CN210643941U - Automatic cleaning and dewatering machine for mop of electric mop - Google Patents

Abstract

The utility model relates to an automatic cleaning and dewatering machine for mop of electric mop, which comprises a cleaning barrel body; a pair of bearing platforms are symmetrically arranged on the bottom wall of the cleaning barrel body, the bottom of the cleaning barrel body is surrounded by the bearing platforms to form a cleaning space matched with the shape of the mop cloth of the electric mop, and a cleaning mechanism, a water spraying mechanism, a soap liquid output mechanism and a drainage mechanism are arranged in the cleaning space; the cleaning mechanism comprises a cleaning brush/cleaning chopping board and a supporting table for mounting the cleaning brush/cleaning chopping board; the water spraying mechanism comprises water sprayers symmetrically arranged in the cleaning space, a plurality of spray heads arranged at the upper ends of the water sprayers, a water supply pipe for supplying water to the water sprayers, and an electric control valve assembled on the water supply pipe; the soap liquid output mechanism comprises liquid outlets symmetrically arranged in the cleaning space, a plurality of liquid outlets arranged at the upper ends of the liquid outlets, a soap liquid supply pipe used for supplying soap liquid to the liquid outlets and a soap liquid bottle. The utility model discloses realize that electronic mop washing, dehydration have automatic, high-efficient, clean characteristics such as effectual.

Description

Automatic cleaning and dewatering machine for mop of electric mop

Technical Field

The utility model belongs to the technical field of household articles, especially, relate to an electronic mop self-cleaning hydroextractor.

Background

With the improvement of the home and working environment of people, the used house has larger and larger area and higher requirements on sanitary conditions. Consequently, the cleaning work is increasingly onerous, especially with daily mopping of the floor, which is time consuming and laborious. In recent years, electric mops appear on the market, and hope is brought to the reduction of the labor intensity of mopping the floor. The effect is still unsatisfactory, and the main reasons are that the mop is not washed cleanly, the working efficiency is low, and the problem of washing the mop by hands in the prior art is still not solved. The general process of washing the mop specifically is: water is injected into the mop pool (barrel), the mop is forcibly washed, the mop is dehydrated by hand, the water is poured (poured) and then the clean water is injected, the mop cloth is rinsed, and then the mop cloth is dehydrated … … by hand. The above steps are repeated for a plurality of times during one-time floor cleaning, and for a user, time is wasted, and two hands are wet and percolated, so that the user can feel bitter and have trouble; for housekeeping and cleaning personnel, the working efficiency is reduced, the labor intensity is increased, and the working quality is influenced.

The problems are not solved all the time, and the key point directly influencing the use popularization of the electric mop is also provided. The purpose of the utility model is to solve the problems of incomplete cleaning and difficult dewatering of the mop cloth by the automatic cleaning and dewatering machine of the electric mop, which aims at the field of floor cleaning in the household and working environment of people; time consuming, bitter and vexing; low efficiency and resource consumption; the electric mop is widely used. The owner is liberated from the troublesome mop cleaning link, and the leisure and entertainment and more meaningful work are engaged; the labor intensity of housekeeping and cleaning personnel is reduced, the working quality is ensured, the working efficiency is improved, and more services are involved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve the problems existing in the prior art, and provides an automatic cleaning and dewatering machine for the mop of an electric mop, which can realize the washing and dewatering of the mop of the electric mop and has the characteristics of automation, high efficiency, good cleaning effect and the like.

The utility model discloses a solve the technical scheme who takes of this problem and be:

an automatic cleaning and dewatering machine for an electric mop cloth comprises a cleaning barrel body for cleaning/dewatering the electric mop cloth; a pair of bearing platforms are symmetrically arranged on the bottom wall of the cleaning barrel body, the bearing platforms and the cleaning barrel body are integrally formed, the bottom of the cleaning barrel body is surrounded into a cleaning space matched with the shape of a mop cloth of the electric mop, and a cleaning mechanism, a water spraying mechanism, a soap liquid output mechanism and a drainage mechanism are arranged in the cleaning space;

the cleaning mechanism comprises a cleaning brush/cleaning chopping board and a supporting table for mounting the cleaning brush/cleaning chopping board, and the supporting table is fixedly connected with the bottom wall of the cleaning barrel body;

the water spraying mechanism comprises water sprayers symmetrically arranged in the cleaning space, a plurality of spray heads arranged at the upper ends of the water sprayers, a water supply pipe for supplying water to the water sprayers, and an electric control valve assembled on the water supply pipe;

the soap liquid output mechanism comprises liquid outlets symmetrically arranged in the cleaning space, a plurality of liquid outlet heads arranged at the upper ends of the liquid outlets, a soap liquid supply pipe used for supplying soap liquid to the liquid outlets and a soap liquid bottle;

the drain mechanism includes a drain pipe.

Preferably, the upper end of one side of the cleaning barrel body is further provided with an installation cavity, and a soap liquid bottle and a driving mechanism for driving the soap liquid bottle to discharge liquid are installed in the installation cavity.

Preferably, the liquid outlet head is sleeved with a liquid outlet hose, the upper end of the liquid outlet hose and the upper surface of the cleaning brush/cleaning chopping board are located at the same height, the soap liquid supply pipe penetrates through one end inside the cleaning barrel body to be connected with the input end of the liquid outlet device, the other end of the soap liquid supply pipe is connected with the output end of the soap liquid bottle, the driving mechanism comprises an adjusting rod and a tractor arranged in the installation cavity, the middle of the adjusting rod is hinged to the pressing head of the soap liquid bottle, one end of the adjusting rod is hinged to the inner wall of the installation cavity, and the other end of the adjusting rod is connected with a traction.

Preferably, a water retaining mechanism is further arranged above the cleaning space, and the water retaining mechanism comprises a circle of water-avoiding brush which is arranged along the inner periphery of the cleaning barrel body and is detachably mounted in the cleaning barrel body.

Preferably, the cleaning brush/cleaning chopping block is detachably mounted on the support table through a mounting piece, a first expansion spring is arranged between the cleaning brush/cleaning chopping block and the support table, and the mounting piece comprises an adjusting screw rotatably mounted on the cleaning brush/cleaning chopping block and a screw hole arranged on the support table and in threaded fit with the adjusting screw.

Preferably, the number of the cleaning brushes/cleaning chopping boards is two, the two cleaning brushes/cleaning chopping boards are symmetrically arranged in the cleaning space, and the cleaning brushes/cleaning chopping boards are X-shaped.

Preferably, the number of the cleaning brushes/cleaning chopping blocks is one, the cleaning brushes/cleaning chopping blocks are in a straight shape, and the cleaning brushes/cleaning chopping blocks are placed along the length direction of the cleaning space and fixed in the middle of the cleaning space.

Preferably, the cleaning hairbrush comprises a brush plate and bristles arranged at the upper end of the brush plate, the cleaning chopping block comprises a supporting plate and a chopping block, one end of the chopping block is hinged to the supporting plate, a plurality of second telescopic springs are arranged between the chopping block and the supporting plate, and the upper surface of the chopping block is wavy or linear.

Preferably, the input end of the water supply pipe penetrates through the inside of the cleaning barrel body to be connected with a water faucet, the electric control valve is installed inside the cleaning barrel body, the water sprayer is in a straight pipe shape or an annular shape, and the upper end of the water spraying nozzle and the upper surface of the brush plate/supporting plate are located at the same height.

Preferably, the number of the cleaning brushes is two, the two cleaning brushes are symmetrically arranged in the cleaning space, the cleaning brushes are rotatably arranged on the supporting table, and the two cleaning brushes are respectively arranged close to the edge of the cleaning space.

The utility model has the advantages and positive effects that:

1. the utility model overcomes the problems existing in the field of traditional mop washing, realizes the washing and dewatering of the mop of the electric mop, and has the characteristics of automation, high efficiency, good cleaning effect and the like.

2. The utility model is simple in operation, convenient to use, the washing is abundant, and the dehydration is moderate, and is wet controllable futilely, the stable performance, use extensively, water conservation environmental protection and energy saving, degree of automation is high, and occupation space is little.

Drawings

FIG. 1 is a schematic perspective view of the structure of example 1;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 2 with the water-repellent brush attached;

3 FIG. 3 4 3 is 3 a 3 schematic 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 the 3 line 3 A 3- 3 A 3 in 3 FIG. 3 3 3; 3

FIG. 5 is a schematic view of the structure of FIG. 4 with the electric mop attached;

FIG. 6 is a schematic view showing the structure of a cleaning brush in embodiment 2;

FIG. 7 is a schematic view showing the structure of a cleaning anvil in example 2;

FIG. 8 is a schematic cross-sectional view taken along the line B-B in FIG. 3;

FIG. 9 is a schematic structural view of embodiment 3;

FIG. 10 is a schematic structural view of example 4;

FIG. 11 is a schematic cross-sectional view taken along plane C-C of FIG. 10;

FIG. 12 is a schematic view of the structure of the cleaning brush of FIG. 11;

FIG. 13 is a circuit diagram of the automatic numerical control apparatus;

fig. 14 is a flowchart of the operation in embodiment 1.

In the figure: 1. the cleaning device comprises a cleaning barrel body, 2 parts of a bearing platform, 3 parts of a cleaning space, 4 parts of a cleaning brush, 401 parts of a brush board, 402 parts of bristles, 5 parts of a cleaning chopping board, 501 parts of a supporting board, 502 parts of a chopping board, 503 parts of a second telescopic spring, 6 parts of a supporting platform, 7 parts of a water sprayer, 8 parts of a spray head, 9 parts of a water supply pipe, 10 parts of an electric control valve, 11 parts of a liquid outlet device, 12 parts of a soap liquid supply pipe, 13 parts of a soap liquid bottle, 14 parts of a drain pipe, 15 parts of an installation cavity, 16 parts of a liquid outlet hose, 17 parts of an adjusting rod, 18 parts of a tractor, 19 parts of a traction cable, 20 parts of a first telescopic spring, 21 parts of an adjusting screw, 22 parts of.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 14.

Example 1

As shown in fig. 1 and 2, an automatic cleaning and dehydrating machine for an electric mop includes a cleaning barrel 1 for cleaning/dehydrating the electric mop; a pair of bearing platforms 2 are symmetrically arranged on the bottom wall of the cleaning barrel body 1, the bearing platforms 2 and the cleaning barrel body 1 are integrally formed, a cleaning space 3 matched with the shape of a mop cloth of the electric mop is defined at the bottom of the cleaning barrel body 1, and a cleaning mechanism, a water spraying mechanism, a soap liquid output mechanism and a drainage mechanism are arranged in the cleaning space 3; the cleaning mechanism comprises a cleaning brush 4/a cleaning chopping block 5 and a supporting table for mounting the cleaning brush 4/the cleaning chopping block 5, and the supporting table 6 is fixedly connected with the bottom wall of the cleaning barrel body 1; the water spraying mechanism comprises water sprayers 7 symmetrically arranged in the cleaning space 3, a plurality of spray heads 8 arranged at the upper ends of the water sprayers 7, a water supply pipe 9 for supplying water to the water sprayers 7, and an electric control valve 10 assembled on the water supply pipe 9; the soap liquid output mechanism comprises a liquid outlet device 11 symmetrically arranged in the cleaning space 3, a plurality of liquid outlet heads arranged at the upper end of the liquid outlet device 11, a soap liquid supply pipe 12 for supplying soap liquid to the liquid outlet device 11, and a soap liquid bottle 13; the drainage mechanism includes a drain pipe 14.

Further, in this embodiment, it is considered that the upper end of one side of the cleaning barrel 1 is further provided with an installation cavity 15, and the soap liquid bottle 13 and a driving mechanism for driving the soap liquid bottle 13 to discharge liquid are installed in the installation cavity 15.

The working principle is as follows: inserting a plug of a cleaning dehydrator into a power socket, connecting a water supply pipe 9 of the cleaning dehydrator to a tap water supply pipe, opening a faucet, placing a drain pipe 14 of the cleaning dehydrator into a drainage floor drain, placing a mop 25 to be washed and an electric mop 24 into a cleaning space 3 in a cleaning barrel body 1 in an original state, enclosing the bottom of the cleaning barrel body 1 by a bearing platform 2 to form the cleaning space 3 matched with the shape of the mop of the electric mop, facilitating the positioning and cleaning of the mop of the electric mop, connecting a cable plug with an interface of the electric mop 24, selecting a working mode and opening a starting switch to start the two mops 25 on the electric mop 24 to rotate; when a common washing mode is selected, the cleaning mechanism and the water spraying mechanism work, the cleaning mechanism comprises a cleaning brush 4/cleaning chopping board 5 and a supporting platform for installing the cleaning brush 4/cleaning chopping board 5, the supporting platform 6 is fixedly connected with the bottom wall of the cleaning barrel body 1, the cleaning brush 4/cleaning chopping board 5 can scrub or scrape the mop in the rotation process of the mop 25, the water spraying mechanism comprises water sprayers 7 symmetrically arranged in the cleaning space 3, a plurality of spray heads 8 arranged at the upper ends of the water sprayers 7, a water supply pipe 9 used for supplying water to the water sprayers 7 and an electric control valve 10 assembled on the water supply pipe 9, when the electric control valve is opened, the water in the water sprayers intermittently sprays water to the mop through the water supply pipe 9, the water sprayers 7 and the spray heads 8, the quick washing is realized, when the timing washing is finished, the electric control valve closes the intermittent water spraying, the, the electric mop 24 rotates at a dewatering speed, water in the mop 25 is thrown to the outside under the action of centrifugal force to achieve a dewatering effect, in addition, the arrangement of the cleaning chopping board 5 is also helpful for wiping water on the mop to further improve the dewatering effect, and a general washing mode program is finished after the dewatering is completed. When the soap liquid washing mode is selected, firstly, pre-washing is carried out, the washing mechanism and the water spraying mechanism work in the rotating process of the two mops 25 on the electric mop 24, after the pre-washing timing is finished, the soap liquid can be sprayed to the mops 25 through the soap liquid output mechanism, the washing effect of the mops 25 is greatly improved, the soap liquid output mechanism comprises liquid outlets 11 symmetrically arranged in the washing space 3, a plurality of liquid outlets arranged at the upper ends of the liquid outlets 11, a soap liquid supply pipe 12 for supplying the soap liquid to the liquid outlets 11 and a soap liquid bottle 13, the soap liquid bottle 13 and a driving mechanism for driving the soap liquid bottle 13 to discharge liquid are arranged in the mounting cavity 15, the soap liquid in the soap liquid bottle 13 can be driven through the driving mechanism to spray the soap liquid to the mops 25 through the soap liquid supply pipe 12, the liquid outlets 11 and the liquid outlets, the cleaning mechanism cleans/scrubs the mops in the rotating process of the two mops, the mop is further cleaned through the soap solution, rinsing is carried out after the soap solution washing timing is finished, the mop is rinsed through the cleaning mechanism and the water spraying mechanism in the rotating process of the two mop strips 25 on the electric mop 24, the electric control valve 10 closes intermittent water spraying after the rinsing timing is finished, the two mop strips 25 on the electric mop continue to rotate, the electric mop rotates at the dewatering speed, and the soap solution washing mode program is finished after the dewatering is finished. The electric mop 24 is removed and the mopping operation is performed, and the above procedure is repeated when the mop 25 is sensed to be cleaned again.

It should be noted that the electric mop 24 can be, but is not limited to, an electric mop with model AMC-5500, the electric valve 10 can be, but is not limited to, a washing machine FCD270A universal water inlet electromagnetic valve, and the specific structure, working principle, and circuit structure of the electric mop 24 and the electric valve 10 used in the device are all the prior art, and therefore, they are not described in detail.

Further, in this embodiment, it can be considered that the liquid outlet head is sleeved with a liquid outlet hose 16, the upper end of the liquid outlet hose 16 and the upper surface of the cleaning brush 4/cleaning chopping block 5 are located at the same height, the soap liquid supply pipe 12 penetrates through the cleaning barrel body 1, one end of the soap liquid supply pipe is connected with the input end of the liquid outlet device 11, the other end of the soap liquid supply pipe is connected with the output end of the soap liquid bottle 11, the driving mechanism comprises an adjusting rod 17 and a retractor 18 installed in the installation cavity 15, the middle part of the adjusting rod 17 is hinged to the pressing head of the soap liquid bottle 13, one end of the adjusting rod 17 is hinged to the inner wall of the installation cavity 15, and the other end. The upper end of the liquid outlet hose 16 and the upper surface of the cleaning brush 4/cleaning chopping block 5 are positioned at the same height, when the lower end of the electric mop is placed in the cleaning space, the mop falls on the cleaning brush 4/cleaning chopping block 5 and the liquid outlet hose 16, and under the weight of the electric mop and the rotation of the mop, the cleaning brush 4/cleaning chopping block 5 and the liquid outlet hose 16 can deform to a certain extent, but the scrubbing/scraping of the cleaning brush 4/cleaning chopping block 5 on the mop and the spraying of the liquid outlet hose 16 on the mop can not be influenced; as shown in fig. 8, when the soap liquid needs to be sprayed, the hand-operated drive can be used, the pressing head of the soap liquid bottle 13 can be pressed to drive the soap liquid in the soap liquid bottle 13 to spray the soap liquid to the mop through the soap liquid supply pipe 12, the liquid outlet device 11, the liquid outlet head and the liquid outlet hose 16, the hand-operated control type is strong in adaptability, low in cost and easy to popularize and use, or the electric drive can be used, when the traction cable 19 on the tractor 18 is driven to perform traction action, the traction cable 19 drives the pressing head of the soap liquid bottle 13 to move downwards, and then the soap liquid in the soap liquid bottle 13 is driven to spray the mop through the soap liquid supply pipe 12, the liquid outlet device 11, the liquid outlet head and the liquid outlet hose 16, the operation is convenient, and.

It should be noted that the retractor 18 can be, but is not limited to, a general drain valve retractor of the washing machine XPQ-B, and the specific structure, operation principle, and circuit structure of the retractor 18 used in the present device are all known in the art and therefore will not be described in detail.

Further, in this embodiment, it is considered that a water retaining mechanism is further disposed above the cleaning space 3, and the water retaining mechanism includes a circle of water-avoiding brushes 23 disposed along the inner periphery of the cleaning barrel 1 and detachably mounted in the cleaning barrel 1. The technology of upward water spraying and the shape following water-avoiding brush is adopted to solve the difficult problem of water fearing of the electric mop machine.

Example 2

As shown in fig. 3-7, the cleaning brush 4/cleaning anvil 5 is detachably mounted on the support platform 6 through a mounting member, a first expansion spring 20 is disposed between the cleaning brush 4/cleaning anvil 5 and the support platform 6, and the mounting member includes an adjusting screw 21 rotatably mounted on the cleaning brush 4/cleaning anvil 5 and a screw hole 22 provided on the support platform 6 and in threaded engagement with the adjusting screw 21. Through the rotatory adjusting screw 21 of instrument for adjusting screw 21 precession/screw-out in screw 22, adjust the interval between washing brush 4/washing chopping block 5 and the brace table 6 then, adjust the height at which washing brush 4/washing chopping block 5 is located then, when washing brush 4 and taking place wearing and tearing, can adjust the height-adjusting along with the wearing and tearing of washing brush 4, can adjust the high rising that washs brush 4/washing chopping block 5, not only reach the cleaning performance who does not influence washing brush 4/washing chopping block 5, but also increase of service life.

Further, in this embodiment, it can be considered that the number of the cleaning brushes 4/the cleaning chopping block 5 is two, two cleaning brushes 4/the cleaning chopping block 5 are symmetrically arranged in the cleaning space 3, the cleaning brushes 4/the cleaning chopping block 5 are in an X-shape, and the X-shape cleaning brushes 4/the cleaning chopping block 5 have strong detergency.

Example 3

As shown in fig. 9, the number of the cleaning brushes 4/cleaning chopping blocks 5 is one, the cleaning brushes 4/cleaning chopping blocks 5 are in a shape of a straight line, the cleaning brushes 4/cleaning chopping blocks 5 are placed along the length direction of the cleaning space 3 and fixed in the middle of the cleaning space 3, and the cleaning brushes 4/cleaning chopping blocks 5 are in a shape of a straight line and are convenient to replace.

Further, in this embodiment, as shown in fig. 6 and 7, the cleaning brush 4 includes a brush board 401 and bristles 402 disposed at an upper end of the brush board 401, the cleaning chopping board 5 includes a supporting board 501 and a chopping board, one end of the chopping board is hinged to the supporting board, a plurality of second expansion springs are disposed between the chopping board and the supporting board, and an upper surface of the chopping board is in a wave shape or a linear shape. Wash brush 4/wash chopping block 5 and can scrub or scrape the mop at the rotatory in-process of mop, wash chopping block 5 and include backup pad 501, the chopping block, the one end of chopping block articulates in the backup pad, and be equipped with a plurality of second expanding spring between chopping block and the backup pad, the upper surface of chopping block is the wave, under second expanding spring's elastic force effect, the chopping block realizes scraping of different modes and washing to the mop, according to the weight of electronic mop machine, regulating spring's dynamics, strengthen decontamination effect, improve the cleaning performance greatly, and the setting up of chopping block still helps improving dewatering effect at dewatering process. It should be noted that the cleaning chopping block 5 can also be made of a rubber tooth comb plate according to the principle of a rubbing chopping block in consideration of different materials of the mop.

Further, in this embodiment, it is considered that the input end of the water supply pipe 9 passes through the inside of the washing tub 1 to be connected to a water faucet, the electrically controlled valve 10 is installed inside the washing tub 1, the water sprayer 7 is in a straight pipe shape or a ring shape, and the upper end of the water sprayer 8 is located at the same height as the upper surface of the brush plate 401/the support plate 501. The water sprayer 7 can be opened or closed to spray water to the mop by opening or closing the electric control valve 10.

Example 4

As shown in fig. 10 to 12, the number of the cleaning brushes 4 is two, two of the cleaning brushes 4 are symmetrically arranged in the cleaning space 3, the cleaning brushes 4 are rotatably mounted on the support platform 6, and the two cleaning brushes 4 are respectively arranged near the edge of the cleaning space 3. The cleaning brush 4 with eccentric rotation utilizes the principle that the electric mop, namely the middle mop, rotates radially and at different linear speeds to ensure that the cleaning brush 4 rotates randomly to strengthen the decontamination effect.

Still further in the utility model discloses in can consider, still include automatic numerical control device, automatic numerical control device is including locating organism integrated circuit module part, the power plug part (disconnect-type power plug part) in the washing bucket body, organism integrated circuit module part includes integrated circuit module, module power, the power plug part includes a plurality of control button and pilot lamp.

It should be noted that the utility model discloses well integrated circuit module is PLC time relay control panel able to programme, the utility model discloses during batch production, the PLC time relay control panel able to programme of the open sale in optional market. When large-scale production is established, a professional manufacturer can fire the special integrated circuit module so as to reduce the production cost.

Automatic numerical control device and operational overview

1. Power plug part

The power plug consists of a two-phase three-wire (live wire, zero wire and ground wire) standard 220V power plug, a control key and an indicator light.

The key function is as follows: k₁-a start/stop switch; k₂-a soap selection mode switch.

The function of the indicator light is as follows: running indicator light and soap lye mode indicator light

2. Body integrated circuit module part

The power supply module consists of an integrated circuit module and a module power supply.

An integrated circuit module: for the utility model discloses the control core of host computer operation, the function of each lead wire is: 1. 2, positive and negative leads of a module working power supply; 3 is a main machine power supply live wire lead; 4 is a soap liquid mode trigger lead; 5 is a water injection valve lead; 6 is a tractor lead; 7. 8 and 9 are control plug leads of the electric mop, wherein 7 is a public lead, 8 is a washing rotating speed lead, and 9 is a dewatering rotating speed lead.

A module power supply: and providing a low-voltage direct current power supply for the integrated circuit module.

3. Working procedure of the automatic numerical control device:

the washing rotating speed of the mop cloth of the electric mop can be the working rotating speed when the electric mop is used for mopping the floor; the dewatering rotating speed of the mop cloth of the electric mop after being washed can be more than 2 times of the working rotating speed when the mop cloth of the electric mop is used for mopping the floor.

Closing an electric mop operation switch, and placing the electric mop operation switch on a cleaning and dewatering machine bearing platform; the electric mop handle is pushed into a fixed chuck (not shown in the figure), and a control plug is inserted into a jack on the electric mop handle, so that the automatic numerical control device circuit is communicated with the electric mop drive circuit.

A normal washing mode: washing and dewatering without adding soap liquid. K₁Alloy K₂And (7) breaking.

pressing K₁Starting, the module power supply and the integrated circuit module work, the lead 7 is communicated with the lead 8, the washing rotation timing is started, and the electric mop and the mop rotate at the washing rotation speed; meanwhile, the lead 3 is communicated with the lead 5, water spraying timing is started, the integrated circuit module is controlled in a mode of being communicated for a plurality of seconds and being disconnected for a plurality of seconds, intermittent water spraying is achieved, and washing is started.

and secondly, ending the water spraying timing, disconnecting the lead 3 from the lead 5, stopping water spraying, ending washing, ending the washing rotation timing, disconnecting the lead 7 from the lead 8, communicating the lead 7 with the lead 9, starting the dewatering rotation timing, and rotating the electric mop and the mop at a dewatering rotation speed to start dewatering.

③, the dewatering rotation timing is finished, the lead 7 and the lead 9 are disconnected, and the common washing procedure of the mop of the electric mop is finished.

And (3) a soap solution washing mode: pre-washing, soap liquor washing, rinsing and dewatering. K₁Alloy K₂And (6) mixing.

pressing K₁Starting, while pressing K₁A soap liquid mode key, a module power supply and an integrated circuit module work, a lead 7 is communicated with a lead 8, the washing rotation timing is started, and the electric mop and the mop rotate at the washing rotation speed; meanwhile, the lead 3 is communicated with the lead 5, water spraying timing is started for 1 time, the integrated circuit module is controlled in a mode of being communicated for a plurality of seconds and being disconnected for a plurality of seconds, intermittent water spraying is achieved, and prewashing is started.

and secondly, after the water spraying timing is finished, the lead 3 and the lead 5 are disconnected, the water spraying is stopped, the prewashing is finished, meanwhile, the lead 3 and the lead 6 are communicated and disconnected for a plurality of times, the soap solution washing timing is started, the tractor extrudes the soap solution for a plurality of times to press the soap solution to the mop, and the electric mop and the mop continuously rotate at the washing rotating speed to wash the soap solution.

and thirdly, the soap lye washing timing is finished, the soap lye washing is finished, meanwhile, the lead 3 is communicated with the lead 5, the water spraying timing is started for 2 times, and the integrated circuit module is controlled in a mode of being communicated for a plurality of seconds and being disconnected for a plurality of seconds, so that the intermittent water spraying is realized, and the rinsing is started.

fourthly, the water spraying timing is finished for 2 times, the lead 3 is disconnected with the lead 5, the water spraying is stopped, the rinsing is finished, meanwhile, the washing rotation timing is finished, the lead 7 is disconnected with the lead 8, the lead 7 is communicated with the lead 9, the dehydration rotation timing is started, and the electric mop and the mop rotate at the dehydration rotation speed to start the dehydration.

⑤, the dewatering rotation timing is finished, the lead 7 is disconnected with the lead 9, and the washing procedure of the electric mop with the soap solution is finished.

To sum up, the utility model provides an electric mop automatic cleaning and dewatering machine which can realize the washing and dewatering of the electric mop and has the characteristics of automation, high efficiency, good cleaning effect and the like.

Claims (10)

1. The utility model provides an electronic mop self-cleaning hydroextractor, is including being used for the washing staving to electronic mop washing/dehydration, its characterized in that:

a pair of bearing platforms are symmetrically arranged on the bottom wall of the cleaning barrel body, the bearing platforms and the cleaning barrel body are integrally formed, the bottom of the cleaning barrel body is surrounded into a cleaning space matched with the shape of a mop cloth of the electric mop, and a cleaning mechanism, a water spraying mechanism, a soap liquid output mechanism and a drainage mechanism are arranged in the cleaning space;

the cleaning mechanism comprises a cleaning brush/cleaning chopping board and a supporting table for mounting the cleaning brush/cleaning chopping board, and the supporting table is fixedly connected with the bottom wall of the cleaning barrel body;

the water spraying mechanism comprises water sprayers symmetrically arranged in the cleaning space, a plurality of spray heads arranged at the upper ends of the water sprayers, a water supply pipe for supplying water to the water sprayers, and an electric control valve assembled on the water supply pipe;

the soap liquid output mechanism comprises liquid outlets symmetrically arranged in the cleaning space, a plurality of liquid outlet heads arranged at the upper ends of the liquid outlets, a soap liquid supply pipe used for supplying soap liquid to the liquid outlets and a soap liquid bottle;

the drain mechanism includes a drain pipe.

2. An electric mop swab automatic cleaning dewaterer according to claim 1, characterized in that: the upper end of one side of the cleaning barrel body is also provided with an installation cavity, and a soap liquid bottle and a driving mechanism for driving the soap liquid bottle to discharge liquid are installed in the installation cavity.

3. An electric mop swab automatic cleaning dewaterer according to claim 2, characterized in that: the liquid outlet head is sleeved with a liquid outlet hose, the upper end of the liquid outlet hose and the upper surface of the cleaning brush/cleaning chopping board are located at the same height, the liquid supply pipe penetrates through one end inside the cleaning barrel body and is connected with the input end of the liquid outlet device, the other end of the liquid supply pipe is connected with the output end of the soap liquid bottle, the driving mechanism comprises an adjusting rod and a tractor installed in the installation cavity, the middle of the adjusting rod is hinged to a pressing head of the soap liquid bottle, one end of the adjusting rod is hinged to the inner wall of the installation cavity, and the other end of the adjusting rod is connected with a.

4. An electric mop swab automatic cleaning dewaterer according to claim 1, characterized in that: the cleaning device is characterized in that a water retaining mechanism is further arranged above the cleaning space, and the water retaining mechanism comprises a circle of water-avoiding brush which is arranged along the inner periphery of the cleaning barrel body and is detachably arranged in the cleaning barrel body.

5. An electric mop swab automatic cleaning dewaterer according to claim 1, characterized in that: the cleaning hairbrush/cleaning chopping block is detachably arranged on the supporting table through an installation part, a first telescopic spring is arranged between the cleaning hairbrush/cleaning chopping block and the supporting table, and the installation part comprises an adjusting screw rotatably arranged on the cleaning hairbrush/cleaning chopping block and a screw hole arranged on the supporting table and in threaded fit with the adjusting screw.

6. An electric mop swab automatic cleaning dewaterer according to claim 5, characterized in that: the number of the cleaning brushes/cleaning chopping blocks is two, the two cleaning brushes/cleaning chopping blocks are symmetrically arranged in the cleaning space, and the cleaning brushes/cleaning chopping blocks are X-shaped.

7. An electric mop swab automatic cleaning dewaterer according to claim 5, characterized in that: the number of the cleaning brushes/cleaning chopping boards is one, the cleaning brushes/cleaning chopping boards are in a straight shape, and the cleaning brushes/cleaning chopping boards are placed along the length direction of the cleaning space and fixed in the middle of the cleaning space.

8. An electric mop swab automatic cleaning dewaterer according to claim 1, characterized in that: the cleaning hairbrush comprises a brush plate and bristles arranged at the upper end of the brush plate, the cleaning chopping block comprises a supporting plate and a chopping block, one end of the chopping block is hinged to the supporting plate, a plurality of second telescopic springs are arranged between the chopping block and the supporting plate, and the upper surface of the chopping block is wavy or linear.

9. An electric mop swab automatic cleaning dewaterer according to claim 8, characterized in that: the input end of the water supply pipe penetrates through the inside of the cleaning barrel body to be connected with the water faucet, the electric control valve is installed inside the cleaning barrel body, the water sprayer is in a straight pipe shape or an annular shape, and the upper end of the spray head and the upper surface of the brush plate/supporting plate are located at the same height.

10. An electric mop swab automatic cleaning dewaterer according to claim 1, characterized in that: the cleaning brush is arranged in the cleaning space symmetrically, the cleaning brush is rotatably arranged on the supporting table, and the two cleaning brushes are respectively close to the edge of the cleaning space.

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