CN212346466U - Shoe washing machine - Google Patents

Abstract

The utility model belongs to the technical field of washing equipment, the problem that the water level detection device who aims at solving current shoe washing machine easily breaks down. Therefore, the utility model provides a shoe washing machine, including box and the holding member of setting in the box, shoe washing device and water level detection device, be formed with the washing cavity in the holding member, water level detection device includes level sensor and connecting pipe, the connecting pipe includes first pipeline section and second pipeline section, the one end and the level sensor intercommunication of first pipeline section, the other end and the one end intercommunication of second pipeline section of first pipeline section, the other end and the bottom intercommunication of washing cavity of second pipeline section, the internal diameter of second pipeline section is greater than the internal diameter of first pipeline section, be provided with the settling section in the second pipeline section, the setting position of settling section is less than the setting position of first pipeline section in order to prevent that the foreign matter from getting into first pipeline section. So that the foreign matters entering the second pipe section can stay at the settling section and can not enter the first pipe section, thereby ensuring the normal work of the water level detection device.

Description

Shoe washing machine

Technical Field

The utility model belongs to the technical field of washing equipment, specifically provide a shoe washing machine.

Background

A shoe washing machine is equipment for washing shoes by using the principle of converting electric energy into mechanical energy. Along with the continuous improvement of the living standard of people, the shoe washing machine gradually enters the family of people, and great convenience is provided for the life of people.

The existing shoe washing machine is generally provided with a water level detection device which detects the water level when water enters and exits so as to judge whether a water inlet system and a water outlet system of the shoe washing machine are normal or not. The water level detection device of the existing shoe washing machine is generally the same as the water level detection device used on the washing machine, however, as the shoe washing machine is used for washing shoes, larger particles such as stones can be generated on the shoes, and the large particles can easily cause the water level detection device to be blocked, thereby causing the water level detection device to be broken down.

Therefore, there is a need in the art for a new shoe washing machine to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, namely to solve the problem that the water level detection device of the prior shoe washing machine is easy to break down, the utility model provides a shoe washing machine, which comprises a box body, and an accommodating component, a shoe washing device and a water level detection device which are arranged in the box body, a washing chamber is formed in the receiving member, the water level detecting device includes a water level sensor and a pressure guide pipe, the pressure guide pipe comprises a first pipe section and a second pipe section, one end of the first pipe section is communicated with the water level sensor, the other end of the first pipe section is communicated with one end of the second pipe section, the other end of the second pipe section is communicated with the bottom of the washing chamber, the inner diameter of the second pipe section is larger than that of the first pipe section, and a settling section is arranged in the second pipe section, and the setting position of the settling section is lower than that of the first pipe section so as to prevent foreign matters from entering the first pipe section.

In a preferred technical scheme of the shoe washing machine, the pressure pipe further comprises a transition pipe section, a first connector of the transition pipe section is communicated with the other end of the first pipe section, and a second connector of the transition pipe section is communicated with one end of the second pipe section.

In a preferred embodiment of the above shoe washing machine, the transition pipe section is vertically disposed, and the first connector is located above the second connector.

In the preferable technical scheme of the shoe washing machine, the shoe washing device comprises a moving mechanism and a swinging shoe brushing mechanism, the swinging shoe brushing mechanism is in pivot connection with the moving mechanism, and the moving mechanism is arranged to drive the swinging shoe brushing mechanism to move in a reciprocating linear manner.

In a preferred embodiment of the above shoe washing machine, the swinging shoe brushing mechanism includes a shoe brushing assembly and a self-adaptive adjustment assembly, the shoe brushing assembly is pivotally connected to the moving mechanism, the self-adaptive adjustment assembly is connected between the moving mechanism and the shoe brushing assembly, and the self-adaptive adjustment assembly is configured to allow the shoe brushing assembly to rotate relative to the moving mechanism under the action of an external force and to return the shoe brushing assembly to an initial position after the external force is removed.

In a preferred technical solution of the above shoe washing machine, the adaptive adjustment assembly includes two elastic members, one end of each of the two elastic members is connected to the moving mechanism, and the other end of each of the two elastic members is connected to the shoe brushing assembly.

In a preferred embodiment of the above shoe washing machine, the two elastic members are respectively provided at both sides of the shoe brush assembly.

In a preferred embodiment of the above shoe washing machine, the elastic member is a spring.

In a preferred technical solution of the above shoe washing machine, the shoe brushing assembly includes a connecting arm pivotally connected to the moving mechanism and a brush wheel provided at an end of the connecting arm, and the adaptive adjustment assembly is connected to the connecting arm.

In the preferable technical scheme of the shoe washing machine, the moving mechanism comprises a driving member, a moving frame and a transmission assembly for connecting the driving member and the moving frame, the driving member can drive the transmission assembly to move so as to drive the moving frame to move linearly in a reciprocating manner, and the swinging shoe brushing mechanism is pivotally connected with the moving frame.

It can be understood by those skilled in the art that, in the preferred technical solution of the present invention, the water level detecting device includes a water level sensor and a pressure pipe, the pressure pipe includes a first pipe section and a second pipe section, one end of the first pipe section is communicated with the water level sensor, the other end of the first pipe section is communicated with one end of the second pipe section, the other end of the second pipe section is communicated with the bottom of the washing chamber, the inner diameter of the second pipe section is greater than the inner diameter of the first pipe section, and a settling section is provided in the second pipe section, and the setting position of the settling section is lower than the setting position of the first pipe section to prevent the foreign matter from entering the first pipe section. Through such setting for foreign matter such as stone of second pipeline section can stay in settling section department, can not enter into first pipeline section, thereby can guarantee that water level detection device normally works.

Further, the pressure pipe still includes the transition pipeline section, and the first interface of transition pipeline section communicates with the other end of first pipeline section, and the second interface of transition pipeline section communicates with the one end of second pipeline section, and the transition pipeline section sets up vertically to first interface is located the top of second interface. With this arrangement, it is possible to more effectively prevent foreign matter such as stones in the second pipe section from entering the first pipe section.

Further, the elastic members are arranged on the two sides of the shoe brushing assembly to connect the shoe brushing assembly with the moving frame, so that in the shoe washing process of the shoe washing machine, the shoe brushing assembly can adaptively adjust the pivoting angle of the shoe brushing assembly according to the size (such as height and length) of the shoe, and the shoe brushing assembly is acted on the surface of the shoe with proper pressure under the action of the elastic members, so that the shoe can be washed, the cleaning effect of the shoe is guaranteed, and the shoe cannot be damaged due to overlarge pressure on the shoe.

Further, elastic component is the spring, every spring is connected between linking arm and removal frame with the mode of tensioning, thereby remove the in-process that the frame drove linking arm and brush wheel and remove, the linking arm can support the pivot and make the brush wheel support on shoes with appropriate pressure for removing the frame when the brush wheel atress, thereby realize the flexible scrubbing to shoes, avoid the brush wheel too big and damage shoes to the pressure of shoes, and when brush wheel and shoes separate, the spring can drive the linking arm and get back to initial position, thereby stop the scrubbing operation to shoes or wait for the scrubbing operation that gets into next time, through such setting, the degree of freedom and the flexibility of brush wheel have been improved, make the shoe washing machine can adapt to more not unidimensional shoes simultaneously.

Drawings

FIG. 1 is a schematic view showing the structure of a water level detecting device and a receiving member of a shoe washing machine according to the present invention;

FIG. 2 is a schematic view of the structure of the shoe washing device of the shoe washing machine of the present invention;

fig. 3 is a schematic structural view of the swing shoe brushing mechanism of the shoe washing machine of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms "in", "up", "down", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The problem that the water level detection device of current shoe washing machine easily breaks down based on the background art points out, the utility model provides a shoe washing machine aims at preventing that the water level detection device of shoe washing machine breaks down because of being blockked up by particles such as stone.

Specifically, as shown in fig. 1 and 2, the present invention provides a shoe washing machine, which comprises a box body (not shown in the figure) and a containing member 1, a shoe washing device 2 and a water level detecting device 3 arranged in the box body, wherein a washing chamber 11 is formed in the containing member 1, the water level detecting device 3 comprises a water level sensor 31 and a pressure guiding pipe, the pressure guiding pipe comprises a first pipe section 32 and a second pipe section 33, one end of the first pipe section 32 is communicated with the water level sensor 31, the other end of the first pipe section 32 is communicated with one end of the second pipe section 33, the other end of the second pipe section 33 is communicated with the bottom of the washing chamber 11, the inner diameter of the second pipe section 33 is larger than the inner diameter of the first pipe section 32, and, a settling section 331 is provided in the second pipe section 33, and the settling section 331 is provided at a position lower than that of the first pipe section 32 to prevent foreign materials from entering the first pipe section 32. Specifically speaking, water level sensor 31 and first pipe section 32 belong to supporting products, can directly purchase, the internal diameter of first pipe section 32 is less, easily be blockked up by foreign matters such as stone, second pipe section 33 and washing chamber 11 intercommunication through making great internal diameter, and be provided with in the second pipe section 33 and deposit section 331, the position that sets up of depositing section 331 is less than the position that sets up of first pipe section 32, make foreign matters such as stone that get into second pipe section 33 can stop in depositing section 331 department, can not enter into in first pipe section 32, thereby can guarantee water level detection device 3 and normally work.

Preferably, as shown in fig. 1, the pressure pipe further includes a transition pipe section 34, a first interface 341 of the transition pipe section 34 is communicated with the other end of the first pipe section 32, and a second interface 342 of the transition pipe section 34 is communicated with one end of the second pipe section 33. Wherein the transition pipe section 34 is connected with the outer side wall of the receiving member 1. Further preferably, the transition duct section 34 is vertically disposed, and the first interface 341 is located above the second interface 342. With this arrangement, it is possible to more effectively prevent foreign matter such as stones entering the second pipe section 33 from entering the first pipe section 32.

Preferably, as shown in fig. 2 and 3, the shoe washing device 2 comprises a moving mechanism 21 and a swinging shoe brushing mechanism 22, the swinging shoe brushing mechanism 22 is pivotally connected with the moving mechanism 21, and the moving mechanism 21 is configured to drive the swinging shoe brushing mechanism 22 to reciprocate linearly. The swinging shoe brushing mechanism 22 comprises a shoe brushing assembly 221 and an adaptive adjusting assembly 222, the shoe brushing assembly 221 is pivotally connected with the moving mechanism 21, the adaptive adjusting assembly 222 is connected between the moving mechanism 21 and the shoe brushing assembly 221, and the adaptive adjusting assembly 222 is arranged to allow the shoe brushing assembly 221 to rotate relative to the moving mechanism 21 under the action of external force and enable the shoe brushing assembly 221 to return to an initial position after the external force is removed.

Wherein, the shoe-brushing component 221 can be a component of a brush wheel and a connecting arm, or can be a component of a brush and a connecting arm, etc., and those skilled in the art can flexibly set the specific structure of the shoe-brushing component 221 in practical application, as long as the shoes can be brushed by the shoe-brushing component 221. In addition, self-adaptation regulating assembly 222 can comprise elastic component such as spring, elastic ball and/or elastic block, can also comprise telescopic component such as telescopic link, pneumatic cylinder and/or cylinder, perhaps comprises the component of aerifing such as gasbag again, and this kind is not skew to the adjustment and the change of the concrete structure of self-adaptation regulating assembly 222 the utility model discloses a principle and scope all should be injectd within the protection scope.

It should be noted that, in the technical solution of the present invention, the adaptive adjustment component 222 is used to allow the shoe brush component 221 to pivot smoothly relative to the moving mechanism 21 when the shoe brush component 221 brushes the shoe, that is, when an interaction force is generated between the shoe brush component 221 and the shoe, the adaptive adjustment component 222 does not prevent the shoe brush component 221 from rotating relative to the moving mechanism 21 and can also enable the shoe brush component 221 to abut against the shoe with a proper pressure, so that the shoe brush component 221 can contact the shoe and rub and brush the shoe, and at the same time, the acting force between the shoe brush component 221 and the shoe is not too large to damage the shoe; after the force between the shoe brush assembly 221 and the shoe is completely removed, the shoe brush assembly 221 can return to the initial position by the adaptive adjustment assembly 222, thereby completing the brushing or waiting for the next brushing operation.

In addition, it should be noted that the initial position of the shoe brush assembly 221 is a position where the shoe brush assembly 221 is not subjected to the force of the shoe, that is, a position where the shoe brush assembly 221 is in a natural state, and a person skilled in the art can flexibly set the initial position in practical applications as long as the shoe brush assembly 221 can return to the natural state (that is, the shoe brush assembly 221 is not subjected to the external force) by setting the initial position.

Preferably, as shown in fig. 2 and 3, the adaptive adjustment assembly 222 includes two elastic members 2221, one ends of the two elastic members 2221 are connected to the moving mechanism 21, and the other ends of the two elastic members 2221 are connected to the shoe brush assembly 221. Among them, the elastic member 2221 is preferably a spring 2221, and the pivoting of the shoe brush assembly 221 with respect to the moving mechanism 21 can be achieved by the expansion and contraction of the spring 2221 and the shoe brush assembly 221 can be returned to the initial position, which is the position where the shoe brush assembly 221 is in the vertical direction, as shown in fig. 2. Of course, the elastic member 2221 may also be the elastic ball and/or the elastic block, etc. as described above, and those skilled in the art can flexibly set the structure and type of the elastic member 2221 in practical applications as long as the shoe brush assembly 221 can be pivoted relative to the moving mechanism 21 by the elastic member 2221 and the shoe brush assembly 221 can be returned to the initial position.

Preferably, as shown in fig. 3, two springs 2221 are provided at both sides of the shoe brush assembly 221, respectively. In one possible embodiment, the two springs 2221 are respectively disposed at both sides of the shoe brush assembly 221 in a stretching manner, that is, in a natural state, the two springs 2221 respectively provide the same amount of tensile force to the shoe brush assembly 221, so that the forces at both sides of the shoe brush assembly 221 are balanced, and the shoe brush assembly 221 is in a vertical position in the natural state. Specifically, as shown in fig. 2 and 3, when the shoe brush assembly 221 is moved from right to left by the moving mechanism 21, the shoe is horizontally disposed, the shoe brush assembly 221 first contacts with the toe of the shoe, so that an interaction force occurs between the shoe brush assembly 221 and the shoe, the interaction force makes the shoe brush assembly 221 swing to the right relative to the moving mechanism 21, at this time, the tension of the spring 2221 located at the left side of the shoe brush assembly 221 on the shoe brush assembly 221 gradually increases, and the tension of the spring 2221 located at the right side of the shoe brush assembly 221 on the shoe brush assembly 221 gradually decreases, so that the shoe brush assembly 221 abuts against the shoe at the lower left side with a proper force, and thus the shoe brushing operation is achieved. In addition, in the moving process of the moving mechanism 21, the shoe brushing assembly 221 gradually moves from the toe portion to the tongue portion of the shoe, so that the swing angle of the shoe brushing assembly 221 is increased as the height of the shoe is gradually increased, and each portion of the shoe can be brushed by the above brushing method. Of course, the above description is only exemplary, and in practical applications, the moving mechanism 21 may be controlled to move from left to right, or the moving mechanism 21 may be controlled to reciprocate in the horizontal direction, so as to achieve repeated brushing on the shoes. In another possible embodiment, the two springs 2221 may be disposed at both sides of the shoe brush assembly 221 in a compressed manner, that is, in a natural state, the two springs 2221 respectively provide the same amount of pressure to the shoe brush assembly 221, so that the forces at both sides of the shoe brush assembly 221 are balanced, and the shoe brush assembly 221 is in a vertical position in the natural state. In yet another possible embodiment, one spring 2221 arranged in a compressed manner and one spring 2221 arranged in a stretched manner may also be arranged on one side of the shoe brush assembly 221, respectively, i.e. the forces of the shoe brush assembly 221 are balanced by the tension spring 2221 (providing a pulling force on the shoe brush assembly 221) and the compression spring 2221 (providing a pressing force on the shoe brush assembly 221) being positioned on the same side of the shoe brush assembly 221. The arrangement of the spring 2221 can be flexibly set by those skilled in the art in practical applications as long as the shoe brush assembly 221 can be pivoted relative to the moving mechanism 21 by the spring 2221 and the shoe brush assembly 221 can be returned to the initial position. Further, as shown in fig. 3, when two springs 2221 are respectively disposed at both sides of the shoe brush assembly 221, the springs 2221 are obliquely disposed. Of course, in practical applications, the springs 2221 may be disposed in a horizontal or vertical direction, and those skilled in the art can flexibly set the installation angle of the springs 2221 according to the specific structures of the moving mechanism 21 and the shoe brush assembly 221, as long as the forces provided by the two springs 2221 can balance the forces on the two sides of the shoe brush assembly 221.

Preferably, as shown in fig. 2 and 3, the shoe brush assembly 221 includes a connecting arm 2211 pivotally connected to the moving mechanism 21 and a brush wheel 2212 provided at an end of the connecting arm 2211, and the two elastic members 2221 of the adaptive adjustment assembly 222 are connected to the connecting arm 2211. Wherein, the top end of the connecting arm 2211 is pivotally connected with the moving mechanism 21, and the bottom end of the connecting arm 2211 is connected with the brush wheel 2212. Through such setting for connecting arm 2211 can use the connecting point of connecting arm 2211 and moving mechanism 21 as the centre of a circle, uses the length of connecting arm 2211 self to realize the pendulum of connecting arm 2211 as the radius and change, thereby makes connecting arm 2211 can cover bigger scope at the in-process of pendulum change, promptly, the circular arc length that the brush wheel 2212 moved under the pendulum change of connecting arm 2211 is longer, thereby not only be convenient for scrub shoes, can also adapt to more not unidimensional shoes.

Preferably, as shown in fig. 2 and 3, the moving mechanism 21 includes a driving member 211, a moving frame 212, and a transmission assembly (not shown in the figure) for connecting the driving member 211 and the moving frame 212, the driving member 211 can drive the transmission assembly to move so as to drive the moving frame 212 to move linearly and reciprocally, and the oscillating shoe brushing mechanism 22 is pivotally connected to the moving frame 212. The transmission assembly can be a gear rack pair or a lead screw nut pair or other transmission mechanisms, the driving member 211 is preferably a driving motor 211, the top end of the connecting arm 2211 is pivotally connected to the moving frame 212, and the driving motor 211 can drive the moving frame 212 to move linearly and reciprocally through the transmission assembly and thus drive the shoe brushing assembly 221 to brush the shoes.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. A shoe washing machine is characterized by comprising a box body, a containing component, a shoe washing device and a water level detection device, wherein the containing component, the shoe washing device and the water level detection device are arranged in the box body, a washing chamber is formed in the containing component, the water level detection device comprises a water level sensor and a pressure guide pipe, the pressure guide pipe comprises a first pipe section and a second pipe section, one end of the first pipe section is communicated with the water level sensor, the other end of the first pipe section is communicated with one end of the second pipe section, the other end of the second pipe section is communicated with the bottom of the washing chamber, the inner diameter of the second pipe section is larger than that of the first pipe section, a settling section is arranged in the second pipe section, and the setting position of the settling section is lower than that of the first pipe section so as to prevent foreign matters from entering the first pipe.

2. The shoe washing machine of claim 1, wherein the pressure pipe further comprises a transition pipe section, a first port of the transition pipe section is in communication with the other end of the first pipe section, and a second port of the transition pipe section is in communication with one end of the second pipe section.

3. The shoe washing machine of claim 2 wherein said transition duct section is vertically disposed and said first port is located above said second port.

4. The shoe washing machine of claim 1 wherein said shoe washing device includes a moving mechanism and a swinging shoe brushing mechanism, said swinging shoe brushing mechanism being pivotally connected to said moving mechanism, said moving mechanism being configured to move said swinging shoe brushing mechanism in a reciprocating linear motion.

5. The shoe washing machine of claim 4 wherein said oscillating shoe brush mechanism includes a shoe brush assembly pivotally connected to said moving mechanism and an adaptive adjustment assembly connected between said moving mechanism and said shoe brush assembly, said adaptive adjustment assembly being configured to allow said shoe brush assembly to rotate relative to said moving mechanism under an external force and to return said shoe brush assembly to an initial position after the external force is removed.

6. The shoe washing machine of claim 5 wherein said adaptive adjustment assembly comprises two resilient members, one end of said two resilient members being connected to said moving mechanism and the other end of said two resilient members being connected to said shoe brush assembly.

7. The shoe washing machine of claim 6 wherein said two resilient members are disposed on either side of said shoe brush assembly.

8. A shoe washing machine according to claim 6, characterized in that said elastic member is a spring.

9. The shoe washing machine of claim 5 wherein said shoe brush assembly comprises a connecting arm pivotally connected to said moving mechanism and a brush wheel disposed at an end of said connecting arm, said adaptive adjustment assembly being connected to said connecting arm.

10. The shoe washing machine according to any one of claims 4 to 9, wherein the moving mechanism comprises a driving member, a moving frame, and a transmission assembly for connecting the driving member and the moving frame, the driving member can drive the transmission assembly to move to drive the moving frame to move linearly and reciprocally, and the swinging shoe brushing mechanism is pivotally connected with the moving frame.

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