 is provided with a first communication port 61, the movable cavity 60 is provided with a second communication port 59, after the connector 58 pushes open the sealing plug 52, purified water in the water purification area can be delivered to the water purification area through the second communication port 59 and the first communication port 61, and when the connector 58 is pulled out from the water outlet 56, the sealing plug 52 can automatically seal the water outlet 56 under the action of the spring 53, therefore, when the water quantity in the water purification area is insufficient, the water purification area can be lifted to the outside for adding water, and the whole cleaning mechanism does not need to be moved to the outside for adding water.

Example 14

The cleaning mechanism of the invention can use any type of blade to scrape and clean mop head wiping materials, and the embodiment provides a scraping and cleaning mechanism, the mechanism comprises a scraping blade 63 and a supporting section for supporting the scraping blade 63, wherein the supporting section has elasticity and specifically comprises a first supporting section 65 and a second supporting section 66 for connecting the first supporting section 65 and the scraping blade 63, the scraping blade 63 can rotate around the first supporting section 65 along with the second supporting section 66, while the first and second supporting sections 66 and 65 provide the wiper blade 63 with an elastic force opposite to the pressing force when the wiper blade 63 is pressed, therefore, the scraping blade 63 has one more degree of freedom compared with the common scraping blade, so that the scraping of the scraping blade 63 on the mop head wiping object is smoother, the scraping force is more uniform, and the excessive rotation of the scraping blade 63 in the cleaning process can be blocked by the stop block 67 arranged on the cleaning mechanism.

Example 15

The embodiment provides another scraping and cleaning mechanism, which comprises a scraping blade 69 and a force-bearing section for supporting the scraping blade 69 on the cleaning mechanism, wherein the force-bearing section comprises a first movable section 72 and a second movable section 73 rotationally connected with the first movable section 72, the second movable section 73 is connected with the scraping blade 68 through a rotation node 70, the cleaning mechanism is provided with a track for the movement of the rotation node 70, the orientation of the first movable section 72 against one side of a mop head wiping object is consistent with the orientation of one end of the mop head cleaned by the scraping blade 68, one end of the first movable section 72 extends into a cleaning opening 68, after the mop head is inserted into the cleaning opening 68, the mop head can abut against the first movable section 72, so that the first movable section 72 can drive the second movable section 73, and finally the scraping blade 69 extends into the cleaning opening 68 along the track through the rotation node 70 to scrape and clean the mop head wiping object, excessive rotation of the blade 69 during cleaning is stopped by a stop 71 provided on the cleaning mechanism, and after the mop head is pulled out of the cleaning opening 68, the first movable section 72 loses its hold of the mop head and automatically resets by gravity, so that the blade can be automatically retracted.

Example 16

The embodiment provides another scraping and cleaning mechanism, which comprises a scraping blade 80, a supporting section 83 and a rotating mechanism, wherein the rotating mechanism comprises a rotating head 82 connected with the supporting section 83 and a rotating sleeve 81 partially sleeved on the rotating head 82 and connected with the scraping blade 80, an opening of one side of the rotating sleeve 81, into which the rotating head 82 is inserted, is provided with a resisting surface 84 which resists against the rotating head 82 and prevents the rotating head 82 from rotating relative to the rotating sleeve 81, the supporting section 83 has elasticity, and the scraping blade 80 can deform when scraping on a mop head wiping object, so that the scraping blade 80 can provide elasticity for the scraping blade 80. The scraping blade 80 of the scraping and cleaning mechanism can be detached from the supporting section 83, so that the scraping blade 80 and other cleaning sections can be replaced conveniently, the rotation range of the scraping blade 80 is limited due to the arrangement of the resisting surface 84, a structure for limiting the rotation of the scraping blade 80 does not need to be additionally arranged, and the design and manufacturing cost is greatly reduced.

In this embodiment, a diversion rib 85 is further disposed on the scraping blade, so that the scraping and cleaning mechanism can also be directly used as a diversion member communicated with the water purifying port.

Claims (16)

1. The utility model provides a mop head wiper mechanism, is including supplying the mop head abluent washing mouth that shuttles back and forth, its characterized in that be equipped with the cleaning member who washs the mop head in the washing mouth, cleaning member includes the atress section and the washing section of being connected with the atress section, the washing mouth is equipped with and supplies the gliding slip track of washing section, the mop head is equipped with the application of force end that supports the atress section, when the mop head inserts the washing mouth, the application of force end supports the atress section and promotes the washing section and moves to mop head wiper direction along the slip track, the atress section is including supporting the atress face of application of force end and transferring the atress face to the atress section body of washing section, the orientation of atress face is unanimous with the orientation that washing section washd mop head one end, the washing section is doctor-bar, brush piece or running roller.

2. The cleaning mechanism of claim 1 wherein said force bearing surface is a rolling surface.

3. The cleaning mechanism according to claim 1 or 2, wherein the cleaning mechanism comprises a clean water port for spraying clean water to the mop head, the cleaning mechanism further comprises a clean water switch for closing or opening the clean water port or a water pressing mechanism communicated with the clean water port, the clean water switch is provided with a valve and a first action end, the water pressing mechanism is provided with a first action end, the mop is provided with a second action end opposite to the first action end, when the mop head is inserted into the cleaning port, the second action end is directly or indirectly connected with the first action end or the first action end receives a sensing signal of the second action end, and the working state of the clean water switch or the water pressing mechanism at least comprises: fully open, fully closed and some operating conditions in between.

4. The cleaning mechanism of claim 3 wherein said first active end is disposed on the cleaning member.

5. The cleaning mechanism of claim 3 wherein the first active end defines a first contact surface and the second active end defines a second contact surface directly or indirectly against the first contact surface, the second contact surface abutting the first contact surface at least a portion of the depth of insertion of the mop head into the cleaning opening after insertion of the mop head into the cleaning opening.

6. The cleaning mechanism of claim 5 wherein said first contact surface and/or said second contact surface are uneven.

7. The cleaning mechanism of claim 5 wherein at least one of said first contact surface and said second contact surface is a rolling surface.

8. The cleaning mechanism according to claim 3, wherein the water pressurizing mechanism is a water pressurizing pump or a water pressurizing chamber, a reciprocating water pressurizing piston is disposed in the water pressurizing chamber, and the first action end is disposed on the water pressurizing piston.

9. The cleaning mechanism of claim 8, wherein the pumping chamber is in communication with the clean water port via a one-way passage.

10. The cleaning mechanism according to claim 8, wherein the pumping chamber further comprises a resilient return member connected to the pumping piston, and the second end of the pumping chamber comprises a stop surface for abutting the first end of the pumping piston and moving the pumping piston in the direction of the resilient return member.

11. The cleaning mechanism of claim 3 further comprising a clean water zone in communication with the clean water port and containing clean water.

12. The cleaning mechanism according to claim 11, wherein the water purification area is provided with a water outlet hole, a sealing plug for sealing the water outlet hole, and a movable cavity for moving the sealing plug, the movable cavity is provided with an elastic reset member for pushing the sealing plug towards the water outlet hole, the water purification hole is provided with a port for penetrating through the water outlet hole and pushing the sealing plug open, and the movable cavity is provided with an opening for communicating the water purification area with the water outlet hole.

13. The cleaning mechanism of claim 11 wherein said clean water zone is disposed above a clean water port.

14. The cleaning mechanism of claim 3, further comprising a flow guide in communication with the clean water port, the flow guide being a cleaning section.

15. The cleaning mechanism of claim 3, further comprising a dewatering opening for inserting the mop head into the dewatering opening.

16. A mop head cleaning barrel comprises a barrel body and the cleaning mechanism of claim 1 or 2 arranged on the barrel body, wherein the barrel body is provided with a mop head supporting piece and a sewage retention area for temporarily retaining sewage after the mop head is cleaned, and the supporting piece prevents the mop head from entering the sewage retention area in the cleaning process of inserting the mop head into a cleaning opening.

Images