JP6941156B2 - Mop cleaning, dehydration method, cleaning tools and elevating positioning mechanism - Google Patents

Description

The present invention relates to a method for cleaning and dehydrating a mop, and more particularly to a cleaning tool that does not immerse the mop head in water during cleaning, and an elevating positioning mechanism used for cleaning and dehydrating a cleaning basket.

In the prior art, a method of elevating and lowering cleaning and centrifugal dehydration when using a certain mop is used, and patent numbers 201220554330.2, 201420251779. Chinese patents such as X, 2012206689333.4, 201320708928.6, 201420118962.2 are cleaning tools using such a method, the cleaning tools generally include a mop and a mop bucket; the mops fit together. A drive mechanism capable of converting the pressing motion of the upper handle into the rotational motion of the lower handle is provided between the upper handle and the lower handle, including the upper handle and the lower handle, and rotates at the lower end of the lower handle. A possible mop head is provided; an elevating mechanism is provided in the mop bucket to raise and position the elevating mechanism by pulling up the mop during cleaning, placing the mop head in a low cleaning position for rotary cleaning, and dehydrating. After allowing it to rotate, dehydrate at the dehydration position.

In the conventional method of cleaning and dehydrating the mop, the cleaning operation and the dehydrating operation are two separate steps, and after cleaning the wiping member on the mop head, the mop is pulled up and positioned. Since it is necessary to perform the operation step and then dehydrate, there is a drawback that the operation is troublesome as a whole.

When cleaning a conventional cleaning tool, the mop head must be immersed in water for cleaning, and due to the resistance action of water during cleaning, the cleaning operation is very troublesome and the water is easily splashed.

In the prior art, a method of elevating and lowering cleaning and centrifugal dehydration when using a certain mop is used, and patent numbers 201220554330.2, 201420251779. Chinese patents such as X, 2012206689333.4, 201320708928.6, 201420118962.2 are cleaning tools using such a method, the cleaning tools generally include a mop and a mop bucket; the mops fit together. A drive mechanism capable of converting the pressing motion of the upper handle into the rotational motion of the lower handle is provided between the upper handle and the lower handle, including the upper handle and the lower handle, and rotates at the lower end of the lower handle. A possible mop head is provided; an elevating mechanism is provided in the mop bucket to raise and position the elevating mechanism by pulling up the mop during cleaning, placing the mop head in a low cleaning position for rotary cleaning, and dehydrating. After allowing it to rotate, dehydrate at the dehydration position.

The conventional elevating and lowering positioning mechanism of such a cleaning basket uses the form of a positioning guide rail groove, and includes a positioning portion at a high position and a positioning portion at a low position of the positioning guide rail groove, and a high position through the positioning portion at a high position. By fixing to, the mop head is dehydrated to a high position, and by fixing to a low position through a positioning portion at a low position, the mop head is washed at a low position. Further, the elevating and lowering positioning mechanism of the washing basket has a drawback that it cannot be automatically dropped after dehydration is completed at a high position.

The present invention provides a mop washing and dehydrating method that is easier to operate in order to overcome the above-mentioned deficiencies of the conventional mop washing and dehydrating methods.

A technical solution for solving the above technical problem of the present invention is a method for cleaning and dehydrating a mop, wherein the mop includes a mop handle and a mop head, and a wiping member is provided on the mop head. Cleaning and dehydration of the wiping member is performed in the mop bucket, and the support head is mounted in the mop bucket. After a step of detachably connecting to the head for cleaning and a set cleaning time, the support head is automatically raised to the upper dehydration region, and the mop head is also raised to the upper dehydration region along with the support head. It includes a step of dehydration and a step of the mop head detaching from the support head and the support head automatically lowering and returning to the original position after the dehydration is completed.

Further, the mop head is rotatably connected to the mop handle, and during cleaning, the mop head is supported by the support head in the lower cleaning area and is rotated and washed at the same time as the support head; during dehydration, the mop head is cleaned. Is supported by the support head in the upper dehydration region and rotates at the same time as the support head to be dehydrated.

Further, a power conversion mechanism is provided in the mop bucket, the support head is connected to the power conversion mechanism, the rotating mop head rotates the support head during cleaning, and the support head rotates the support head, and the support head converts the power. By acting on the mechanism, the power conversion mechanism drives the ascent of the support head; after cleaning and dehydrating the mop head, the power conversion mechanism is detached from the support head, and the support head and the power conversion mechanism are automatically operated. It descends and returns to its original position.

Further, the power conversion mechanism includes a central shaft, the support head is fitted on the central shaft, a cam is further fitted on the central shaft, the cam is connected to the support head, and is mounted on the wall surface of the cam. A cam groove is provided;
An elevating cylinder is fitted onto the cam, a guide protrusion is provided on the inner wall of the elevating cylinder, and the guide protrusion is inserted into the cam groove;
An upper elevating assembly is provided in the elevating cylinder to be connected to the elevating cylinder, a lower elevating assembly is provided below the upper elevating assembly, and the lower elevating assembly is connected to the cam through the connecting assembly;
At the time of cleaning, the upper elevating assembly can be gradually raised in one direction with the elevating cylinder, the lower elevating assembly can be gradually raised in one direction with the cam, and the upper elevating assembly and the lower elevating assembly are sequentially raised. Alternately ascends and the upper elevating assembly rises before the lower elevating assembly;
The mop head is detached from the support head after cleaning and dehydration, and the support head, the elevating cylinder, the cam, the upper elevating assembly, the connecting assembly, and the lower elevating assembly are automatically lowered and returned to their original positions.

Further, a fixing ratchet piece is further provided on the outer side of the elevating cylinder, and a ratchet dentition is provided on the ratchet piece;
The upper elevating assembly includes an upper accommodating device that connects to the elevating cylinder, and an upper ratchet assembly that separates or approaches the ratchet piece is provided in the upper accommodating device, and an upper ratchet is attached to a tip portion of the upper ratchet assembly. The upper ratchet can be inserted into the ratchet dentition, and after the upper ratchet is inserted into the ratchet dentition, the ratchet dentition only allows the upper ratchet assembly to rise. Do not allow the upper ratchet assembly to descend;
The lower elevating assembly includes a lower housing and a lower housing device connected within the lower housing, and the lower ratchet assembly is provided in the lower housing device with a lower ratchet assembly away from or close to the ratchet piece. Has a lower ratchet at the tip of the ratchet, the lower ratchet can be inserted into the ratchet dentition, and after the lower ratchet is inserted into the ratchet dentition, the ratchet dentition is the lower ratchet assembly. Allows only the rise of the lower ratchet assembly and does not allow the lower ratchet assembly to fall;
An ejector block is further provided on the central axis, an upward urging elastic body is stretched at the lower end of the ejector block, an upper end of the upward urging elastic body is stretched by the ejector block, and a lower end of the upward urging elastic body is stretched. Is stretched over the lower housing;
When the central axis is in the free state, the tail end of the upper ratchet assembly and the tail end of the lower ratchet assembly are not stretched by the ejector block; during cleaning, the mop head presses the central axis and the ejector The block pushes the upper and lower ratchet assemblies outward to insert the upper and lower ratchets into the ratchet dentition.

Further, the upper ratchet assembly includes an upper moving member located in the upper accommodating device, and an upper inward urging elastic body for urging the upper moving member inward is provided in the upper accommodating device; An upper ratchet block is provided in the upper moving member, and the upper ratchet is provided at the outer end of the upper ratchet block, and the upper ratchet block is externally urged in the upper moving member. A ratchet is provided;
The lower ratchet assembly includes a lower moving member located in the lower accommodating device, and a lower inward urging elastic body for inwardly urging the lower moving member is provided in the lower accommodating device; A lower ratchet block is provided in the moving member, and the lower ratchet is provided at the outer end of the lower ratchet block, and the lower outer ratchet block is urged outward in the lower moving member. The body is provided.

Further, the connecting assembly includes a connecting sleeve that fits on the central axis so that the connecting sleeve and the cam can rotate relative to each other, the ejector block is located in the connecting sleeve, and the lower ratchet assembly. The lower moving member is thrust into the connecting sleeve.

As another structural type of power conversion mechanism, the power conversion mechanism includes a central elastic shaft into which the support head fits within the central elastic shaft;
A follow-up frame is consolidated to the support head, a thread block that elastically expands and contracts is provided in the follow-up frame, a thread head is provided in the thread block, and a return elastic body is fitted in the central elastic shaft;
A thread jacket is provided on the outside of the support head and the extension portion under the support head, and an internal thread is provided on the thread jacket;
When the mop head is pressed, the central elastic shaft is pressed, and the thread block is projected through the central elastic shaft, so that the thread head on the thread block and the internal thread are fitted and the rotating support head. Rotates the follow-up frame and the thread block in the follow-up frame, and the rotating thread block rises by the thread action to raise the support head and the central elastic axis, and when the mop head is in the lower cleaning area. Rotate and wash, and when the mop head rises to the upper dehydration area, rotate and dehydrate;
After the dehydration is completed, the mop head is separated from the support head, the central elastic axis is raised under the action of the return elastic body, and the thread block is pulled in, so that the thread head on the thread block is internally threaded. The support head, the central elastic shaft, and the follow-up frame are automatically dropped.

Further, the follow-up frame is provided in the elevating mechanism, and the support head is provided at the upper end of the elevating mechanism.

Further, the tail end of the thread block is provided with an inclined surface that inclines outward, and the lower end of the central axis is in contact with the inclined surface, and when the central axis is pressed, the action of the inclined surface causes the said. The thread block sticks out;
An internal contractile elastic body is further provided in the follow-up frame, and the thread block is pulled inward into the follow-up frame under the action of the internal contractile elastic body.

As another concrete realized structure in which the mop head cleans in the lower cleaning area and dehydrates in the upper dehydration area, the support head is connected to an elastic elevating mechanism and is provided at the upper end of the elastic elevating mechanism, and the support head and the elastic The elevating mechanism moves up and down at the same time, and a guide mechanism that fits into the elastic elevating mechanism is provided in the mop bucket;
At the time of cleaning, the elastic elevating mechanism and the guide mechanism are fitted, the support head and the elastic elevating mechanism are restricted to a low position, and the mop head supported on the support head is located in the lower cleaning area;
After washing, the elastic elevating mechanism rises under the action of its own elastic force, and at this time, the elastic elevating mechanism and the guide mechanism are fitted, and the support head and the elastic elevating mechanism are restricted to high positions. , The mop head supported on the support head is located in the upper dehydration area.

Further, the elastic elevating mechanism includes an elevating frame and an elastic body, the support head is connected to the elevating frame, a guide protrusion is provided on the elevating frame, and the elastic body urges the elevating frame. Move the elevating frame upwards;
The guide mechanism includes a rotary guide cylinder rotatably provided in the mop bucket, a guide groove is provided on the inner wall of the rotary guide cylinder, and the guide protrusion is located in the guide groove; the guide groove. Includes a cleaning groove and a centrifugal dehydration groove communicating with the cleaning groove, the cleaning groove is in a low position, and the centrifugal dehydration groove is in a high position;
A continuous upper tooth profile positioning groove is provided on the upper side surface of the cleaning groove, a continuous lower tooth profile positioning groove is provided on the lower surface surface of the cleaning groove, the upper tooth profile positioning groove is provided with an upper slope, and the lower tooth profile positioning groove is provided. Is provided with a lower slope, and during cleaning, the guide protrusion is located in the cleaning groove, and when the mop handle is pressed, the mop head is pressed, so that the support head and the elevating frame are pressed, and the elevating / lowering frame is pressed. A guide protrusion on the frame is pressed against the tooth profile subpositioning groove along the lower slope; when the mop handle is pulled upwards, the elevating frame and support head are moved up under the action of the elastic body, said. The guide protrusion on the elevating frame is moved upward along the upper slope into the dentate positioning groove, so that the mop head is rotated and cleaned in the lower cleaning area;
The centrifugal dehydration groove includes a front communication groove, a rear communication groove, and a reciprocating centrifugal dehydration groove located between the front communication groove and the rear communication groove, and the front communication groove is a front cleaning groove. The rear communication groove communicates with the lower tooth profile positioning groove at the end, the rear communication groove communicates with the lower tooth profile positioning groove at the front end of the rear cleaning groove, and the reciprocating centrifugal dehydration groove is the upper part of the front communication groove and the upper part of the rear communication groove. And a centrifugal dehydration support is provided at the lower end of the reciprocating centrifugal dehydration groove;
When the mop handle is continuously pressed and pulled upward, the guide protrusion moves into the subdentate positioning groove at the end of the cleaning groove in front of the centrifugal dehydration groove, and then moves up and down under the elastic force of the elastic body. The frame is moved up, the guide protrusions on the elevating frame move up to the front communication groove, and after pressing the mop handle, the guide protrusions support the centrifugal dehydration support; again the mop handle. When continuously pressed and pulled upwards, the guide protrusions on the elevating frame reciprocate up and down in the reciprocating centrifugal dehydration groove, thereby rotating and dehydrating the mop head in the upper dehydration region;
After the dehydration is completed, the mop is pulled up to raise the support head and the elevating frame until the guide protrusion on the elevating frame abuts on the upper end of the reciprocating centrifugal dehydration groove, and the mop is further pulled up to separate the mop head from the support head. Then, the support head and the elevating frame are dropped into the tooth profile lower positioning groove at the front end of the rear cleaning groove along the rear communication groove.

Further, the support head can be rotated, and the rotation guide cylinder is rotatably provided in the mop bucket.

Further, active clutch teeth are provided at the lower end of the support head, passive clutch teeth are provided on the rotary guide cylinder, and when the support head is pressed, the active clutch teeth come into contact with the passive clutch teeth. , The rotation guide cylinder is rotated by the rotation of the support head.

Further, the water guide cylinder is fitted onto the rotation guide cylinder, and the water guide cylinder is connected to the rotation guide cylinder.

Further, blades are provided in the water bottle.

Further, a cleaning board capable of generating friction with the wiping member on the mop head during cleaning is provided at the upper end of the water bottle.

As another embodiment of the rotation of the mop head, the mop handle is an electric mop handle, an electric drive mechanism is provided in the electric mop handle, and the electric drive mechanism drives the rotation of the mop handle connected to the mop head. do.

As an advantageous effect of the present invention, the mop head is automatically raised after washing, and it is not necessary to manually pull the mop to a high position to dehydrate after washing, and the washing and dehydrating operations of the present invention are integrated. It is very convenient to operate.

In order to overcome the above-mentioned shortage of the conventional mop bucket, the present invention provides a mop bucket that does not require the mop head to be immersed in water during cleaning.

A technical solution for solving the above technical problem of the present invention is a cleaning tool that does not immerse the mop head in water during cleaning, including a mop bucket and a mop, wherein the mop is a mop handle and the mop handle. A support member for supporting the mop head and a water pumping device for sucking water into the mop head portion supported on the support member and cleaning the mop head are provided in the mop bucket. ..

Further, the mop head can rotate, and during cleaning, the pumping device is driven by the power provided by the mop head.

Further, the support member is provided in the mop bucket and includes a rotatable support head for connecting to the mop head, the mop head rotates the support head; the pumping device is rotating. It is driven by providing power from the support head.

Further, a rotating device capable of rotating in the mop bucket is further provided, and the rotating device is located below the support head and rotates by being driven by the support head; the rotating device rotates in a headrace. When the rotating device is rotated, the water in the mop bucket is ejected upward via the headrace.

Further, the rotating device includes a rotating inner cylinder, a rotating outer cylinder that outerly fits the rotating inner cylinder and is connected to the rotating inner cylinder, and the headrace between the rotating inner cylinder and the rotating outer cylinder. To form.

Further, an active clutch tooth is provided at the lower end of the support head, a passive clutch tooth is provided on the rotating device, and the active clutch tooth can come into contact with the passive clutch tooth, so that the rotation of the support head causes the rotation. Rotate the device.

Further, a lower sandwich layer is provided at the lower part of the rotating outer cylinder, the lower sandwich layer communicates with the headrace, and the lower part of the rotating inner cylinder is connected between the inner walls of the lower sandwich layer.

Further, blades are provided in the headrace.

Further, blades are provided in the lower sandwich layer.

Alternatively, the mop bucket includes a clean water bucket for storing clean water and a washing basket located in the clean water bucket; a water pump is provided in the clean water bucket, and the water pumping device pumps clean water. It sucks up to the inside of the washing basket, and the support head is located in the washing basket.

Further, by connecting the pumping device and the support head through a transmission mechanism, the pumping device is driven by the transmission mechanism.

Further, the water pumping device is an impeller pump, and includes a drive gear in which the transmission mechanism is connected to a support head and a driven gear in which the transmission mechanism is connected to an impeller of the impeller pump, and the drive gear can mesh with the driven gear.

Further, a central shaft through which the cleaning basket is inserted is provided on the bottom surface of the clean water bucket, the support head is provided at the upper end of the central shaft, and the driving gear is fitted on the central shaft.

Further, an upper positioning portion and a lower positioning portion are provided on the center pole, and the driving gear can be positioned on the upper positioning portion and the lower positioning portion; when the driving gear is positioned on the upper positioning portion, the above-mentioned When the drive gear and the driven gear are separated and the drive gear is positioned on the lower positioning portion, the drive gear and the driven gear mesh with each other.

Further, an overfiltration device for filtering the washing sewage is further provided in the mop bucket.

As an advantageous effect of the present invention, during cleaning, water is sucked up to the cleaning portion through a water pumping device for cleaning, and the mop head is supported by a support member, so that the mop head is not immersed in water during cleaning. It saves labor for cleaning and basically does not splash water.

In order to overcome the above-mentioned deficiency of the conventional elevating and lowering positioning mechanism used for cleaning and dehydrating the washing basket, the present invention provides an elevating and lowering positioning mechanism that can be automatically dropped and is used for cleaning and dehydrating the washing basket.

A technical solution for solving the above technical problem of the present invention is an elevating and lowering positioning mechanism used for cleaning and dehydrating a cleaning basket, including a support head for connecting to a mop head, and the inside of the support head. A center pole is pierced, an elastic recovery device is provided on the center pole, the support head is connected to a positioning device through a coupling device, the center pole moves up and down with the positioning device, and the positioning device is provided with an elastic restoration device. Re;
When the center pole is pressed by an external force, the positioning device projects radially outward in the pressing action of the center pole; the center pole rises under the action of the elastic recovery device when there is no action of the external force. When the positioning device retracts in the radial direction under the action of the elastic restoration device.

Further, the positioning device is provided with a slope, and when the center pole is pressed, a pressing force is applied on the slope to push the positioning device outward in the radial direction.

Further, the positioning device includes a fixed frame to be fixed to the connecting device and an elastic member located in the fixed frame, the slope is provided on the elastic member, and the elastic member is directed outward. The fixed frame can be projected, and the elastic restoration device is provided in the fixed frame and acts on the telescopic member.

Further, the telescopic member includes a moving frame and a tongue piece located in the moving frame, the elastic restoring device acts on the moving frame, and the slope is provided at the tail end of the moving frame. An externally urging elastic body is provided between the tongue piece and the moving frame, and the externally urging elastic body acts on the tongue piece to urge the tongue piece to protrude outward in the radial direction. Will be done.

Further, when the center pole is pressed, it acts directly on the slope. Alternatively, a pressing head is provided at the lower end of the center pole, and when the center pole is pressed, the pressing head acts on the slope.

Further, the connecting device is a connecting cylinder connected to the lower end of the support head, and the fixed frame is connected to the lower part of the connecting cylinder.

Further, the elastic recovery device is located below the pressing head, the upper end of the elastic recovery device stretches against the pressing head, and the lower end of the elastic recovery device stretches against the fixed frame.

Further, a circlip is provided on the center pole, the connecting cylinder is provided with a stopper portion located above the circlip, and the center pole inserts the stopper portion;
The elastic recovery device fits the center pole, the upper end of the elastic recovery device stretches against the connecting cylinder, and the lower end of the elastic recovery device stretches against the fixed frame.
Alternatively, when the telescopic member is a thread block, the slope is provided on the thread block, the thread block is provided with a thread head, the elastic return device fits the central shaft, and the central shaft is pressed. It acts directly on the slope.

Further, the fixed frame is provided in the elevating mechanism, and the support head is provided at the upper end of the elevating mechanism.

As an advantageous effect of the present invention, the mop head is pressed onto the support head for normal cleaning at a low position in the cleaning state, and the mop head is pressed against the support head for normal dehydration at a high position in the dehydrated state. During dehydration, the center shaft is pressed by the pressing action of the mop head, so that the positioning device protrudes outward in the radial direction, a corresponding lock step is provided in the mop bucket, and the positioning device protrudes and is placed on the lock step. , Positioning the support head; when the mop is removed after dehydration, the central shaft rises under the action of the elastic recovery device, at which time the positioning device is not subjected to pressing force and is radial under the action of the elastic restoration device. By pulling it into, the support of the lock step is lost, and the support head, the center shaft, the connecting device, the positioning device, and other mechanisms are all automatically dropped.

It is a schematic diagram which shows the structure of the mop bucket of this invention. It is sectional drawing in the case where the automatic lifting mechanism of this invention is in an initial state. It is a partially enlarged view of the part A in FIG. It is sectional drawing of the automatic elevating mechanism when a central axis is pressed. It is a partially enlarged view of the B part in FIG. It is sectional drawing of the automatic lifting mechanism after the upper lifting assembly is lifted. It is a partially enlarged view of the C part in FIG. It is a schematic diagram which shows the structure of an automatic elevating mechanism. It is a three-dimensional exploded view of an automatic elevating mechanism. It is a schematic diagram which shows the fitting between the upper ratchet assembly, the lower ratchet assembly and an ejector block. It is a schematic diagram which shows the structure of a cam. It is a schematic diagram which shows the structure of the elevating cylinder. It is a schematic diagram which shows the structure of a connecting sleeve. It is a schematic diagram which shows the structure of an ejector block. It is a schematic diagram which shows the structure of the upper accommodating tool. It is a schematic diagram which shows the structure of the upper moving member. It is a schematic diagram which shows the structure of the upper ratchet block. It is a schematic diagram which shows the structure of the lower housing. It is a schematic diagram which shows the structure of the lower accommodating tool. It is a schematic diagram which shows the structure of a mop. It is sectional drawing of this invention using the spiral elevating system. It is a three-dimensional exploded view of Example 3. FIG. It is a cleaning state diagram of Example 3. It is a cleaning state diagram of Example 3. It is a cleaning state diagram of Example 3. It is a dehydration state diagram of Example 3. It is a figure which shows the state which the mop head in Example 3 is separated from the support head. It is a movement figure of the guide protrusion on the elevating frame in Example 3. FIG. It is sectional drawing of Example 4. FIG. It is a three-dimensional exploded view of Example 4. FIG. It is sectional drawing of Example 5. FIG. It is a schematic diagram in the case where the drive gear and the driven gear of the fifth embodiment are fitted. It is a schematic diagram which shows the structure of Example 6. It is a schematic diagram which shows the structure when the structure of Example 6 is applied in a cleaning basket. It is a schematic diagram which shows the structure of Example 7. It is a schematic diagram which shows the structure when the structure of Example 7 is applied in a cleaning basket. It is a schematic diagram which shows the structure at the time of realizing the positioning by applying the structure of Example 7 in a cleaning basket. It is a schematic diagram which shows the structure in the case where the structure of Example 7 is applied in a cleaning basket and the positioning is released. It is a schematic diagram which shows the structure at the time of realizing the positioning by applying the structure of Example 8 in a cleaning basket. It is a schematic diagram which shows the structure in the case where the structure of Example 8 is applied in a cleaning basket and the positioning is released.

Hereinafter, the present invention will be described in more detail by combining the accompanying drawings and specific embodiments.

Referring to FIGS. 1 to 20, a method for cleaning and dehydrating a mop, which includes a mop 1 and a mop bucket 2, and the mop includes a mop handle and a mop head 5 connected to the mop handle. In the example, the mop head 5 is rotatably connected to the mop handle, and a plurality of realization methods in the prior art can be used as the rotation method of the mop head 3. In the present embodiment, the mop 1 includes an upper handle 3 and a lower handle 4 that are fitted to each other, and the pressing motion of the upper handle 3 is changed to the rotational motion of the lower handle 4 between the upper handle 3 and the lower handle 4. A convertible drive mechanism is provided, a mop head 5 is connected to the lower end of the lower handle 4, and a wiping member is provided on the mop head 5. Since the drive mechanism between the upper handle 3 and the lower handle 4 is a common mechanism in this field, the description thereof will be omitted here. Naturally, the rotation of the mop head can be realized by other methods, for example, the mop handle is directly rotated by hand, or the mop handle is an electric mop handle, an electric drive mechanism is provided in the electric mop handle, and the electric drive mechanism is the mop head. Drives the rotation of the mop handle connected to.

An automatic elevating mechanism is provided in the mop bucket 2, and at the time of cleaning, the mop head 5 is placed on the automatic elevating mechanism at a low position, and when the upper handle 3 is pressed, the rotational movement of the mop head 5 is automatically raised and lowered. By converting to the ascending motion of the mechanism, the mop head 5 also rises; after the cleaning and dehydration are completed, the mop head 5 is separated from the automatic elevating mechanism, and the automatic elevating mechanism automatically lowers to the original position. Return to position.

In the present invention, the mop head 5 is also raised by automatically raising the automatic elevating mechanism during washing, that is, in the washing process, the mop head 5 rotates and slowly rises while washing and rises above the water surface. Then, the rotating mop head 5 rotates and dehydrates, the washing and dehydrating operations of the present invention are integrated, there is no need to pull up the mop or the like, and after the mop head finishes cleaning and dehydration, the automatic lifting mechanism is used. The operation is very easy because the automatic elevating mechanism is automatically lowered and returned to the original position.

In this embodiment, the automatic elevating mechanism includes a support head 6 for connecting to the mop head, and the mop head is removably connected to the support head for cleaning. The support head 6 is provided with an inner hook groove 7, a slot is provided on the back surface of the mop head 5, and the support head 6 has an inwardly convex hook. During cleaning, the support head 6 is inserted into the slot and the hook is hooked. Is engaged in the inner hook groove 7, the mop head 5 and the support head 6 are connected, and of course, other connection methods can be used, and the mop head 5 only needs to rotate the support head 6. .. The support head 6 is further connected to a power conversion mechanism, and when the upper handle 3 is pressed during cleaning, the mop head 5 rotates the support head 6 and the support head 6 acts on the power conversion mechanism. Thus, the power conversion mechanism further drives the rise of the support head 6, and when the support head 6 rises, the mop head 5 connected to the support head 6 also rises; the mop head is lifted after cleaning and dehydration. The support head 6 is separated from the support head 6, and the support head 6 is automatically lowered to return to the original position.

In the present embodiment, the power conversion mechanism includes the central shaft 8, the support head 6 is fitted on the central shaft 8, the upper end of the central shaft 8 is exposed, and the support head 6 is below the central shaft 8. The cam 9 located at is further fitted, the cam 9 is connected to the support head 6, and the support head 6 and the cam 9 are screwed together in this embodiment. A cam groove 10 is provided on the wall surface of the cam 9.

The elevating cylinder 11 is fitted onto the cam 9, a guide protrusion 12 is provided on the inner wall of the elevating cylinder 11, and the guide protrusion 12 is inserted into the cam groove 10. In the present embodiment, in consideration of the convenience of assembly, the elevating cylinder 11 includes a cylinder 13 and an engaging tool 14 that engages on the cylinder 13, and the guide protrusion 12 is the engaging tool. It is provided in 14.

An upper elevating assembly 15 connected to the elevating cylinder is provided in the lower part of the elevating cylinder 11, a lower elevating assembly 16 is provided below the upper elevating assembly 15, and the lower elevating assembly 16 passes through the connecting assembly to the cam 9. Is connected with.

At the time of cleaning, the upper elevating assembly 15 can be gradually raised in one direction with the elevating cylinder 11, and the lower elevating assembly 16 can be gradually raised in one direction with the cam 9. The lower elevating assembly 16 rises alternately in sequence, and the upper elevating assembly 15 rises before the lower elevating assembly 16. As a concrete realization structure thereof, a ratchet piece 17 for fixing is further provided on the outside of the elevating cylinder 11, a ratchet dentition 18 is provided on the ratchet piece 17, and in the present embodiment, the outer cylinder 40 is further included. The ratchet piece 17 is provided in the outer cylinder 40, and the outer cylinder 40 is fixed to the mop bucket 2;
The upper elevating assembly 15 includes an upper accommodating tool 19 connected to the elevating cylinder 11, and in the present embodiment, the upper accommodating tool 19 is provided with an upper locking hook 20, and the upper accommodating tool 20 and the elevating / lowering tool 20 are provided. An upper ratchet assembly is provided in the upper accommodating tool 20 which is separated from or approaches the ratchet piece, and the upper ratchet 21 is provided at the tip of the upper ratchet assembly. The upper ratchet 21 can be inserted into the ratchet tooth row 18, and after the upper ratchet 21 is inserted into the ratchet tooth row 18, the ratchet tooth row only raises the upper ratchet assembly. And do not allow the lowering of the upper ratchet assembly;
The upper ratchet assembly includes an upper moving member 22 located in the upper accommodating tool 20, and an upper inward urging spring 23 for urging the upper moving member 22 inward is provided in the upper accommodating tool 20. The upper ratchet block 24 is provided in the upper moving member 22, the upper ratchet 21 is provided at the outer end of the upper ratchet block 24, and the upper ratchet block 24 is outwardly provided in the upper moving member 22. An upper and outer urging spring 25 is provided to urge the ratchet;
The lower elevating assembly 16 includes a lower housing 26 and a lower accommodating tool 27 connected in the lower housing 26, and in the present embodiment, the lower accommodating tool 27 is provided with a lower locking hook 28. , The lower containment 27 and the lower housing 26 are connected through the lower locking hook 28; a lower ratchet assembly is provided in the lower containment 27 that separates or approaches the ratchet piece 17. A lower ratchet 29 is provided at the tip of the lower ratchet assembly, and the lower ratchet 29 can be inserted into the ratchet tooth row 18, and after the lower ratchet 29 is inserted into the ratchet tooth row 18, The ratchet dentition only allows the lower ratchet assembly to rise, not the lower ratchet assembly;
The lower ratchet assembly includes a lower moving member 30 located in the lower accommodating device 27, and a lower inward urging spring 31 for urging the lower moving member 30 inward is provided in the lower accommodating device 27. The lower ratchet block 32 is provided in the lower moving member 30, the lower ratchet 29 is provided at the outer end of the lower ratchet block 32, and the lower ratchet block 32 is outwardly provided in the lower moving member 30. A lower outer urging spring 33 for urging the ratchet is provided.

An ejector block 34 is provided at the lower end of the central shaft 8, and the ejector block 34 includes a recessed portion 35 recessed inward and a convex portion 36 convex outward, and the lower end of the ejector block 34 is upward. The ejector block 34 is pushed upward by tensioning the urging spring 35, the upper end of the upper urging spring 35 thrusting onto the ejector block 34, and the lower end of the upper urging spring 35 thrusting against the lower housing 26. To urge you.

When the central axis 8 is in the free state, the tail end of the upper moving member 22 and the tail end of the lower moving member 30 are located in the recessed portion 35 recessed inward; during cleaning, the mop head 5 When the central shaft 8 is pressed, the convex portion 36 that is convex outward of the ejector block pushes the upper moving member 22 and the lower moving member 30 outward, thereby pushing the upper ratchet 21 and the lower ratchet 29. It is inserted into the ratchet dentition 18.

Naturally, the specific structure type of the ejector block 34 is not limited to the above structure, and when the central axis 8 is in the free state, the tail end of the upper ratchet assembly and the tail end of the lower ratchet assembly are stretched by the ejector block. As a result, the upper ratchet assembly and the lower ratchet assembly are pulled in without receiving force; when the central axis 8 is pressed during cleaning, the ejector block pushes the upper ratchet assembly and the lower ratchet assembly outward. Therefore, it is only necessary to insert the upper ratchet 21 and the lower ratchet 29 into the ratchet dentition. For example, the ejector blocks 34 are provided in two upper and lower parts, the upper ejector block corresponds to the upper ratchet assembly, the lower ejector block corresponds to the lower ratchet assembly, the upper moving member is provided with a slope, and the lower moving member is provided with a slope. When the upper ejector block is pressed against the slope of the upper moving member and the lower ejector block is pressed against the slope of the lower moving member, the upper moving member and the lower moving member are projected outward in the radial direction. be able to.

The connecting assembly includes a connecting sleeve 38 that fits on the central shaft 8, and since the connecting sleeve 38 and the cam 9 are connected through a bearing 39, the two can rotate relative to each other, and the ejector block. 34 is located in the connecting sleeve 38, and the lower moving member 30 of the lower ratchet assembly is thrust into the connecting sleeve 38.

The mop head 5 is separated from the support head 6 after cleaning and dehydration, and the support head 6, the elevating cylinder 11, the cam 9, the upper elevating assembly 15, the connecting assembly, and the lower elevating assembly 16 are automatically lowered. And return to the original position.

When the above mechanism is used, as a specific operation process of cleaning and dehydration of the present invention, in the initial state, the support head 6 is in a low position, the central shaft 8 is in a free state, and is not pressed by an external force. At this time, under the action of the upper inward urging spring 23, the tail end of the upper moving member 22 of the upper ratchet assembly is in the recess 35 recessed inside the ejector block, and the action of the lower inward urging spring 31. Since the tail end of the lower moving member 30 of the lower ratchet assembly is in the recess 35 recessed inside the ejector block, the upper ratchet 21 in the upper ratchet block 24 is in the ratchet tooth row 18 of the ratchet piece 17. Not inserted, the lower ratchet 29 in the lower ratchet block 32 is also not inserted into the ratchet dent 18 of the ratchet piece 17.

At the time of cleaning, the mop head 5 is placed on the support head 6, the mop head 5 and the support head 6 are connected, and the mop head 5 presses the central shaft 8, that is, presses the ejector block 34, and the ejector block 34 presses. After that, the convex portion 36 that is convex outward of the ejector block pushes the upper ratchet assembly and the lower ratchet assembly outward, so that the upper ratchet 21 and the lower ratchet 29 are pushed into the ratchet tooth row 18 of the ratchet piece 17. To insert in. When the upper handle 3 of the mop is pressed and the drive mechanism rotates the lower handle 4 and the mop head 5, the mop head 5 rotates the support head 6, and the rotation of the support head 6 rotates the cam 9. The guide protrusion 12 on the cylinder raises the elevating cylinder 11 by moving along the cam groove 10, and the elevating cylinder 11 raises the upper elevating assembly 15 (upper accommodating tool 19, upper moving member 22, upper ratchet block 24, (Including the upper inner urging spring 23 and the upper outer urging spring 25) are also raised. Since the upper ratchet 21 of the upper ratchet block and the ratchet dentition 18 of the ratchet piece are ratchet engaged, the upper ratchet 21 of the upper ratchet block does not interfere with the ascent of the upper elevating assembly 15. After the cam 9 has rotated to a certain degree, the elevating cylinder 11 is raised to the highest point, the elevating cylinder 11 is lowered after the cam 9 is rotated again, and the upper elevating assembly 15 is also lowered. However, since the upper ratchet 21 of the upper ratchet block and the ratchet dentition 18 of the ratchet piece are in ratchet engagement, the upper elevating assembly 15 cannot be lowered and the elevating cylinder 11 cannot be lowered either. At this time, if the cam 9 continues to rotate, the cam 9 rises while rotating with the guide protrusion 12 of the ratchet as a fulcrum, and the support head 6 and the connecting sleeve 38 are raised by the rise of the cam 9, and the connecting sleeve 38 is raised. By raising the lower moving member 30 inserted therein, the lower elevating assembly 16 (lower housing 26, lower accommodating tool 27, lower moving member 30, lower ratchet block 32, lower inward urging spring 31, lower). Since the lower ratchet 29 of the lower ratchet block and the ratchet tooth row 18 of the ratchet piece are in ratchet engagement, the lower ratchet 29 of the lower ratchet block raises the lower elevating assembly. Do not disturb. The ejector block 34 is simultaneously raised while the lower elevating assembly 16 is raised, and the convex portion 36 that is convex outward of the ejector block retains the action of pushing the upper ratchet assembly and the lower ratchet assembly outward. Therefore, as the support head 6 rises, the mop head 5 also rises.

When the cam 9 continues to rotate after the cam 9 has risen to a certain degree, the lower elevating assembly 16 rises to the highest point, and after the cam 9 rotates again, the lower elevating assembly 16 descends. However, since the lower ratchet 29 of the lower ratchet block and the ratchet dentition 18 of the ratchet piece are in ratchet engagement, the lower elevating assembly 16 cannot be lowered. At this time, when the cam 9 continues to rotate, the guide protrusion 12 on the elevating cylinder 11 moves along the cam groove 10 again to raise the elevating cylinder 11, and the elevating cylinder 11 raises the upper elevating assembly 15. Let me. In such a circulating operation, the support head 6 continuously rises, the mop head 5 also continuously rises, the mop head 5 first rotates and is washed in water, rises above the water surface, and then rotates and dehydrates. After the wiping member on the mop head 5 is centrifugally dehydrated, the mop is removed, and when the mop head 5 is separated from the support head 6 and is not pressed against the central shaft 8, the ejector block is acted on by the upward urging spring 37. 34 and the central axis 8 rise, and the tail end of the upper moving member 22 of the upper ratchet assembly and the tail end of the lower moving member 30 of the lower ratchet assembly return to the recessed portion 35 recessed inside the ejector block, and the upper ratchet The upper ratchet 21 on the block and the lower ratchet 29 on the lower ratchet block are separated from the ratchet tooth row 18 of the ratchet piece 17, so that the upper and lower elevating assembly 15 and the lower elevating assembly 16 are automatically dropped, and the upper and lower elevating assembly 15 are automatically dropped. The ratchet cylinder 11 is freely dropped and returned to its original position due to the fall of the ratchet, and after the lower elevating assembly 16 has fallen, the central shaft 8 and the ejector block 34 lose their support, so that the ratchet block 11 automatically falls and returns to the original position.

Referring to FIG. 21, a mop-like cleaning / dehydrating method, wherein the mop includes a mop handle and a mop head, the mop head is provided with a wiping member, and the cleaning / dehydrating of the wiping member is performed in the mop bucket. The support head 6 is mounted in the mop bucket, and the mop head is removably connected to the support head for cleaning.

In this embodiment, the mop head is rotatably connected to the mop handle, and a plurality of realization methods in the prior art can be used as the rotation method of the mop head 3. In the present embodiment, the mop 1 includes an upper handle and a lower handle that are fitted to each other, and a drive mechanism capable of converting a pressing motion of the upper handle into a rotational motion of the lower handle is provided between the upper handle and the lower handle. The mop head is connected to the lower end of the lower handle, and the mop head is provided with a wiping member. Since the drive mechanism between the upper handle and the lower handle is a common mechanism in this field, the description thereof will be omitted here. Naturally, the rotation of the mop head can be realized by other methods, for example, the mop handle is directly rotated by hand, or the mop handle is an electric mop handle, an electric drive mechanism is provided in the electric mop handle, and the electric drive mechanism is the mop head. Drives the rotation of the mop handle connected to.

A power conversion mechanism is provided in the mop bucket, the support head 6 and the power conversion mechanism are connected, and the mop head that is rotating at the time of cleaning rotates the support head 6, and the support head 6 is the support head 6. By acting on the power conversion mechanism, the power conversion mechanism further drives the ascent of the support head 6; the mop head is disengaged from the support head after cleaning and dehydration, and the support head and power conversion mechanism It automatically descends and returns to its original position.

In this embodiment, the power conversion mechanism includes the central elastic shaft 38, and the support head 6 fits inside the central elastic shaft 38.

The support head 6 includes a support head lower extension portion that extends downward, a follow-up frame 39 is fixed to the lower end of the support head lower extension portion, and a thread block that elastically expands and contracts in the follow-up frame 39. 40 is provided, a thread head 41 is provided in the thread block 40, and a return spring 42 is fitted into the central elastic shaft 38. In this embodiment, when an inclined surface 43 that inclines outward is provided at the tail end of the thread block 40, the lower end of the central elastic shaft 38 abuts on the inclined surface 43, and the central elastic shaft 38 is pressed. The thread block 40 is projected outward by the action of the inclined surface 43.

An internal contraction spring 44 is further provided in the driven frame 39, and the thread block 40 is pulled inward into the drive frame 39 under the action of the internal contraction spring 44.

A thread jacket 45 is provided on the outside of the support head 6 and the extension portion below the support head, and an internal thread is provided on the thread jacket 45.

When the mop head is pressed, the central elastic shaft 38 is pressed, and the thread block 40 is projected through the central elastic shaft 38, so that the thread head 41 on the thread block and the internal thread are fitted and rotated. The support head 6 rotates the follow-up frame 39 and the thread block 40 in the follow-up frame 39, and the rotating thread block 40 rises by the thread action to raise the support head 6 and the central elastic shaft 38. , When the mop head is in the lower wash area, rotate and wash, and when the mop head rises to the upper dehydration area, rotate and dehydrate;
After the dehydration is completed, the mop head is separated from the support head 6, the central elastic shaft 38 is raised under the action of the return spring 42, and the thread block 40 is pulled in, so that the thread head on the thread block 40 is pulled in. 41 is separated from the internal thread, and the support head 6, the central elastic shaft 38, and the follow-up frame 39 are automatically dropped.

22 to 28, a mop-like cleaning and dehydrating method, wherein the mop includes a mop handle and a mop head 5, and the mop head 5 is provided with a wiping member to clean the wiping member. Dehydration is performed in the mop bucket 2, the support head 6 is mounted in the mop bucket 5, and the mop head is removably connected to the support head for cleaning.

In this embodiment, the mop head 5 is rotatably connected to the mop handle, and a plurality of realization methods in the prior art can be used as the rotation method of the mop head 3. In the present embodiment, the mop 1 includes an upper handle 3 and a lower handle 4 that are fitted to each other, and the pressing motion of the upper handle 3 is changed to the rotational motion of the lower handle 4 between the upper handle 3 and the lower handle 4. A convertible drive mechanism is provided, a mop head 5 is connected to the lower end of the lower handle 4, and a wiping member is provided on the mop head 5. Since the drive mechanism between the upper handle 3 and the lower handle 4 is a common mechanism in this field, the description thereof will be omitted here. Naturally, the rotation of the mop head can be realized by other methods, for example, the mop handle is directly rotated by hand, or the mop handle is an electric mop handle, an electric drive mechanism is provided in the electric mop handle, and the electric drive mechanism is the mop head. Drives the rotation of the mop handle connected to.

The support head 6 is connected to an elastic elevating mechanism, and a guide mechanism is provided in the mop bucket in which the support head 6 and the elastic elevating mechanism move up and down at the same time and are fitted to the elastic elevating mechanism.

At the time of cleaning, the elastic elevating mechanism and the guide mechanism are fitted, the support head 6 and the elastic elevating mechanism are restricted to a low position, and the mop head 5 supported on the support head 6 is located in the lower cleaning area;
After washing, the elastic elevating mechanism rises under the action of its own elastic force, and at this time, the elastic elevating mechanism and the guide mechanism are fitted, and the support head 6 and the elastic elevating mechanism are restricted to a high position. The mop head 5 supported on the support head 6 is located in the upper dehydration region.

In this embodiment, the elastic elevating mechanism includes an elevating frame 46 and a spring 47, and the support head 6 is connected to the elevating frame 46. In this embodiment, the support head 6 can rotate, the elevating frame 46 is provided with a guide protrusion 48, the elastic body 47 urges the elevating frame 46, and the elevating frame 46 can be moved upward.

The guide mechanism includes a rotary guide cylinder 49 rotatably provided in the mop bucket, the lower end of the spring 47 is projected onto the rotary guide cylinder 49, and a guide groove is provided on the inner wall of the rotary guide cylinder 49. The guide protrusion 48 is located in the guide groove; the guide groove includes a cleaning groove 50 at at least two sites and a centrifugal dehydration groove 51 communicating the adjacent cleaning grooves 50 to form a cleaning groove and a centrifugal groove. The dehydration groove is defined as one circulation path, the cleaning groove 50 is in a low position, and the centrifugal dehydration groove 51 is in a high position. In this embodiment, the rotary guide cylinder 49 includes an inner cylinder 52 and an outer cylinder 53, and a concave groove is provided on the inner cylinder 52 and the outer cylinder 53, and the concave groove of the inner cylinder 52 and the concave groove of the outer cylinder 53 are formed. The guide groove is defined.

A continuous upper tooth profile positioning groove 54 is provided on the upper side surface of the cleaning groove 50, a continuous lower tooth profile positioning groove 55 is provided on the lower side surface of the cleaning groove, and the upper tooth profile positioning groove 54 is provided with an upper slope. The tooth profile lower positioning groove 55 has a lower slope, and at the time of cleaning, the guide protrusion 48 is located in the cleaning groove, and when the upper handle 3 is pressed, the mop head 5 is pressed, so that the support head 6 is pressed. And the elevating frame 46 is pressed, and the guide protrusion 48 on the elevating frame is pressed against the tooth profile lower positioning groove 55 along the lower slope; when the upper handle is pulled upward, the elevating frame 46 and the support head 6 are pressed. The mop head is moved upward under the action of the spring 47, and the guide protrusion 48 on the elevating frame is moved upward along the upper slope into the tooth profile upper positioning groove 54, whereby the mop head is moved in the lower cleaning area. Rotated and washed in;
The centrifugal dehydration groove 51 includes a front communication groove 56, a rear communication groove 57, and a reciprocating centrifugal dehydration groove 58 located between the front communication groove 56 and the rear communication groove 57, and includes the front communication groove 58. The groove 56 communicates with the lower tooth profile positioning groove at the end of the front wash groove, the rear communication groove 57 communicates with the lower tooth profile positioning groove at the front end of the rear wash groove, and the reciprocating centrifugal dehydration groove 58 communicates with the front portion. The upper part of the groove 56 and the upper part of the rear communication groove 57 are communicated with each other, and the centrifugal dehydration support portion 59 is provided at the lower end of the reciprocating centrifugal dehydration groove 58;
When the upper handle 6 is continuously pressed and pulled upward, the guide protrusion 48 moves into the lower tooth profile positioning groove at the end of the front cleaning groove 50, and then moves up and down under the elastic force of the spring 47. The frame 46 is moved upward, the guide protrusion 48 on the elevating frame moves up to the front communication groove 56, and after pressing the upper handle, the guide protrusion 48 is supported by the centrifugal dehydration support portion 59. When the upper handle 3 is continuously pressed and pulled upward again, the guide protrusion 48 on the elevating frame reciprocates up and down in the reciprocating centrifugal dehydration groove 58, so that the mop head 5 is dehydrated upward. Rotated and dehydrated in the region;
After the dehydration is completed, the mop is pulled up to raise the support head 6 and the elevating frame 46 until the guide protrusion 48 on the elevating frame abuts on the upper end of the reciprocating centrifugal dehydration groove 58, and the mop is further pulled up to raise the mop head 5. The support head 6 and the elevating frame 46 are separated from the support head 6 and dropped into the tooth profile lower positioning groove at the front end of the rear cleaning groove along the rear communication groove 57.

In this embodiment, the support head 6 can rotate smoothly by providing the plain bearing 60 between the support head 6 and the elevating frame 46. The rotary guide cylinder 49 is rotatably provided in the mop bucket, active clutch teeth 61 are provided at the lower end of the support head 6, passive clutch teeth 62 are provided in the rotary guide cylinder 49, and the support head 6 is provided. When the active clutch tooth 61 comes into contact with the passive clutch tooth 62, the rotation guide cylinder 49 is rotated by the rotation of the support head 6, and the water guide cylinder 63 is removed from the rotation guide cylinder 49. The water guide cylinder 63 is fitted and connected to the rotary guide cylinder, the blade 65 is provided in the water guide cylinder, and the upper end of the water guide cylinder 63 can cause friction with the wiping member on the mop head during cleaning. A board 64 is provided.

During cleaning, when the upper handle is pressed, the mop head is pressed, the wiping member contacts and rubs against the cleaning board 64, and the water in the mop bucket rises due to the guiding action of the rotating water bottle 63 to mop. The wiping member on the head 5 is washed away, and the blades 65 in the water bottle 63 help the water to rise. When the upper handle 3 is pulled upward, the support head rises slightly, and there is a gap between the wiping member of the mop head 5 and the cleaning board 64, and the water in the mop bucket is rotating. It rises due to the guide action and washes away the dirt on the washing board 64.

With reference to FIGS. 29 and 30, a cleaning tool that does not immerse the mop head in water during cleaning, including a mop bucket 1a and a mop 2a, wherein the mop 2a is a mop handle and a mop head connected to the mop handle. A support member for supporting the mop head and a water pumping device for sucking and cleaning water to the mop head portion supported on the support member are provided in the mop bucket 1a including 3a.

In this embodiment, the mop head 3a can rotate, and during cleaning, the pumping device is driven by the power provided by the mop head 3a. A conventional implementation method can be used for the rotation method of the mop head 3a, that is, the handle of the mop includes an upper handle 4a and a lower handle 5a that are fitted to each other, and the upper handle 4a and the lower handle 5a are included. The rotary drive device can convert the expansion and contraction motion between the upper handle 4a and the lower handle 5a into the rotary motion of the lower handle 5a, and the mop head 3a is connected to the lower end of the lower handle 5a. Will be done. Of course, the rotation of the mop head can be realized by other methods, for example, the mop handle is directly rotated by hand, or an electric drive mechanism is provided in the mop handle to drive the rotation of the mop handle.

Specifically, as a method of driving the pumping device by the mop head 3a, the support member is provided in the mop bucket and includes a rotatable support head 6a for connecting to the mop head 3a. The mop head 3a rotates the support head 6a; the pumping device is driven by providing power from the rotating support head 6a. As the connection method between the support head 6a and the mop head 3a, a conventional structure in a cleaning tool can be used, that is, the support head 6a is provided with a fastening groove, and the mop head 3a is elastically locked. A claw is provided, and the elastic locking claw can be locked on the support head and can be engaged in the engagement groove, and when the mop head wants to be separated from the support head, it is sufficient to directly apply force and pull it out strongly; or the support head. The connection between the support head and the mop head can be completed simply by providing the upper end of 6a as a spherical shape, providing a fitting groove on the back surface of the mop head 3a, and inserting the upper end of the support head directly into the fitting groove. When the mop head is separated from the support head, it is sufficient to directly apply force and pull it out strongly to separate the mop head from the support head.

In the present embodiment, as a specific structural type of the water pumping device, a rotating device that can rotate in the mop bucket is further provided, and the rotating device is located below the support head 6a and drives the support head 6a. The rotating device is provided with a headrace 7a, and when the rotating device is rotated, water in the mop bucket is ejected upward via the headrace 7a. In order to make the upward injection process of water smoother and increase the upward injection amount, the headrace 7a is usually designed to have a shape with a large upper part and a smaller lower part. As a specific structural type in which the rotating device is driven by the support head 6a, a tubular type rotating device is used, a headrace 7a is provided therein, and an active clutch tooth 8a is provided at the lower end of the support head 6a. A passive clutch tooth 9a is provided on the rotating device, and the active clutch tooth 8a can come into contact with the passive clutch tooth 9a, so that the rotating device is rotated by the rotation of the support head 6a.

Of course, it is also possible not to use the drive of the rotating device by the support head, and the rotating device can be driven directly by the mop head. For example, the mop head is provided with a protruding claw portion, the cleaning mop head is stretched against the support head, the protruding claw portion is connected to the rotating device, and the rotating mop head rotates the rotating device through the protruding claw portion.

In this embodiment, the specific structural type of the rotating device includes a rotating inner cylinder 10a and a rotating outer cylinder 11a that externally fits the rotating inner cylinder 10a and connects the rotating inner cylinder 10a to the rotating inner cylinder 10a. The headrace 7a is formed between the inner cylinder 10a and the rotating outer cylinder 11a, and the passive clutch teeth 9a are provided on the rotating inner cylinder 10a.

A top shaft 12a is provided in the mop bucket, and the rotating device can rotate by being stretched by the top shaft 12a. Of course, the top shaft may not be provided, and the rotating device is rotatably provided on the bottom surface of the mop bucket, or the rotating device is attached by a method such as installation of a rotation support so that the rotating device can be rotated.

In this embodiment, the lower sandwich layer 13a is provided in the lower part of the rotating outer cylinder 11a, the lower sandwich layer 13a communicates with the headrace 7a, and the lower part of the rotating inner cylinder 10a and the inner wall of the lower sandwich layer 13a. It is convenient for assembly because it engages and connects with each other.

In this embodiment, blades are provided in the headrace 7a. The blades 14a are provided in the lower sandwich layer 13a. The role of the wings is to raise water.

In this embodiment, a filtration device for filtering the washing sewage is provided in the mop bucket, and the device receives the washing sewage and filters it, and the filtered water can be used as clean water to further achieve the purpose of saving water. ..

With reference to FIGS. 31 and 32, a cleaning tool that does not immerse the mop head in water during cleaning, including a mop bucket 1a and a mop, wherein the mop has a mop handle and a mop head connected to the mop handle. A support member for supporting the mop head and a water pumping device for sucking water into the mop head portion supported on the support member for cleaning are provided in the mop bucket 1a.

In this embodiment, the mop head can rotate, and during cleaning, the pumping device is driven by the power provided by the mop head. A conventional implementation method can be used for the rotation method of the mop head, that is, the handle of the mop includes an upper handle and a lower handle that are fitted to each other, and rotates between the upper handle and the lower handle. Connected through a drive, the rotary drive can convert the telescopic motion between the upper handle and the lower handle into a rotary motion of the lower handle, and the mop head is coupled to the lower end of the lower handle. Of course, the rotation of the mop head can be realized by other methods, for example, the mop handle is directly rotated by hand, or an electric drive mechanism is provided in the mop handle to drive the rotation of the mop handle.

Specifically, as a method of driving the pumping device by the mop head, the support member is provided in the mop bucket 1a, includes a rotatable support head 6a for connecting to the mop head, and the mop. The head rotates the support head 6a; the pumping device is driven by providing power from the rotating support head 6a. As the connection method between the support head 6a and the mop head, the conventional structure in the cleaning tool can be used, that is, the support head is provided with a fastening groove, and the back surface of the mop head is provided with an elastic locking claw. The elastic locking claws can be locked onto the support head and can be engaged in the engagement groove, and when you want to separate the mop head from the support head, you just have to apply force directly and pull it out strongly; or the upper end of the support head The connection between the support head and the mop head can be completed simply by providing a spherical shape, providing a fitting groove on the back surface of the mop head, and inserting the upper end of the support head directly into the fitting groove, and the mop head can be supported by the support head. When it is separated from the mop head, it is sufficient to directly apply force and pull it out strongly to separate the mop head from the support head.

In this embodiment, the mop bucket 1a includes a clean water bucket 15a for storing clean water and a cleaning basket 16a located in the clean water bucket 15a, and the support head 6a is located in the cleaning basket 16a. A water pumping device is provided in the clean water bucket 15a, and the water pumping device sucks clean water into the washing basket 16a and connects the water pumping device and the support head 6a through a transmission mechanism. , The pumping device is driven by the transmission mechanism.

In this embodiment, a center pole 17a through which the cleaning basket is inserted is provided on the bottom surface of the clean water bucket 15a, and the support head 6a is provided at the upper end of the center pole 17a. The water pump specifically uses an impeller pump 18a, and includes a drive gear 19a in which the transmission mechanism is connected to the support head 6a and a driven gear 20a in which the transmission mechanism is connected to the impeller of the impeller pump 18a. The impeller pump can be fitted on the central shaft 17a and meshed with the driven gear 20a. The mop head rotates the support head 6a, the support head 6a rotates the drive gear 19a, and the drive gear 19a rotates the driven gear 20a. The impeller of 18a is rotated to achieve the purpose of pumping water by the impeller pump 18a.

In this embodiment, the center pole 17a is provided with an upper positioning recess and a lower positioning recess, the drive gear 19a is provided with a positioning convex point, and the positioning convex point of the drive gear is provided in the upper positioning recess and the lower positioning recess. Can be fitted and positioned;
When the drive gear 19a is positioned in the upper positioning recess, the impeller pump does not operate by separating the drive gear 19a and the driven gear 20a; the drive gear 19a is positioned in the lower positioning recess. At this time, the drive gear 19a and the driven gear 20a mesh with each other, so that the impeller pump 18a can be operated when the support head 6a rotates.

In this embodiment, a filtration device for filtering the washing sewage is provided in the mop bucket, and the device receives the washing sewage and filters it, and the filtered water can be used as clean water to further achieve the purpose of saving water. ..

With reference to FIGS. 33 and 34, it is an elevating and lowering positioning mechanism for a cleaning tool, including a support head 1b for connecting to a mop head, a central shaft 2b is penetrated into the support head 1b, and the central shaft 2b is elastic. A return device 3b is provided, the support head 1b is connected to the positioning device through a coupling device, the central shaft 2b is moved up and down with the positioning device, and the positioning device is provided with an elastic restoration device 4b;
When the center pole 2b is pressed by an external force, the positioning device protrudes outward in the radial direction in the pressing action of the center pole 2b; the center pole 2b is under the action of the elastic recovery device 3b when there is no action of the external force. It rises, and at this time, the positioning device is retracted in the radial direction under the action of the elastic restoration device 4b.

In the cleaning state, the mop head is pressed onto the support head 1b to normally wash the mop head to a low position, and in the dehydrated state, the mop head is pressed onto the support head 1b to normally dehydrate to a high position. During dehydration, the center shaft 2b is pressed by the pressing action of the mop head, so that the positioning device protrudes outward in the radial direction, a lock piece 5b corresponding to the inside of the mop bucket is provided, and the lock piece 5b is convex outward on the upper part of the lock piece 5b. The locking step 6b is formed and the positioning device protrudes and is placed on the lock step 6b for positioning; when the mop is removed after dehydration, the central shaft rises under the action of the elastic recovery device 3b. At this time, the positioning device is not subjected to the pressing force and is pulled in the radial direction under the action of the elastic restoration device 4b, so that the support of the lock step 6b is lost, and the mechanism of the support head 1b, the central shaft 2b, the connecting device, the positioning device, etc. All of them fall automatically including.

In this embodiment, the positioning device includes a slope 7b, and when the center pole 2b is pressed, a pressing force is applied onto the slope 7b to push the positioning device outward in the radial direction.

In the present embodiment, as a specific structure of the positioning device, the positioning device includes a fixed frame 8b to be fixed to the connecting device and an elastic member located in the fixed frame 8b, and the slope 7b is the said. The telescopic member is provided on the telescopic member so that the telescopic member can project outward from the fixed frame 8b, and the elastic restoration device 4b is provided in the fixed frame and acts on the telescopic member.

The telescopic member includes a moving frame 9b and a tongue piece 10b located in the moving frame 9b, the elastic restoring device 4b acts on the moving frame 9b, and the slope 7b is the tail end of the moving frame 9b. The tongue piece 10b is provided with an externally urging elastic body 11b between the tongue piece 10b and the moving frame 9b, and the external urging elastic body 11b acts on the tongue piece 10b to cause the tongue piece. It is urged to protrude outward in the radial direction at 10b.

In this embodiment, the connecting device is a connecting cylinder 12b connected to the lower end of the support head, and the fixing frame 8b is connected to the lower part of the connecting cylinder 12b. In this embodiment, the connecting cylinder 12b and the support head 1b are connected through a bearing 13b.

When the center pole 2b is pressed, it acts directly on the slope 7b. A circlip 14b is provided on the center pole 2b, the connecting cylinder 12b includes a stopper portion 15b located above the circlip 14b, and the center pole 2b inserts the stopper portion 15b; A return spring, the return spring fits the center pole 2b, the upper end of the return spring stretches against the connecting cylinder 12b, and the lower end of the return spring stretches against the fixed frame 8b.

When the central shaft 2b is pressed by the mop head, it acts directly on the slope to project the moving frame 9b outward in the radial direction, so that the tongue piece 10b in the moving frame 9b is also projected outward, and the support head 1b, When the connecting cylinder 12b and the fixed frame 8b are moved upward, the central shaft 2b, the moving frame 9b in the fixed frame, and the tongue piece 10b are also moved upward, and the circlip 14b sticks to the stopper portion 15b, and at this time, the tongue piece 10b Was compressed inward by being disturbed by the external lock piece 5b, so that the external urging elastic body 11b accumulated a certain urging force, and when the tongue piece 10b moved to the upper part of the lock step 6b, it was outward. The support head 1b is positioned by releasing the urging force of the urging elastic body 11b, ejecting the tongue piece 10b, and placing the tongue piece 10b on the lock step 6b. When the mop is removed after the dehydration is completed, the center pole 2b rises under the action of the elastic recovery device 3b, and at this time, the moving frame 9b is not subjected to the pressing force and is pulled in the radial direction under the action of the elastic restoration device 4b, and the tongue When the piece 10b is also pulled in the radial direction and separated from the lock step 6b, the support of the lock step is lost, and the mechanism including the support head 1b, the center pole 2b, the connecting device, and the positioning device falls evenly and automatically.

With reference to FIGS. 35, 36, 37, and 38, an elevating and lowering positioning mechanism for a cleaning tool, including a support head 1b for connecting to a mop head, and a central shaft 2b penetrating into the support head 1b. An elastic recovery device 3b is provided on the central shaft 2b, the support head 1b is connected to the positioning device through a coupling device, the central shaft 2b moves up and down with the positioning device, and the positioning device is provided with an elastic restoration device 4b. Re;
When the center pole 2b is pressed by an external force, the positioning device protrudes outward in the radial direction in the pressing action of the center pole 2b; the center pole 2b is under the action of the elastic recovery device 3b when there is no action of the external force. It rises, and at this time, the positioning device is retracted in the radial direction under the action of the elastic restoration device 4b.

In the cleaning state, the mop head is pressed onto the support head 1b to normally wash the mop head to a low position, and in the dehydrated state, the mop head is pressed onto the support head 1b to normally dehydrate to a high position. During dehydration, the center shaft 2b is pressed by the pressing action of the mop head, so that the positioning device protrudes outward in the radial direction, a corresponding lock piece 5b is provided in the mop bucket, and a lock step is formed on the lock piece 5b. Positioning is performed by projecting the positioning device and placing it on the lock step; when the mop is removed after dehydration, the central shaft 2b rises under the action of the elastic recovery device 3b, and the positioning device presses the pressure at this time. By pulling in the radial direction under the action of the elastic restoration device 4b without receiving, the support of the lock step is lost, and all of the mechanisms including the support head 1b, the central shaft 2b, the connecting device, the positioning device, etc. fall automatically. ..

In this embodiment, the positioning device includes a slope 7b, and when the center pole 2b is pressed, a pressing force is applied onto the slope 7b to push the positioning device outward in the radial direction.

In the present embodiment, the positioning device includes a fixed frame 8b to be fixed to the connecting device and an elastic member located in the fixed frame 8b, and the slope 7b is provided on the elastic member, and the elastic member is provided with the elastic member. The member can project the fixed frame 8b outward, and the elastic restoration device 4b is provided in the fixed frame 8b and acts on the telescopic member. The connecting device is a connecting cylinder 12b that is connected to the lower end of the support head, and the fixing frame 8b is connected to the lower portion of the connecting cylinder 12b. In this embodiment, the support head 1b and the connecting cylinder are connected through a bearing 13b.

The telescopic member includes a moving frame 9b and a tongue piece 10b located in the moving frame 9b, the elastic restoring device 4b acts on the moving frame 9b, and the slope 7b is the tail end of the moving frame 9b. The tongue piece 10b is provided with an externally urging elastic body 11b between the tongue piece 10b and the moving frame 9b, and the external urging elastic body 11b acts on the tongue piece 10b to cause the tongue piece. It is urged to protrude outward in the radial direction at 10b. In this embodiment, four positioning devices are provided.

A pressing head 16b is provided at the lower end of the center pole, and when the center pole 2b is pressed, the pressing head 16b acts on the slope 7b. The elastic return device 3b is a return spring, the return spring is located below the pressing head 16b, the upper end of the return spring is stretched on the pressing head 16b, and the lower end of the return spring is stretched on the fixed frame 8b. ..

When the central shaft 2b is pressed by the mop head, the pressing slope 17b on the pressing head acts directly on the slope 7b to project the moving frame 9b outward in the radial direction, so that the tongue piece 10b in the moving frame 9b is also outside. When the support head 1b, the connecting cylinder 12b and the fixed frame 8b are moved upward, the central shaft 2b, the moving frame 9b in the fixed frame 3b, and the tongue piece 10b are also moved upward, and the tongue piece 10b is a ratchet. Designed as a type, the lock piece 7b is provided with a ratchet dentition 18b, the ratchet is inserted into the ratchet dentition 18b, the two are unidirectionally engaged, and the ratchet at the upper end of the ratchet dentition 18b forms a lock step. Then, in the action of the outward urging elastic body 11b, the support head 1b is positioned by inserting the tongue piece 10b into the ratchet dentition 18b. When the mop is removed after the dehydration is completed, the central shaft rises under the action of the elastic restoration device 4b, and at this time, the moving frame 9b is not subjected to pressing force and is pulled in the radial direction under the action of the elastic restoration device 4b, and the tongue piece. When 10b is also pulled in the radial direction and separated from the ratchet dentition 18b, the support of the ratchet dentition 18b is lost, and the mechanism including the support head 1b, the central shaft 2b, the connecting device, and the positioning device drops evenly and automatically. do.

With reference to FIGS. 39 and 40, it is an elevating and lowering positioning mechanism for a cleaning tool, including a support head 1b for connecting to a mop head, a central shaft 2b is penetrated into the support head 1b, and the central shaft 2b is elastic. A return device 3b is provided, the support head 1b is connected to the positioning device through a coupling device, the central shaft 2b is moved up and down with the positioning device, and the positioning device is provided with an elastic restoration device 4b;
When the center pole 2b is pressed by an external force, the positioning device protrudes outward in the radial direction in the pressing action of the center pole 2b; the center pole 2b is under the action of the elastic recovery device 3b when there is no action of the external force. It rises, and at this time, the positioning device is retracted in the radial direction under the action of the elastic restoration device 4b.

In the cleaning state, the mop head is pressed onto the support head 1b to normally wash the mop head to a low position, and in the dehydrated state, the mop head is pressed onto the support head 1b to normally dehydrate to a high position. During dehydration, the center shaft 2b is pressed by the pressing action of the mop head, so that the positioning device protrudes outward in the radial direction, a corresponding lock piece is provided in the mop bucket, and a lock step is formed on the lock piece for positioning. Positioning by projecting the device and placing it on the lock step; when the mop is removed after dehydration, the central shaft 2b rises under the action of the elastic return device 3b, at which time the positioning device receives pressing force. Instead, by pulling in the radial direction under the action of the elastic restoration device 4b, the support of the lock step is lost, and all of the mechanisms including the support head 1b, the central shaft 2b, the connecting device, the positioning device, and the like are automatically dropped.

In this embodiment, the positioning device has a slope 7b on the positioning device, and when the center pole 2b is pressed, a pressing force is applied to the slope 7b to push the positioning device outward in the radial direction.

In the present embodiment, the positioning device includes a fixed frame 8b to be fixed to the connecting device and an elastic member located in the fixed frame 8b, and the slope 7b is provided on the elastic member, and the elastic member is provided with the elastic member. The member can project the fixed frame 8b outward, and the elastic restoration device 4b is provided in the fixed frame 8b and acts on the telescopic member.

In this embodiment, the telescopic member is a thread block 19b, the fixed frame 8b is provided on the elevating mechanism 20b, and the support head 1 is provided on the upper end of the elevating mechanism 20b. In this embodiment, the elevating mechanism 20b is a downward extending portion of the support head.

A thread head is provided on the thread block, a thread jacket 21b is provided on the outside of the support head 1b, an internal thread 22b is provided on the thread jacket 21b, and the internal thread 22b forms a positioning step;
The central shaft 2b is pressed and acts directly on the slope through the central shaft 2b to project the thread block 19b, so that the thread head on the thread block 19b is fitted with the internal thread 22b and is rotating. 1b rotates the fixed frame 8b and the thread block 19b in the fixed frame 8b, and the rotating thread block 19b is raised by the action of the thread; the central axis is raised by the action of the elastic return device 3b, and the thread block 19b is raised. By pulling in, the thread head on the thread block 19b is separated from the internal thread, so that the mechanism including the support head 1b, the central shaft 2b, the connecting device, and the positioning device is evenly and automatically dropped.

Claims (12)

A method of cleaning and dehydrating a mop, which includes a cleaning step and a dehydration step.
The mop includes a mop handle and a mop head connected to the mop handle.
A wiping member is provided on the mop head,
The wiping member is cleaned and dehydrated in a mop bucket.
A support head is installed in the mop bucket,
The mop head is rotatably connected to the mop handle, and during cleaning, the mop head is supported by the support head in the lower cleaning area and is rotated and washed together with the support head; during dehydration, the mop head is removed from the upper part. In the water area, it is supported by the support head and rotates together with the support head to be dehydrated.
The support head is connected to an elastic elevating mechanism and is provided at the upper end of the elastic elevating mechanism. A guide mechanism in which the support head and the elastic elevating mechanism move up and down together and fit into the mop bucket. Is provided;
The elastic elevating mechanism includes an elevating frame and an elastic body, the support head is connected to the elevating frame, a guide protrusion is provided on the elevating frame, and the elastic body urges the elevating frame to elevate the elevating frame. Move the frame upwards;
The guide mechanism includes a continuous tooth-shaped guide groove provided in the horizontal direction, the guide protrusion is located in the guide groove; the guide groove communicates with the cleaning guide groove and the cleaning guide groove. Including the centrifugal dehydration guide groove, the cleaning guide groove is in a low position, and the centrifugal dehydration guide groove is in a high position.
In the cleaning step, during cleaning, the elastic elevating mechanism and the guide mechanism are fitted, the support head and the elastic elevating mechanism are restricted to low positions, and the mop head supported on the support head is in the lower cleaning area. The mop head is detachably connected to the support head for cleaning.
In the dehydration step, after the cleaning operation is completed, the elastic elevating mechanism rises under the action of its own elastic force without requiring a switching operation, and at this time, the elastic elevating mechanism and the guide mechanism are fitted. If so, the support head and the elastic elevating mechanism are restricted to a high position.
The mop head supported on the support head rises to the upper dehydration region, and the mop head is also located in the upper dehydration region along with the support head to perform dehydration.
When the mop head is separated from the support head after the dehydration operation is completed, the support head and the elastic elevating mechanism are lowered and returned to a low position without requiring a switching operation, and the support head and the support head and the above are used. The method for cleaning and dehydrating the mop, wherein the elastic elevating mechanism is restricted to a lower position again. The guide groove is provided on an inner wall of a rotation guide cylinder for guiding a position when the support head rotates, and the rotation guide cylinder is rotatably provided in the mop bucket. Item 2. The method for cleaning and dehydrating a mop according to item 1. The tooth profile is a sawtooth profile.
In the cleaning step, as the cleaning operation progresses, the guide protrusion advances in the cleaning guide groove in the continuous serrated guide groove provided in the horizontal direction.
When the guide protrusion advances to the centrifugal dehydration guide groove in the continuous serrated guide groove provided in the horizontal direction, the process proceeds to the dehydration step without requiring a switching operation.
When the mop head is separated from the support head after the dehydration operation is completed, the guide protrusion is lowered without the need for a switching operation, and the continuous serrated guide groove provided in the horizontal direction is provided. The method for cleaning and dehydrating a mop according to claim 1 or 2, wherein the mop reaches the start position of the next cleaning guide groove inside. A continuous upper tooth profile positioning groove is provided on the upper side surface of the cleaning guide groove, a continuous lower tooth profile positioning groove is provided on the lower side surface of the cleaning guide groove, and the upper tooth profile positioning groove is provided with an upper slope and is below the tooth profile. The positioning groove has a lower slope,
At the time of cleaning, the guide protrusion is located in the cleaning guide groove, and when the mop handle is pressed, the mop head is pressed, so that the support head and the elevating frame are pressed, and the elevating frame on the elevating frame is pressed. The guide protrusion is pressed against the tooth profile lower positioning groove along the lower slope; when the mop handle is pulled upward, the elevating frame and the support head are moved up under the action of the elastic body, and the elevating frame and the supporting head are moved upward. The mop head is rotated and cleaned in the lower cleaning area by moving the guide protrusion on the frame upward into the dentate positioning groove along the upper slope. The method for cleaning and dehydrating a mop according to any one of 3. A continuous upper tooth profile positioning groove is provided on the upper side surface of the cleaning guide groove, a continuous lower tooth profile positioning groove is provided on the lower side surface of the cleaning guide groove, and the upper tooth profile positioning groove is provided with an upper slope and is below the tooth profile. The positioning groove has a lower slope,
The centrifugal dehydration guide groove includes a front communication groove, a rear communication groove, and a reciprocating centrifugal dehydration guide groove located between the front communication groove and the rear communication groove, and the front communication groove is forward. The rear communication groove communicates with the tooth profile lower positioning groove at the end of the cleaning guide groove, the rear communication groove communicates with the tooth profile lower positioning groove at the rear end of the cleaning guide groove, and the reciprocating centrifugal dehydration guide groove communicates with the front portion. The mop according to any one of claims 1 to 4, wherein the upper part of the communication groove and the upper part of the rear communication groove are communicated with each other, and the centrifugal dehydration support portion is provided at the lower end of the reciprocating centrifugal dehydration guide groove. Cleaning and dehydration methods. When the mop handle is repeatedly pressed downward and pulled upward, the guide protrusion moves into the lower tooth profile positioning groove at the end of the cleaning guide groove in front of the centrifugal dehydration guide groove. The elevating frame is moved upward under the elastic force of the elastic body, the guide protrusion on the elevating frame is moved up to the front communication groove, and after pressing the mop handle, the guide protrusion is moved. Supported by the centrifugal dehydration support portion; when the mop handle is repeatedly pressed downward and pulled upward, the guide protrusion on the elevating frame reciprocates up and down in the reciprocating centrifugal dehydration guide groove. By exercising, the mop head is rotated and dehydrated in the upper dehydration region;
After the dehydration is completed, the mop is pulled up to raise the support head and the elevating frame until the guide protrusion on the elevating frame abuts on the upper end of the reciprocating centrifugal dehydration guide groove, and the mop is further pulled up to the mop. The head is detached from the support head, and the support head and the elevating frame fall along the rear communication groove into the lower tooth profile positioning groove at the front end of the next cleaning guide groove.
The method for cleaning and dehydrating a mop according to claim 5. The rotary guide cylinder includes an inner cylinder and an outer cylinder, and each of the inner cylinder and the outer cylinder is provided with a concave groove, and the guide groove is formed by the concave groove of the inner cylinder and the concave groove of the outer cylinder. The method for cleaning and dehydrating a mop according to claim 2, wherein the mop is imaged. The method for cleaning and dehydrating a mop according to claim 2 or 7, wherein the support head is rotatable and the rotation guide cylinder is rotatably provided in the mop bucket. An active clutch tooth is provided at the lower end of the support head, a passive clutch tooth is provided on the rotation guide cylinder, and when the support head is pressed, the active clutch tooth comes into contact with the passive clutch tooth. The method for cleaning and dehydrating a mop according to claim 8, wherein the rotation guide cylinder is rotated by rotation of the support head. The method for cleaning and dehydrating a mop according to claim 9, wherein a water guide cylinder is fitted onto the rotation guide cylinder, and the water guide cylinder is connected to the rotation guide cylinder. The method for cleaning and dehydrating a mop according to claim 10, wherein blades are provided in the water bottle. The method for cleaning and dehydrating a mop according to claim 10, wherein a cleaning machine capable of generating friction with the wiping member on the mop head during cleaning is provided at the upper end of the water bottle.

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