CN107224258B

CN107224258B - Multifunctional shoe washing device

Info

Publication number: CN107224258B
Application number: CN201710515682.3A
Authority: CN
Inventors: 朱元木; 廖爱华; 王昊鸣; 王文遥; 匡正; 何国东
Original assignee: Shanghai University of Engineering Science
Current assignee: Shanghai University of Engineering Science
Priority date: 2017-06-29
Filing date: 2017-06-29
Publication date: 2020-07-10
Anticipated expiration: 2037-06-29
Also published as: CN107224258A

Abstract

The invention relates to a multifunctional shoe washing device, which comprises a shell, a washing cavity arranged in the shell, a water inlet mechanism and a cleaning agent adding mechanism which are respectively communicated with the washing cavity, wherein a hairbrush shoe washing mechanism is arranged in the washing cavity, an ultrasonic emission rod and an ultraviolet sterilization lamp are arranged in the hairbrush shoe washing mechanism in parallel, a plurality of rotary shoe clamping mechanisms are arranged on the inner side wall of the washing cavity, a drainage mechanism is arranged at the bottom of the washing cavity, the multifunctional shoe washing device also comprises a drying mechanism matched with the washing cavity, and a controller which is respectively and electrically connected with the water inlet mechanism, the cleaning agent adding mechanism, the hairbrush shoe washing mechanism, the ultrasonic emission rod, the ultraviolet sterilization lamp, the rotary shoe clamping mechanisms, the drainage mechanism and the drying mechanism. Compared with the prior art, the shoe washing machine can automatically and sequentially carry out washing, draining, drying and sterilizing under the control of the controller, thoroughly and quickly wash and dry shoes, has a good cleaning effect, greatly saves shoe washing time, and is high in intelligent degree and easy to operate.

Description

Multifunctional shoe washing device

Technical Field

The invention belongs to the technical field of household appliances, and relates to a multifunctional shoe washing device.

Background

At present, most of shoe washing equipment only adopt the washing mode clean, clean form is single, and clean effect is relatively poor, is difficult to carry out all-round washing to each dead angle of shoes, and still need carry out the sunning after having cleaned, just can dress once more and use, not only spends time too much, and still can receive weather factor's interference.

In order to improve the cleaning effect of shoes, ultrasonic shoe cleaning equipment appears on the market, but only an ultrasonic cleaning mode is adopted, so that some stains which cannot be removed by ultrasonic waves are remained on the surfaces of the shoes, and bacteria on the surfaces of the shoes cannot be completely eliminated by the ultrasonic waves, water washing and the like, so that the cleaning effect is limited.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the multifunctional shoe washing device which is good in cleaning effect and convenient to use.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a multi-functional shoe cleaning device, the device include the casing, set up the washing chamber in the casing and respectively with wash mechanism, the sanitizer of intaking that the chamber is linked together and add the mechanism, the washing intracavity be equipped with brush shoe cleaning mechanism, be equipped with ultrasonic emission stick and sterilamp in this brush shoe cleaning mechanism side by side, the inside wall in washing chamber on be equipped with a plurality of rotation type shoes fixture, the bottom is equipped with drainage mechanism, the device still include with wash the stoving mechanism of chamber looks adaptation and respectively with intake mechanism, sanitizer add mechanism, brush shoe cleaning mechanism, ultrasonic emission stick, sterilamp, rotation type shoes fixture, drainage mechanism and the controller that stoving mechanism electricity is connected. The ultrasonic emission rod can emit sound waves with corresponding frequency to the shoes to clean stubborn stains on the shoes. The ultraviolet germicidal lamp continuously emits ultraviolet rays to the shoes to eliminate bacteria on the surfaces of the shoes, and the redundant ultraviolet rays are absorbed through the inner side walls of the cleaning cavities.

As a preferred technical scheme, an ultraviolet absorption coating is arranged on the inner side wall of the cleaning cavity. The ultraviolet absorbing coating absorbs excess ultraviolet light.

The water inlet mechanism comprises a water inlet arranged at the top of the shell, a water inlet pipe arranged between the water inlet and the cleaning cavity and a water inlet end electromagnetic valve arranged on the water inlet pipe, and the water inlet end electromagnetic valve is electrically connected with the controller. The controller controls the opening of the electromagnetic valve at the water inlet end, so that tap water sequentially enters the cleaning cavity through the water inlet and the water inlet pipe.

The detergent adding mechanism comprises a detergent adding port arranged at the top of the shell, a detergent storage tank arranged below the detergent adding port and communicated with the detergent adding port, a detergent feeding pipe arranged between the detergent storage tank and the cleaning cavity and a detergent end electromagnetic valve arranged on the detergent feeding pipe, and the detergent end electromagnetic valve is electrically connected with the controller. The detergent is added into the detergent storage tank through the detergent adding port, and the controller controls the opening of the electromagnetic valve at the detergent end, so that the detergent in the detergent storage tank enters the cleaning cavity through the detergent feeding pipe.

The brush shoe washing mechanism comprises a rotary brush rod arranged in the washing cavity along the vertical direction, a plurality of cleaning brushes uniformly distributed on the side face of the rotary brush rod and a brush rod rotating motor connected with the rotary brush rod in a transmission manner, the brush rod rotating motor is electrically connected with the controller, and the ultrasonic emission rod and the ultraviolet germicidal lamp are arranged in the rotary brush rod in parallel. The controller controls the rotating speed of the brush rod rotating motor, so that the brush rod rotating motor drives the rotating brush rod to rotate, and the cleaning brushes on the rotating brush rod perform basic cleaning work on shoes.

As the preferred technical scheme, a transmission gear is arranged between the bottom of the rotating brush rod and the rotating motor of the brush rod and is in transmission connection with the rotating motor of the brush rod through the transmission gear.

The inside of rotatory brush-holder stud be equipped with the cavity, be equipped with the support in this cavity, the outside of rotatory brush-holder stud is stretched out to the bottom of this support to with casing fixed connection, ultrasonic wave transmission stick and sterilamp set up on the support side by side. When the rotary brush rod rotates, the ultrasonic wave transmitting rod and the ultraviolet germicidal lamp keep static state.

The rotary shoe clamping mechanism comprises an electric shoe clamp arranged on the inner side wall of the cleaning cavity and a shoe clamp rotating motor arranged on the outer side wall of the cleaning cavity and in transmission connection with the electric shoe clamp, and the controller is electrically connected with the electric shoe clamp and the shoe clamp rotating motor respectively. The controller controls the electric shoe clamp to clamp and fix the shoes, and the controller controls the shoe clamp rotating motor to work in the shoe washing process, so that the electric shoe clamp and the shoes are driven to continuously rotate, and the shoes are comprehensively cleaned.

And a joint bearing is arranged between the electric shoe clamp and the shoe clamp rotating motor. The sliding contact surfaces of the knuckle bearing are an inner spherical surface and an outer spherical surface, and the knuckle bearing can rotate and swing at any angle during movement, so that the shoes can rotate flexibly, and the cleaning effect is improved.

The drainage mechanism comprises a drainage outlet arranged at the bottom of the cleaning cavity, a drainage pipe communicated with the drainage outlet and a drainage end electromagnetic valve arranged on the drainage pipe, and the drainage end electromagnetic valve is electrically connected with the controller. After the cleaning is finished, the controller controls the opening of the electromagnetic valve at the water discharge end, and the sewage in the cleaning cavity is discharged through the water discharge port and the water discharge pipe in sequence.

The side of the cleaning cavity is provided with an overflow port which is positioned above the rotary shoe clamping mechanism, and an overflow pipe is arranged between the overflow port and the drain pipe and is communicated with the drain pipe through the overflow pipe. When the water surface in the cleaning cavity is submerged through the overflow port, the redundant water is discharged through the overflow port, the overflow pipe and the drain pipe in sequence.

The top in washing chamber be equipped with the apron, stoving mechanism including set up in the casing and with wash the drying-apparatus of chamber looks adaptation and set up the fan on the apron, the controller respectively with drying-apparatus, fan electricity be connected. When the shoe drying stage is started, the dryer works to enable the temperature in the cleaning cavity to rise, and meanwhile the controller controls the fan to rotate to enable the cleaning cavity to generate air flow to accelerate the drying of the shoes.

As the preferred technical scheme, the dryer is a waterproof dryer which is positioned at the bottom of the cleaning cavity. So as to rapidly release a large amount of heat to dry the shoes.

As a preferable technical scheme, two fans are arranged on the cover plate in parallel. Two fans make the cleaning cavity generate a rotary airflow, so that the drying efficiency is improved.

As a preferred technical scheme, the shell is provided with a two-dimensional code. The device is started and sequentially carries out cleaning, drainage, drying and sterilization through scanning the two-dimensional code and paying, so that the device is arranged in a public area for a user to pay, and the trouble that people renting houses cannot place shoe washing equipment in houses due to factors such as price, occupied area and carrying, and the like, and the shoe washing is inconvenient is solved.

In practical application, one end of a water pipe is connected with a low-pressure tap water faucet which is always in an open state, the other end of the water pipe is connected with a water inlet, a cleaning agent is added into a cleaning agent storage tank, then a cover plate is opened, a shoe to be cleaned is clamped and fixed on an electric shoe clamp, and the cover plate is covered; starting the device, automatically and quantitatively feeding water in the water pipe and the cleaning agent in the cleaning agent storage tank into the cleaning cavity, and then starting the shoe clamp rotating motor, the brush rod rotating motor and the ultrasonic emission rod to work to comprehensively clean the shoes; after the cleaning is carried out for the preset time, the shoe clamp rotating motor, the brush rod rotating motor and the ultrasonic emission rod stop working, sewage in the cleaning cavity is discharged through a drain pipe, and then the drying stage is carried out; in the drying stage, the electromagnetic valve at the water discharge end is kept in an open state, the fan is matched with the dryer to dry the shoes, and water dropping from the shoes is discharged through the water discharge port; after the drying is finished, the ultraviolet sterilizing lamp is started to perform ultraviolet sterilization on the shoes, and after the preset time is reached, the device stops working and the cleaning is finished.

Compared with the prior art, the invention has the following characteristics:

1) the shoe washing machine can automatically and sequentially carry out washing, draining, drying and sterilizing under the control of the controller, thoroughly wash and quickly dry shoes, has good cleaning effect, greatly saves the shoe washing time, and has high intelligent degree and easy operation;

2) the mode of combining brush cleaning and ultrasonic cleaning is adopted, and the shoes are continuously rotated in multiple angles through the rotary shoe clamping mechanism, so that the cleaning effect of the shoes is ensured;

3) after the shoes are cleaned, the shoes are automatically dried and sterilized, and deep cleaning, safety and reliability are performed on the shoes.

Drawings

FIG. 1 is a schematic view showing the overall structure of an apparatus according to example 1;

FIG. 2 is a schematic top view of the apparatus in example 1;

the notation in the figure is:

1-shell, 2-cleanser end electromagnetic valve, 3-water inlet end electromagnetic valve, 4-water inlet, 5-cleanser adding port, 6-cover plate, 7-fan, 8-cleanser brush, 9-rotating brush rod, 10-ultrasonic emission rod, 11-ultraviolet germicidal lamp, 12-shoe clamp rotating motor, 13-electric shoe clamp, 14-overflow pipe, 15-drainage end electromagnetic valve, 16-dryer, 17-water outlet, 18-brush rod rotating motor, 19-cleaning cavity, 20-controller, 21-water inlet pipe, 22-cleanser storage tank, 23-cavity, 24-bracket, 25-water outlet pipe, 26-overflow port.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example 1:

the multifunctional shoe washing device comprises a shell 1, a washing cavity 19 arranged in the shell 1, a water inlet mechanism and a detergent adding mechanism which are respectively communicated with the washing cavity 19, wherein the washing cavity 19 is internally provided with a brush shoe washing mechanism, an ultrasonic emission rod 10 and an ultraviolet germicidal lamp 11 are arranged in the brush shoe washing mechanism in parallel, the inner side wall of the washing cavity 19 is provided with 6 rotary shoe clamping mechanisms, the bottom of the washing cavity is provided with a drainage mechanism, the device also comprises a drying mechanism matched with the washing cavity 19 and a controller 20 which is respectively electrically connected with the water inlet mechanism, the detergent adding mechanism, the brush shoe washing mechanism, the ultrasonic emission rod 10, the ultraviolet germicidal lamp 11, the rotary shoe clamping mechanisms, the drainage mechanism and the drying mechanism.

Wherein, the water inlet mechanism comprises a water inlet 4 arranged at the top of the shell 1, a water inlet pipe 21 arranged between the water inlet 4 and the cleaning cavity 19 and a water inlet end electromagnetic valve 3 arranged on the water inlet pipe 21, and the water inlet end electromagnetic valve 3 is electrically connected with the controller 20.

The detergent adding mechanism comprises a detergent adding port 5 arranged at the top of the shell 1, a detergent storage tank 22 arranged below the detergent adding port 5 and communicated with the detergent adding port 5, a detergent feeding pipe arranged between the detergent storage tank 22 and the cleaning cavity 19, and a detergent end electromagnetic valve 2 arranged on the detergent feeding pipe, wherein the detergent end electromagnetic valve 2 is electrically connected with the controller 20.

The brush shoe-washing mechanism comprises a rotary brush rod 9 arranged in a washing cavity 19 along the vertical direction, a plurality of cleaning brushes 8 evenly distributed on the side surface of the rotary brush rod 9 and a brush rod rotating motor 18 in transmission connection with the rotary brush rod 9, wherein the brush rod rotating motor 18 is electrically connected with a controller 20, and an ultrasonic emission rod 10 and an ultraviolet germicidal lamp 11 are arranged in the rotary brush rod 9 in parallel. The inside of the rotating brush rod 9 is provided with a cavity 23, a bracket 24 is arranged in the cavity 23, the bottom of the bracket 24 extends out of the rotating brush rod 9 and is fixedly connected with the shell 1, and the ultrasonic transmitting rod 10 and the ultraviolet germicidal lamp 11 are arranged on the bracket 24 in parallel.

The rotary shoe clamping mechanism comprises an electric shoe clamp 13 arranged on the inner side wall of the cleaning cavity 19 and a shoe clamp rotating motor 12 arranged on the outer side wall of the cleaning cavity 19 and in transmission connection with the electric shoe clamp 13, and the controller 20 is respectively electrically connected with the electric shoe clamp 13 and the shoe clamp rotating motor 12. A joint bearing is arranged between the electric shoe clamp 13 and the shoe clamp rotating motor 12.

The water discharge mechanism comprises a water discharge port 17 opened at the bottom of the wash chamber 19, a water discharge pipe 25 communicated with the water discharge port 17, and a water discharge end solenoid valve 15 provided on the water discharge pipe 25, the water discharge end solenoid valve 15 being electrically connected to the controller 20. An overflow port 26 is arranged on the side surface of the cleaning cavity 19, the overflow port 26 is positioned above the rotary shoe clamping mechanism, and an overflow pipe 14 is arranged between the overflow port 26 and the drain pipe 25 and is communicated with the drain pipe 25 through the overflow pipe 14.

The top of the cleaning cavity 19 is provided with a cover plate 6, the drying mechanism comprises a dryer 16 which is arranged in the shell 1 and matched with the cleaning cavity 19 and a fan 7 which is arranged on the cover plate 6, and the controller 20 is respectively electrically connected with the dryer 16 and the fan 7.

In practical application, one end of the water pipe is connected with a low-pressure tap water faucet which is always in an open state, the other end of the water pipe is connected with the water inlet 4, a cleaning agent is added into the cleaning agent storage tank 22, then the cover plate 6 is opened, a shoe to be cleaned is clamped and fixed on the electric shoe clamp 13, and the cover plate 6 is covered; starting the device, automatically and quantitatively feeding water in the water pipe and the cleaning agent in the cleaning agent storage tank 22 into the cleaning cavity 19, and then starting the shoe clamp rotating motor 12, the brush rod rotating motor 18 and the ultrasonic emission rod 10 to work to comprehensively clean the shoes; after the preset time of cleaning, the shoe clamp rotating motor 12, the brush rod rotating motor 18 and the ultrasonic emission rod 10 stop working, the sewage in the cleaning cavity 19 is discharged through the drain pipe 25, and then the drying stage is carried out; in the drying stage, the electromagnetic valve 15 at the water discharge end is kept in an open state, the fan 7 is matched with the dryer 16 to dry the shoes, and water dropping from the shoes is discharged through the water discharge port 17; after drying, the ultraviolet sterilizing lamp 11 is started to perform ultraviolet sterilization on the shoes, and after the preset time is reached, the device stops working and cleaning is finished.

Example 2:

in this embodiment, the inner sidewall of the cleaning chamber 19 is provided with 10 rotary shoe clamping mechanisms, as in embodiment 1.

The embodiments described above are described to facilitate an understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention based on the disclosure of the present invention.

Claims

1. A multifunctional shoe washing device is characterized by comprising a shell (1), a washing cavity (19) arranged in the shell (1), a water inlet mechanism and a cleaning agent adding mechanism which are respectively communicated with the washing cavity (19), wherein a brush shoe washing mechanism is arranged in the washing cavity (19), an ultrasonic emission rod (10) and an ultraviolet germicidal lamp (11) are arranged in the brush shoe washing mechanism in parallel, the inner side wall of the cleaning cavity (19) is provided with a plurality of rotary shoe clamping mechanisms, the bottom is provided with a drainage mechanism, the device also comprises a drying mechanism matched with the cleaning cavity (19) and a controller (20) which is respectively and electrically connected with the water inlet mechanism, the cleaning agent adding mechanism, the brush shoe washing mechanism, the ultrasonic emission rod (10), the ultraviolet germicidal lamp (11), the rotary shoe clamping mechanism, the water discharging mechanism and the drying mechanism; the brush shoe washing mechanism comprises a rotating brush rod (9) arranged in a washing cavity (19) along the vertical direction, a plurality of cleaning brushes (8) uniformly distributed on the side surface of the rotating brush rod (9) and a brush rod rotating motor (18) in transmission connection with the rotating brush rod (9), wherein the brush rod rotating motor (18) is electrically connected with a controller (20), and the ultrasonic emission rod (10) and the ultraviolet germicidal lamp (11) are arranged in the rotating brush rod (9) in parallel; a cavity (23) is arranged in the rotary brush rod (9), a bracket (24) is arranged in the cavity (23), the bottom of the bracket (24) extends out of the rotary brush rod (9) and is fixedly connected with the shell (1), and the ultrasonic emission rod (10) and the ultraviolet germicidal lamp (11) are arranged on the bracket (24) in parallel; the rotary shoe clamping mechanism comprises an electric shoe clamp (13) arranged on the inner side wall of a cleaning cavity (19) and a shoe clamp rotating motor (12) which is arranged on the outer side wall of the cleaning cavity (19) and is in transmission connection with the electric shoe clamp (13), and the controller (20) is respectively and electrically connected with the electric shoe clamp (13) and the shoe clamp rotating motor (12); a joint bearing is arranged between the electric shoe clamp (13) and the shoe clamp rotating motor (12), the sliding contact surface of the joint bearing is an inner spherical surface and an outer spherical surface, and the joint bearing can rotate and swing at any angle during movement; a cover plate (6) is arranged at the top of the cleaning cavity (19), the drying mechanism comprises a dryer (16) which is arranged in the shell (1) and is matched with the cleaning cavity (19) and a fan (7) which is arranged on the cover plate (6), and the controller (20) is respectively electrically connected with the dryer (16) and the fan (7); the cover plate (6) is provided with two fans (7) in parallel, and the two fans (7) enable the cleaning cavity to generate rotary airflow.

2. The multifunctional shoe washing device of claim 1, wherein the water inlet mechanism comprises a water inlet (4) arranged at the top of the shell (1), a water inlet pipe (21) arranged between the water inlet (4) and the washing cavity (19), and a water inlet solenoid valve (3) arranged on the water inlet pipe (21), and the water inlet solenoid valve (3) is electrically connected with the controller (20).

3. The multifunctional shoe washing device of claim 1, wherein the detergent adding mechanism comprises a detergent adding port (5) formed at the top of the housing (1), a detergent storage tank (22) disposed below the detergent adding port (5) and communicated with the detergent adding port (5), a detergent feeding pipe disposed between the detergent storage tank (22) and the washing chamber (19), and a detergent end solenoid valve (2) disposed on the detergent feeding pipe, the detergent end solenoid valve (2) being electrically connected to the controller (20).

4. The multi-functional shoe washing device according to claim 1, wherein the drain mechanism comprises a drain port (17) opened at the bottom of the washing chamber (19), a drain pipe (25) communicated with the drain port (17), and a drain end solenoid valve (15) provided on the drain pipe (25), the drain end solenoid valve (15) being electrically connected to the controller (20).

5. A multifunctional shoe washing device as claimed in claim 4, characterized in that an overflow opening (26) is formed on the side surface of the washing cavity (19), the overflow opening (26) is positioned above the rotary shoe holding mechanism, an overflow pipe (14) is arranged between the overflow opening (26) and the drain pipe (25), and the overflow pipe (14) is communicated with the drain pipe (25).