WO2015090154A1 - Mop cleaning machine, mop, and cleaning assembly formed by mop cleaning machine and mop - Google Patents

Abstract

A mop cleaning machine, a mop, and a cleaning assembly formed by the mop cleaning machine and the mop. The cleaning assembly comrpises the mop cleaning machine and the mop. The mop cleaning machine comprises a motor (9), a speed reducer connected to the motor (9), and a washing barrel. A first connecting member is disposed inside the washing barrel. An output shaft (10) of the speed reducer penetrates through a bottom plate of the washing barrel and is connected to the first connecting member. The mop comprises a mop disc (11), the mop disc (11) being provided with a second connecting member (13), and the second connecting member (13) being detachably connected to the first connecting member; a mop head disposed at the bottom of the mop disc (11); and a mop rod (12) rotatably connected to the top of the mop disc (11). The cleaning assembly in this application cleans the mop electrically, and therefore is more labor-saving, so that the load of a user is lightened.

Description

Mop cleaner, mop and cleaning assembly Technical field

The present invention relates to the field of floor cleaning tools, and more particularly to a cleaning assembly comprising a mop washer, a mop and both.

Background technique

At present, the most widely used cleaning mop device is a mop cleaning bucket, which is divided into a hand-pressed or pedal-driven cleaning bucket, such as a patent of Chinese Patent Application No. 200920218368.X and a patent of China Application No. 201120377881.0. .

The core structure of the hand pressure type and the foot type cleaning bucket is a gear transmission system. The working principle is that the gear transmission system transmits the external force (the external force of the human hand or the foot) applied by the person to the cleaning bucket to the mop, thereby The mop rotates in the washing tub to achieve the purpose of cleaning; and the mop can be rotated only when the external force applied by the user to the gear transmission system is large enough. It can be seen that the above mop cleaning bucket requires a certain external force when used, and cleaning the mop is laborious.

Summary of the invention

It is an object of the present invention to provide a cleaning assembly comprising a mop washer, a mop and both to solve the above problems.

Provided in an embodiment of the invention is a cleaning assembly comprising a mop washer and a mop;

The mop cleaning machine includes:

Motor

a speed reducer connected to the motor;

a washing tub, the inside of the washing tub is provided with a first connecting member, and an output shaft of the reducer is connected to the first connecting member through the bottom plate of the washing tub;

The mop includes:

a mop tray; the mop tray is provided with a second connecting member, and the second connecting member is detachably connected to the first connecting member;

a mop head set at the bottom of the mop tray;

A mop lever that is pivotally connected to the top of the mop tray.

Further, one of the first connecting member and the second connecting member is a joint provided with a plurality of first ribs and the other is a joint provided with a plurality of grooves, and the first ridge Cooperating with the groove.

Further, the mop cleaning machine further includes a controller, and the controller is coupled to the motor.

Further, the mop tray is provided with a magnet; in the mop cleaning machine, the output shaft of the reducer is made of a magnetic material, and the output shaft of the reducer is connected with a magnetic induction switch, and the magnetic induction switch The controller is coupled; and when the first connector is coupled to the second connector, the magnet on the mop tray is in contact with an output shaft of the reducer.

Further, the mop cleaning machine further includes a drain valve, the drain valve is connected to the controller, the drain valve includes a first water inlet and a water outlet; and an inner wall of the bottom of the washing tub is covered with a filter. a portion of the bottom of the washing tub covered by the filter net is provided with a drain hole, the drain hole is in communication with the first water inlet, and the controller controls the communication between the first water inlet and the water outlet With blocking.

Further, the drain valve is further provided with a second water inlet; the second water inlet is always in communication with the water outlet; the washing tub is provided with an overflow hole; the overflow hole and the second The water inlet is always connected.

Further, a washing liquid tank is disposed on the washing tub; a liquid level sensor is disposed in the washing liquid tank; a washing liquid inlet is disposed above the washing tub, and the washing liquid box is provided therein The washing liquid is pumped from the washing liquid tank to a pump of the washing liquid inlet; the pump and the liquid level sensor are respectively connected to the controller.

Further, in the mop cleaning machine, a support frame is connected to the top of the washing tub, the support frame includes a limiting plate, and a margin of the limiting plate is provided with a U-shaped notch, and two of the U-shaped notches The side is respectively provided with an elastic tab, and the bottom of the U-shaped notch is provided with a sensor for detecting the connection state of the U-shaped notch and the mop bar, and the sensor is connected to the controller.

According to another aspect of the present invention, a mop cleaning machine is provided, which is a mop cleaning machine in the above-described cleaning assembly, the mop cleaning machine including a housing.

According to another aspect of the invention, a mop is provided, the mop being a mop in the cleaning assembly described above.

Also provided in an embodiment of the invention is a mop washer that is a mop washer in the cleaning assembly described above.

A mop is also provided in an embodiment of the invention, which is a mop in the cleaning assembly described above.

The cleaning assembly of the above embodiment of the present invention cleans the mop by electric means, and therefore, the cleaning assembly of the embodiment is more labor-saving and reduces the burden on the user, and the specific working principle thereof is compared with the mop cleaning barrel of the related art. For:

The mop is fixed in the washing tub by the first connecting member and the second connecting member, and at the same time, water is injected into the washing tub, and then the motor is started; at this time, the speed reducer is driven by the motor, and the first connecting member is at the speed reducer. The lower output shaft is driven to rotate, the first connecting member drives the mop to rotate, and the mop is cleaned during continuous rotation. After the cleaning is completed, the second connecting member is detached from the first connecting member, and the mop is taken out.

DRAWINGS

In order to make the invention clear and understand the present invention, the present invention is provided with a part of the specification, but it is not understood that all the features shown in the drawings are necessary to achieve the technical effect of the present application. The scope of the present application is not limited by the accompanying drawings, and the scope of the application is defined by the appended claims.

1 is a partial structural schematic view of a mop cleaning machine according to an embodiment of the present invention;

2 is a schematic structural view of a mop according to an embodiment of the present invention;

FIG. 3 is a schematic perspective structural view of a mop cleaning machine according to an embodiment of the present invention;

4 is a front elevational view of a mop cleaning machine provided by an embodiment of the present invention.

detailed description

Exemplary embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The embodiments are provided so that those skilled in the art can clearly understand the invention, and the invention can be implemented according to the description herein. The drawings and the specific embodiments are not intended to limit the invention, and the scope of the invention is defined by the appended claims.

The present invention will be further described in detail below through specific embodiments and in conjunction with the accompanying drawings.

Embodiment 1

A cleaning assembly that includes a mop washer and a mop.

As shown in Figure 1, the mop cleaning machine includes:

Motor 9;

a speed reducer connected to the motor 9;

The washing tub is provided with a first connecting member inside the washing tub, and the output shaft 10 of the reducer is connected to the first connecting member through the bottom plate of the washing tub.

As shown in Figure 2, the mop includes:

a mop tray 11; the mop tray 11 is provided with a second connecting member 13, and the second connecting member 13 is detachably connected to the first connecting member;

a mop head disposed at the bottom of the mop tray 11;

A mop lever 12 that is rotatably coupled to the top of the mop tray 11.

The cleaning assembly of the embodiment is electrically cleaned by the mop. Therefore, compared with the mop cleaning bucket of the related art, the cleaning assembly of the embodiment is more labor-saving and reduces the burden on the user. The specific working principle is as follows:

The mop is fixed in the washing tub by the first connecting member and the second connecting member 13. At the same time, water is injected into the washing tub, and then the motor 9 is started to work; at this time, the speed reducer is driven by the motor 9, the first connecting member Rotating under the drive of the output shaft of the reducer, the first connecting member drives the mop to rotate, and the mop is cleaned during the continuous rotation. After the cleaning is completed, the second connecting member 13 is detached from the first connecting member, and the mop is taken out.

Wherein, the first connecting member and the second connecting member 13 can adopt various structures, such as a common ridge and groove structure, that is, the first connecting member and the second connecting member 13, one of which is provided with a plurality of The joint of one rib, the other is a joint provided with a plurality of grooves, and the first rib cooperates with the groove.

The cleaning assembly described above can be further improved to achieve more functionality. The following is described in conjunction with FIGS. 1 to 4.

Automated control of the mop washer is achieved: preferably, the mop washer further includes a controller that is coupled to the motor 9. The cleaning parameters (cleaning time, rotation speed, etc.) can be preset in the controller to realize automatic control of the washing machine and make the operation simpler.

After setting the controller, the mop washer can also make the following improvements.

Smart start function:

Preferably, the corresponding structure of the mop is provided with a magnet 14 on the mop tray 11. The corresponding structure of the mop cleaning machine: the output shaft 10 of the reducer is made of magnetic material, the output shaft 10 of the reducer is connected with a magnetic induction switch, and the magnetic induction switch is connected with the controller. Coordination of the mop with the mop washer: When the first connector is connected to the second connector 13, the magnet 14 on the mop tray 11 is in contact with the output shaft 10 of the reducer.

The above preferred structure utilizes the principle of electromagnetic induction to realize "smart start", specifically: when the mop is fixed in the washing tub, that is, when the first connecting member is connected with the second connecting member 13, the magnet 14 on the mop passes through the speed reducer The output shaft 10 transmits the magnetic force to the magnetic induction switch, at which time the magnetic induction switch transmits a response signal to the controller, and finally the controller controls the motor 9 to start, thereby starting the cleaning operation.

Automatic drainage, dewatering, and filtration:

Preferably, the mop cleaning machine further comprises a drain valve, the drain valve is connected with the controller, the drain valve is connected with the controller, the drain valve comprises a first water inlet and a water outlet; the inner wall of the bottom of the washing tub is covered with a filter net 8 and a washing bucket The bottom plate covered by the filter net 8 is provided with a drainage hole, and the drainage hole is connected with the first water inlet, and the controller controls the communication and blockage of the first water inlet and the water outlet.

The working principle of the above preferred structure is: pre-set the washing time, drainage time and dehydration time in the controller. Under the control of the controller, after the washing machine completes the preset washing time, the motor 9 stops working, the first water inlet The water is connected to the water outlet, and the water in the washing tub passes through the filter 8, the drain hole, and the first water inlet of the drain valve, and finally is discharged from the water outlet of the drain valve; after that, the washing machine starts the dehydration work: the first water inlet The water outlet is still connected, and the motor 9 is started to rotate the reducer in one direction, thereby driving the mop to rotate in one direction. At this time, the water in the mop head is pulled out by the centrifugal force and discharged from the drain valve, and finally completed. Dehydration. In the above process, the water is first discharged through the filter 8 whether it is dehydrated or drained, and the solid impurities in the water are trapped on the upper surface of the filter 8, thereby avoiding clogging of the drain pipe.

Further improvement on the basis of the provision of the drain valve can also realize the function of preventing overflow, specifically: preferably, the drain valve is further provided with a second water inlet; the second water inlet is always connected with the water outlet; and the overflow tank is provided with overflow The hole; the overflow hole is always in communication with the second water inlet.

The above anti-overflow function is realized: when the water level in the washing tub exceeds the allowable maximum water level, the water in the washing tub continuously flows into the overflow hole, and then passes through the second water inlet of the drain valve and the drain valve. The nozzle is drained until the water level in the wash tub is below the maximum water level allowed. It can be seen that by increasing the above preferred structure, it is ensured that the water level in the washing tub is always kept below the maximum allowable water level, thereby avoiding overflow from the washing tub when the water is too much.

Automatic control of water injection:

Preferably, the washing tub is provided with a water filling valve, and the water tank sensor is provided in the washing tub, and the water level sensor and the water filling valve are respectively connected with the controller. The user can set the required amount of water in the controller as needed, and the controller will transmit the corresponding signal to the water level sensor. When the water level sensor senses that the amount of water in the washing tub reaches a preset amount, the signal is fed back to the controller, and the controller Control water injection valve Close, stop filling. It can be seen that with the above structure, the user can set a reasonable water injection amount according to actual needs.

Automatic filling of cleaning solution:

Preferably, a washing liquid tank is arranged on the washing tub; a liquid level sensor is arranged in the washing liquid tank, and a washing liquid inlet is arranged above the washing tub, and the washing liquid tank is provided for pumping the washing liquid from the washing liquid tank to the washing The imported pump; the pump and the level sensor are respectively connected to the controller;

The principle of automatically filling the cleaning liquid by using the above structure is: presetting the washing liquid demand in the controller, and storing the washing liquid in the washing liquid tank; when starting to clean the mop, the controller transmits the corresponding signal to the pump The pump pumps the washing liquid into the washing tub (through the washing liquid inlet) until the required amount is reached, at which time the pump stops working and the washing liquid is filled. In addition, it is also possible to set a minimum storage amount of the washing liquid in the washing tank in the controller, and transmit the signal to the liquid level sensor, when the liquid level transmitter senses that the washing liquid in the washing liquid tank is less than the minimum storage amount. When the signal is fed back to the controller, the controller finally gives a warning signal such as display or prompt to prompt the user to add the washing liquid in time to avoid affecting the cleaning work.

Security:

Preferably, the washing tub is provided with a protective cover 2, the washing tub and the protective cover 2 are connected by an electromagnetic lock, and the electromagnetic lock is connected with the controller. On the basis of the above, the protective cover 2 can adopt the pedal-lifting cover used in the prior art. .

The principle of the above structure to realize safety protection is: no matter whether cleaning or dehydration, when the motor 9 starts, the controller will control the electromagnetic lock to generate a strong suction force, so that the protective cover 2 and the washing tub are locked, thereby avoiding the leakage of the washing tub. Danger. When the motor 9 is not working, the suction of the electromagnetic lock disappears. When the foot pedal 7 is pressed, the protective cover 2 is picked up. It can be seen that, by adopting the above preferred structure, the safety of the mop cleaning machine is improved, and the operation difficulty of the cleaning machine is reduced.

Work is more stable:

Preferably,

In the mop cleaning machine, the top of the washing tub is connected with a support frame, the support frame includes a limiting plate 6, the edge of the limiting plate 6 is provided with a U-shaped notch, and two sides of the U-shaped notch are respectively provided with an elastic tab 4, U The bottom of the notch is provided with a sensor for detecting the connection state of the U-shaped notch and the mop lever 12, and the sensor is connected to the controller.

When the mop is cleaned or dried by the above preferred cleaning machine, the mop tray 11 is first fixed in the washing tub, and then the mop rod 12 is pressed into the U-shaped notch from the two elastic tabs 4 of the limiting plate 6, which When the mop lever 12 is restrained by the two elastic tabs 4 in the U-shaped notch, the sensor senses that the mop lever 12 has been caught in the U-shaped notch, and then transmits the signal to the controller, and the controller transmits the signal. Give the motor 9 and other parts to start cleaning or drying. Fixing the mop lever 12 by the above method can prevent the mop lever 12 from staggering stably when the mop tray 11 is rotated, thereby making the rotation of the mop more stable. Wherein, the sensor can adopt the following design manner: an elastic member 5 is disposed between the two elastic tabs 4 on the notch, and the two elastic tabs 4 and the elastic member 5 form a clamping portion for holding the mop rod 12, and the elastic member 5 is connected to the controller through a pressure sensor. When the mop lever 12 is restrained by the two elastic tabs 4 in the U-shaped notch, the mop lever 12 presses the elastic member 5, and the elastic member 5 passes the mop lever 12 through the pressure sensor. The signal that has been positioned (i.e., the existing mop bar 12 compresses the elastic member 5) is transmitted to the controller, which in turn transmits the signal to other parts such as the motor 9 to initiate cleaning or drying. Further, the above structure is applicable to both the detachable mop of the mop lever 12 and the mop which the mop lever 12 is not detachable.

The operation is simpler and the user can choose:

Preferably, the mop cleaning machine further comprises an operation panel 3, and the operation panel 3 is connected to the controller: the user can input various commands to the controller at any time through the operation panel 3 to meet their own needs.

In addition, on the basis of the first embodiment, the following improvements can be made, such as:

Preferably, the inner side wall of the washing tub is provided with a plurality of second ribs: the ribs are arranged on the side walls to enhance the washing effect. A preferred improvement can also be made on this basis: the overflow hole is arranged on the second rib, that is to integrate two different functional structures to save space.

Preferably, the mop cleaning machine further comprises a casing 1 provided with a detachable door, and the motor 9, the speed reducer and the washing tub are disposed inside the casing 1 : the casing 1 is provided to protect the electric parts of the washing machine (the motor 9 , Reducer, washing bucket, etc.), also convenient for maintenance (removal of the door on the casing 1 can be repaired).

Embodiment 2

This embodiment provides a mop cleaning machine having the same structure as that of the mop cleaning machine of the first embodiment or the first embodiment.

Embodiment 3

The present embodiment provides a mop having the same structure as that of the mop in the first embodiment or the first embodiment.

The above description is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A cleaning assembly characterized by comprising a mop cleaning machine and a mop;

   The mop cleaning machine comprises:

   Motor

   a speed reducer connected to the motor;

   a washing tub, the inside of the washing tub is provided with a first connecting member, and an output shaft of the reducer is connected to the first connecting member through a bottom plate of the washing tub;

   The mop includes:

   a mop tray; the mop tray is provided with a second connecting member, and the second connecting member is detachably connected to the first connecting member;

   a mop head disposed at the bottom of the mop tray;

   a mop rod that is rotatably coupled to the top of the mop tray.
2. The cleaning assembly according to claim 1, wherein one of the first connecting member and the second connecting member is a joint provided with a plurality of first ridges and the other is provided with a plurality of a joint of the groove, and the first rib cooperates with the groove.
3. The cleaning assembly of claim 1 wherein said mop washer further comprises a controller coupled to said motor.
4. The cleaning assembly according to claim 3, wherein the mop tray is provided with a magnet;

   In the mop cleaning machine, the output shaft of the reducer is made of a magnetic material, and the output shaft of the reducer is connected with a magnetic induction switch, and the magnetic induction switch is connected to the controller;

   And when the first connecting member is connected to the second connecting member, the magnet on the mop tray is in contact with an output shaft of the reducer.
5. The cleaning assembly of claim 3, wherein the mop washer further comprises a drain valve, the drain valve being coupled to the controller, the drain valve including a first water inlet and a water outlet; The inner wall of the bottom plate of the washing tub is covered with a filter net, and a portion of the bottom surface of the washing tub covered by the filter net is provided with a drain hole, and the drain hole communicates with the first water inlet, the controller control station The communication and blocking of the first water inlet and the water outlet are described.
6. The cleaning assembly according to claim 5, wherein the drain valve is further provided with a second water inlet; the second water inlet is always in communication with the water outlet; and the washing tub is provided with overflow a hole; the overflow hole is always in communication with the second water inlet.
7. The cleaning assembly according to claim 3, wherein a washing liquid tank is disposed on the washing tub; a liquid level sensor is disposed in the washing liquid tank; and a washing liquid inlet is disposed above the washing tub And a pump for pumping the washing liquid from the washing liquid tank to the washing liquid inlet; the pump and the liquid level sensor are respectively connected to the controller.
8. The cleaning assembly according to claim 3, wherein in the mop cleaning machine, a top of the washing tub is connected with a support frame, the support frame includes a limiting plate, and an edge of the limiting plate is provided a U-shaped notch, one side of the U-shaped notch is respectively provided with an elastic tab, and the bottom of the U-shaped notch is provided with a sensor for detecting the connection state of the U-shaped notch and the mop rod, the sensor Connected to the controller.
9. A mop cleaning machine, characterized in that the mop cleaning machine is a mop cleaning machine in the cleaning assembly according to any one of claims 1-8, the mop cleaning machine comprising a casing.
10. A mop, characterized in that the mop is a mop in the cleaning assembly of any of claims 1-8.

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