WO2021125456A1

WO2021125456A1 - Shoe polisher

Info

Publication number: WO2021125456A1
Application number: PCT/KR2020/005403
Authority: WO
Inventors: 김우일
Original assignee: 김우일
Priority date: 2019-10-25
Filing date: 2020-04-24
Publication date: 2021-06-24
Also published as: KR102073250B1

Abstract

The present invention relates to a shoe polisher, and more particularly, to a shoe polisher that can remove dust, apply shoe polish and evenly polish a shoe, and prevent damage to the shoe, the shoe polisher comprising: a main body; a model foot which is formed in the shape of a human foot and provided inside the main body, and on which a shoe may be worn; and a plurality of work holes that have a spherical shape and can perform at least one function among removing dust from the shoe, applying shoe polish to the shoe, and polishing the shoe. The model foot is provided with a plurality of electromagnets spaced apart at predetermined intervals. The plurality of electromagnets continuously repeat a process in which current is applied to only one of the electromagnets and then simultaneously cut off from the one electromagnet and applied to only one of the other electromagnets adjacent to the one electromagnet, and the plurality of work holes perform the function while moving along the surface of the shoe so as to follow the electromagnet to which current is applied.

Description

shoe polisher

The present invention relates to a shoe-cleaning device, and more particularly, to a shoe-cleaning device that can remove dust, apply shoe polish, and uniformly light the shoe and prevent damage to the shoe.

In general, as people wear shoes, foreign substances such as soil and water swell, and if the shoes with foreign substances are not taken care of, the shoes are damaged and the interior of a car or a building is dirty.

Therefore, although a shoe brush and shoe polish are usually provided at home or in the office, and shoes are regularly polished, it is difficult to maintain the iron state of the shoes when necessary or during a long-term outing because it is impossible to carry the shoe brush and shoe polish individually when going out.

In order to solve this problem, a shoe polishing device for automatically wiping shoes has been developed and installed on the street or in a place frequented by many people. Conventional shoe polishing apparatus is configured to rotate a belt to which a shoe brush is attached by a motor, brush dust off the shoe while the shoe brush comes into contact with the shoe, and then apply shoe polish to the shoe and then polish the shoe with the shoe brush.

The conventional shoe polishing apparatus has a problem in that the shoe brush does not uniformly contact the shoe, so that the dust is not removed or there is a portion that does not shine. In addition, if the shoe brush comes into contact with continuous use, there is a problem that the shoe is damaged in the process of polishing the shoe.

As a related art, Republic of Korea Patent Publication No. 10-0988959 was published on October 20, 2010.

An object of the present invention is to provide a shoe polishing device capable of removing dust, applying shoe polish, and uniformly illuminating the shoe and preventing damage to the shoe in order to solve the above problems.

The present invention is a body; a model foot that is formed in the form of a human foot and can be worn with shoes, and is provided inside the main body; A plurality of workers having a spherical shape and capable of performing at least one function of dust removal, shoe polish application, and polishing for the shoes, wherein the model feet are provided with a plurality of electromagnets at predetermined intervals, As the plurality of electromagnets continuously repeat that current is applied to only one electromagnet and then only the other electromagnet adjacent to one electromagnet is applied and the current to one electromagnet is blocked at the same time, the plurality of workers follow the electromagnet to which the current is applied It provides a shoe polishing device characterized in that it performs the above function while moving the surface of the shoe.

According to the present invention, since a plurality of workers move the surface of the shoe along the plurality of electromagnets provided on the model foot and perform the functions of removing dust, applying bitumen, and polishing the shoe, dust removal and application of bitumen on the entire surface of the shoe, And it can be polished, and it is possible to prevent damage to the shoes by the shoe brush.

1 is a view showing the overall structure of a shoe polishing apparatus according to the present invention.

2 is a view showing the structure of a worker applied to the shoe polishing apparatus according to the present invention.

3 is a view showing the structure of a model foot applied to the shoe polishing apparatus according to the present invention.

4 is a view showing a structure in which a model foot applied to the shoe polishing apparatus according to the present invention is installed to be movable in the vertical direction.

5 is a view showing a structure in which the injection port applied to the shoe polishing apparatus according to the present invention is rotatably installed.

6 is a view schematically showing a configuration for spraying shoe polish and water in the shoe polishing apparatus according to the present invention.

7 to 9 are views showing a process in which the worker applied to the shoe polishing apparatus according to the present invention moves along the electromagnet.

10 is a view showing that the shoelace protector applied to the shoe polishing apparatus according to the present invention is mounted.

11 is a view showing an angle between the surface of the shoe and the electromagnet applied to the shoe polishing device according to the present invention.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those of ordinary skill in the art without departing from the technical gist of the present invention.

Hereinafter, the shoe polishing apparatus according to the present invention will be described in detail with reference to the accompanying FIGS. 1 to 11 .

The shoe polishing apparatus of the present invention includes a main body (A), a model foot 100 and a worker 200 provided inside the main body (A) as shown in FIGS. 1 and 2 .

The main body (A) forms a predetermined space therein, and as will be described later, the shoe 10 is placed in the main body (A) or in the main body (A) in order to mount the shoe 10 to the model foot 100 . A door that opens and closes to take out the existing shoes 10 may be provided on one side. In addition, the outer wall of the main body (A) is formed to be completely or partially transparent, so that the user can see the process of wiping the shoes 10 from the outside.

The model foot 100 is formed in the form of a person's foot as shown in FIG. 3 so that the shoes 10 to be polished can be worn, and is provided inside the main body (A). The model foot 100 may be formed up to a portion corresponding to a person's ankle, as well as a portion corresponding to a portion of a person's calf, so that various types of shoes 10 may be worn. In addition, the model foot 100 may be manufactured in various sizes and provided so as to be replaceable to fit the size of the shoe 10 to be polished.

Such a model foot 100 may be provided in a fixed state in the main body A, but is provided to be movable within the main body A as shown in FIG. 4 for stable operation and convenient detachment of the shoes 10 can be For example, the model foot 100 may be provided to be movable in the vertical direction within the main body (A) so as to be in contact with the bottom surface of the main body (A) or to be spaced apart from the bottom surface of the main body (A).

The model foot 100 may be provided so that it can be moved fully automatically in the main body (A), as well as can be provided to be movable manually by a user's operation. An example of the specific coupling structure of the model foot 100 and the main body (A) moved according to manual operation is as follows.

As shown in FIG. 4, one end of the handle shaft 720 forming a rod shape having a predetermined length is vertically coupled to the upper portion of the model foot 100, and the other end of the handle shaft 720 is the body (A). A handle 710 capable of rotating the handle shaft 720 by a user gripping the handle shaft 720 while being exposed to the outside through the ceiling may be integrally provided. At this time, the handle shaft 720 and the ceiling of the body (A) in contact with it may have a structure in which a screw thread is formed and mutually screwed together, and when the handle shaft 720 rotates through the handle 710, the model foot 100 It is preferable that a bearing 730 is provided on the top of the model foot 100 so as not to rotate, and one end of the bearing 730 and the handle shaft 720 is coupled.

In addition, a guide groove 120 recessed in a straight shape from the top to a predetermined depth may be formed in the model foot 100 , and a guide pin 740 formed in a straight bar shape on the ceiling of the body (A). ) may be provided so that a part is located within the guide groove 120 . The guide groove 120 and the guide pin 740 are preferably formed so that their cross-sections correspond to each other, and it is more preferable that the cross-sections form a polygonal shape so as not to cause shaking when the model foot 100 moves up and down. Accordingly, the model foot 100 is moved along the guide pin 740 fixed to the ceiling of the main body (A) in the vertical movement, bar movement without shaking is possible.

As shown in Figure 3, the model foot 100 provided in the body (A) is provided with a plurality of electromagnets 110 at predetermined intervals. However, only some of the plurality of electromagnets are illustrated in the drawings. The electromagnet 110 means a magnet that is magnetized when a current flows and returns to an unmagnetized original state when the current is cut off, and is provided at equal intervals for the entire model foot 100 . At this time, power may be supplied to the plurality of electromagnets 110 by wires connected through the upper side of the model foot 100 .

For example, 26 electromagnets 110 may be provided to be identified from A to Z, and current may be sequentially applied to only one of the electromagnets 110 from electromagnet A to electromagnet Z. After the current is applied up to Z, the current may be applied to only one of the electromagnets 110 sequentially up to the electromagnet A in the reverse order. That is, after the current is applied to only one electromagnet 110 , the current is applied only to the other electromagnet 110 adjacent to the one electromagnet 110 and the current to the one electromagnet 110 is cut off continuously.

As a specific example, an electromagnet A, an electromagnet B, and an electromagnet C are provided in the heel portion of the model foot 100 , an electromagnet M is provided in the instep portion of the model foot 100 , and an electromagnet is provided in the upper part of the model foot 100 . Z may be provided. At this time, the part of the model foot 100 between the electromagnet C and the electromagnet M is provided with an electromagnet D-electromagnet L, and the part of the model foot 100 between the electromagnet M and the electromagnet Z is provided with an electromagnet N-electromagnet Y may be provided. In addition, the current does not necessarily need to be applied from the electromagnet A, and the current may be applied from the electromagnet B or the electromagnet C depending on the function to be performed.

In addition, each electromagnet 110 may be formed to have the same size, but the part where the shoes 10 should be concentrated in wiping, for example, the electromagnet 110 provided in the instep part is different from the electromagnet 110 . It may be formed to have a larger size than

On the other hand, the worker 200 has a spherical shape and is provided in plurality to perform at least one function of removing dust, applying bitumen, and polishing the shoes 10 worn on the model foot 100 . For example, the size of the working hole 200 may be formed to have a diameter of less than 1 cm, more preferably, the working hole 200 may be formed to have a diameter of 0.1 cm to 0.5 cm.

For example, about 100 workers 200 having such a small size perform at least one function of dust removal, bitumen application, and polishing while forming a group, and in order to perform these functions, a metal material is made of Accordingly, the plurality of workers 200 perform the above function by moving the surface of the shoe 10 worn on the model foot 100 along the electromagnet 110 to which the current is applied.

The working hole 200 may include a hair hole 210 , a weak hole 220 and a light hole 230 as specifically illustrated in FIG. 2 . The hair ball 210 may be formed in a spherical shape as an example, and may be coated with plastic on a core made of a metal material, and then may form a coated surface with hair made of a plastic material such as bristles attached. That is, the hair balls 210 are provided with hairs capable of removing dust on the outer surface, and a plurality of them move along the electromagnet 110 and rub the surface of the shoe 10 to perform a dust removal function.

The weak hole 220 may be formed in a spherical shape, for example, in a form in which a core made of a metal material is wrapped in several layers of fabric that can absorb shoe polish. That is, the weak hole 220 is wrapped with a fabric of a material capable of absorbing bitumen on the outer surface, and a plurality of them move along the electromagnet 110 to the surface of the shoe 10 to perform the function of applying bitumen through the absorbed bitumen. do. In addition, the light hole 230 may be formed, for example, in a spherical shape, in which a core made of a metal material is wrapped in several layers of a soft and friction-resistant fabric. That is, the light hole 230 is wrapped in a fabric of a material that is soft on the outside and resistant to friction, and a plurality of them move along the electromagnet 110 to the surface of the shoe 10 while applying friction to the shoe 10 coated with bitumen. , and it performs the polishing function.

As described above, after the dust of the shoes 10 is removed by about 100 hair balls 210, and then, bitumen is applied to the shoes 10 by about 100 weak holes 220, and then about 100 The shoe 10 is illuminated by the light hole 230 of the dog, and in this process, the worker 200 moves along the entire surface of the shoe 10 and performs a function without gaps. The present invention can prevent damage to shoes by conventional shoe brushes.

On the other hand, on the bottom surface of the main body (A), as shown in Figure 1, the work ball 200 can be accommodated and can be provided with a work box 300 that can be entered. The work storage box 300 is divided into a hair ball 210, a weak hole 220, and a light hole 230, so that

storage spaces

300a, 300b, and 300c that can accommodate a plurality of them are formed. It may be provided in the adjacent rear. As a specific example, an electromagnet A is provided in front of the space in which the hair hole 210 is accommodated, an electromagnet B is provided in front of the space in which the weak hole 220 is accommodated, and an electromagnet is provided in front of the space in which the light hole 230 is accommodated. C may be provided.

In addition, an opening and closing door may be provided on the front side of the work bulletin box 300 constituting each compartment space. In addition, the work storage box 300 may be provided with an electromagnet, and each of the

storage spaces

300a, 300b, and 300c in which the hair ball 210, the weak hole 220, and the light hole 230 are accommodated may be provided with an electromagnet, respectively. have. For example, an electromagnet a is provided in the hair ball storage space 300a in which the hair ball 210 is accommodated, and the electromagnet b is provided in the weak hole storage space 300b in which the weak hole 220 is accommodated, and the light hole 230 is accommodated. An electromagnet c may be provided in the light public storage space 300c.

On the other hand, the main body (A) provides an inflow path 400 providing a path through which external air is introduced into the body (A), and a path through which the air in the main body (A) is discharged to the outside, as shown in FIG. 1 . A discharge path 500 may be formed, and the inflow path 400 and the discharge path 500 may be formed in a tubular shape, and the inflow path 400 is formed in front of the main body (A) and the main body (A) ) to the rear of the discharge path 500 may be formed.

First, the discharge path 500 may be provided with an air inhaler 510 for sucking air outward, and a filter 520 for filtering foreign substances contained in the air sucked in by the air inhaler 510 .

According to the present invention, the air inhaler 510 can be continuously driven while the shoes 10 are being wiped, and a time range for driving can be set. Also, it is possible to adjust the intensity of sucking air while the shoes 10 are being wiped. For example, when the dust removal function is performed by the worker 200, the intensity of sucking air is strengthened, and when the shoe polish application or polishing function is performed by the worker 200, the intensity of sucking the air is weakened. can do.

The filter 520 is provided in front of the air inhaler 510 to filter foreign substances generated in the process of wiping the shoes 10 from being discharged to the outside, and may be provided to be replaced. In particular, when the dust removal function is performed by the worker 200 , the dust removed by the worker 200 is filtered by the filter 520 . In addition, when the bitumen application function is performed by the worker 200 , a small amount of bitumen powder is filtered by the filter 520 .

The inflow path 400 may be provided with a first electric heater 410 for heating the incoming air. The first heater 410 may be continuously driven while the shoes 10 are being cleaned, as well as set a driving time range. In addition, it is possible to adjust the degree of heating the air while the shoe 10 is being wiped. In particular, when the shoe polish application or polish function by each of the weak holes 220 and the light holes 230 is performed, the first electric heater 410 is driven so that the surface of the shoe 10 absorbs heat, so that the shoe polish is applied to the shoe 10 ) to be well absorbed, and the surface of the shoes 10 can be made to have a lot of light. At this time, the above-described air inhaler 510 may gently inhale the air, so that the warm air heated by the first electric heater 410 moves slowly and comes into contact with the surface of the shoe 10 .

On the other hand, as described above, at least one electromagnet 110 may be provided on the instep of the model foot 100 , and the main body A is attached to the model foot 100 as shown in FIGS. 5 and 6 . An injection port 610 for spraying shoe polish and water toward the instep of the worn shoe 10 may be provided. As an example, the injection hole 610 may be formed in a pipe shape having a predetermined length as shown in FIG. 5 , and may be provided on the ceiling of the body A to be vertically rotatable. That is, the injection port 610 is in a state parallel to the ceiling of the main body (A), and may be rotated 90° to face the instep of the shoe 10 worn on the model foot 100 before applying the shoe polish. In this state, the injection hole 610 sprays the shoe polish and water in the form of a spray toward the instep of the shoe 10 . In addition, one end of the injection hole 610 adjacent to the shoe 10 is formed to adjust the size of the hole, so that the user can control the amount of injection.

The body (A) may include a device for generating bitumen and water sprayed through the injection hole 610 . For example, as shown in FIG. 6 , the other end of the injection hole 610 may be connected to a connector that communicates with the outside, and the connector is a bitumen storage container 620 for accommodating bitumen, and compressed air introduced from the outside. The air compressor 650 and the compressed air tank 640 for storing the compressed air formed by the air compressor 650 may be in communication with or may be connected through a separate pipe. Such a connection pipe may be made of a solid material like the injection hole 610, as well as a soft material such as rubber.

In addition, the connection pipe may be provided with an injection valve 670 capable of controlling the supply of bitumen and water to the injection port 610 at a point between the injection port 610 and the bitumen storage container 620, and a compressed air tank 640. A compressed air valve 660 capable of controlling the supply of compressed air to a point in communication with the bitumen storage container 620 may be provided at a point between the and the bitumen storage container 620 . Here, the injection valve 670 or / and the compressed air valve 660 may instantaneously open and close, so that a small amount of bitumen and water are supplied to the injection port 610, and the hair hole 210 or the light hole 230. Make sure that the supply of bitumen and water is cut off when the work is in progress.

And, although liquid bitumen may be accommodated in the bitumen container 620, the solidified bitumen is accommodated, and the bitumen accommodated in the bitumen container 620 by the second heater 630 provided adjacent to the bitumen container 620. This can be heated and liquefied. Specifically, the second heater 630 continuously maintains the lowest temperature at which the bitumen starts to become liquid in order to prevent the bitumen from evaporating because the heated temperature is too high. In addition, before the dust removal operation by the hair ball 210 is completed, it is preferable that the liquid bitumen be prepared in advance, from the time the present invention starts to work until the bitumen application operation by the weak hole 220 is completed. The heater 630 is preferably continuously driven.

The process of polishing the shoes 10 through the shoe polishing apparatus of the present invention will be described in detail as follows.

1) Preparation process

The user opens the door of the main body (A), mounts the shoe 10 on the model foot 100 that is spaced apart from the bottom surface of the main body (A), closes the door, and then turns the handle 710 to turn the model The foot 100 is moved to be in contact with the bottom surface of the main body (A).

2) Dust removal process

As shown in FIG. 7, the hairball storage space 300a in which the hairballs 210 are accommodated in the workbook box 300 is opened, and a current is applied to the electromagnet A, as shown in FIG. 8, the hairballs 210 are the electromagnet A will stick around At this time, the air inhaler 510 is strongly operated, and from this time, power is applied to the second electric heater 630 to liquefy the bitumen. A current is applied to the electromagnet A and after a predetermined time (for example, about 0.5 seconds), the current is applied to the electromagnet B and as the current of the electromagnet A is cut off, the hair holes 210 attached to the electromagnet A are shown in FIG. As shown, it moves around electromagnet B. Thereafter, after a predetermined time elapses, as a current is applied to the electromagnet C and the current of the electromagnet B is cut off, the hair holes 210 attached to the electromagnet B are moved to the vicinity of the electromagnet C.

Through this process, the hairballs 210 move along the surface of the shoe 10 to the electromagnet Z located on the top of the model foot 100 to remove dust. After the hair ball 210 is located in the electromagnet Z, which is the highest position on the surface of the shoe 10, current is applied in the reverse order of the alphabet as in electromagnet Y, electromagnet X, ... going back down

When the dust on the surface of the shoe 10 is sufficiently removed while the hairballs 210 move from the electromagnet A to the electromagnet Z, and the process of moving from the electromagnet Z to the electromagnet A is repeated several times, the hairballs 210 are located around the electromagnet A After fixing the power to the electromagnet A, after opening the door of the hairball storage space 300a in which the hairballs 210 were accommodated, a current is applied to the electromagnet a provided in the hairball storage space 300a, and the electromagnet A By blocking the current of the hair balls 210 are accommodated in the work work box (300). Then, after closing the door of the hairgong storage space (300a) and cutting off the current to the electromagnet a, the intensity of the air inhaler 510 is changed from strong to weak.

3) Bitumen application process

In the work information box 300, the medicine hole 220 is accommodated in the medicine storage space 300b is opened, and a current is applied to the electromagnet B so that the medicine hole 220 is attached to the vicinity of the electromagnet B. Also, the injection valve 670 is opened and the first electric heater 410 is driven. Due to the driving of the first electric heater 410 , the heated air passes through the shoe 10 , so that the shoe polish is more effectively absorbed by the surface of the shoe 10 .

In the same manner as the movement of the hair balls 210, a current is sequentially applied to the plurality of electromagnets 110 at predetermined times, and the weak holes 220 are moved from the electromagnet B to the electromagnet M located at the instep of the shoe 10, and By fixing the power to the electromagnet M, the weak holes 220 stay in the electromagnet M. Thereafter, the injection hole 610 is rotated to be vertical so that one end of the injection hole 610 is located above the electromagnet M, and then the compressed air valve 660 is opened to spray a small amount of bitumen and water. As such, since only a small amount of bitumen and water is injected due to the control of the compressed air valve 660, it is possible to prevent contamination of the inside of the main body (A).

After receiving a small amount of bitumen and water, the weak balls 220 move from the electromagnet M to the electromagnet Z located on the upper part of the shoe 10 in the same manner as the movement of the hair balls 210 in alphabetical order, and then again the electromagnet Z Move from to electromagnet M in reverse alphabetical order, and to stay in electromagnet M. After that, the compressed air valve 660 is opened again so that a small amount of bitumen and water are sprayed so that the weak holes 220 are supplied with a small amount of bitumen and water, and the weak holes 220 are located at the bottom of the shoe 10 from the electromagnet M. Move to the located electromagnet A in the reverse alphabetical order, then again move from the electromagnet A to the electromagnet M in the alphabetical order and stay in the electromagnet M.

As the above process is continuously repeated, at the point where the electromagnet M, which is the midpoint, is located, the weak workers 220 receive bitumen and water, and repeat up and down along the surface of the shoe 10, so the overall surface of the shoe 10 Bitumen is applied evenly throughout. When the application of bitumen by the weak holes 220 is completed, when the weak holes 220 are moved to the electromagnet B, the power is fixed to the electromagnet B so that the weak holes 220 stay around the electromagnet B. After that, after opening the door of the medicine storage space 300b in which the medicine holes 220 are accommodated, a current is applied to the electromagnet b provided in the medicine storage space 300b, and by blocking the current of the electromagnet B, the medicine holes 220 are It is accommodated in the work bulletin box (300). Then, close the door of the medicine storage space (300b) and cut off the current to the electromagnet b. Then, the injection port 610 is rotated to be parallel to the ceiling of the main body (A), the power of the second heater 630 is cut off, and the injection valve 670 is closed.

4) Mining process

In the work storage box 300 , the light hole storage space 300c in which the light holes 230 are accommodated is opened, and a current is applied to the electromagnet C so that the light holes 230 are attached to the electromagnet C periphery. As in the manner in which the worker 200 moves earlier, the light holes 230 rotate the surface of the shoe 10 in alphabetical and reverse order while sequentially applying current to the plurality of electromagnets 110 at predetermined time intervals. Repeat the ascending and descending sequence. After that, when the shoe 10 is sufficiently lit, the power supply is fixed to the electromagnet C so that the light holes 230 stay around the electromagnet C, and then the door of the light hole storage space 300c in which the light holes 230 are accommodated. After opening, by applying a current to the electromagnet c provided in the light space storage space 300c and blocking the current of the electromagnet C, the light holes 230 are accommodated in the work information box 300 . In addition, the air inhaler 510 and the first electric heater 410 also cut off the power.

5) Withdrawal process

After the user turns the handle 710 so that the model foot 100 is spaced apart from the bottom of the main body A, the user opens the door of the main body A, removes the shoe 10 from the model foot 100, and then the shoe ( 10) Take out the main body (A) and close the door of the main body (A).

On the other hand, in the process of polishing the shoes 10 through the shoe polishing device of the present invention, the main body (A) has a control unit for automatically performing the rest of the process except for the process of putting on or taking off the shoes 10 on the model foot 100 may be provided, and the control unit may cause each of the corresponding processes to be performed according to a set time.

And, the present invention may further include a shoelace protector 800 for protecting the shoelace included in the shoe 10 as shown in FIG. 10 . The shoelace protector 800 may be configured such that, for example, one end of each plate is elastically gathered in a state in which two plates having a predetermined width and length are arranged to face each other. That is, the shoelace protector 800 has the same structure as a conventional clothespin, and the shoelace tied to the shoe 10 is placed between the two plates before the shoe 10 is polished, and the shoelace is made by the worker 200 by the worker 200 . This can be prevented from being damaged.

In addition, the present invention may further include an electromagnet bar for replacement of the worker 200 . The electromagnet bar is in the form of a rod having a predetermined length, and an electromagnet is provided at one end, and one end of the workman 200 is accommodated in a partition space in which the workman 200 to be replaced among the workbench box 300 in which the workman 200 is accommodated. After inserting, power may be applied to the electromagnet provided in the electromagnet bar so that the corresponding workers 200 stick together. Workers 200 attached to the electromagnet bar can be separated from the electromagnet bar by shutting off the power from the outside, and the workmen 200 to be newly input can be accommodated in the compartment by performing the above-described method in reverse.

In addition, when the worker 200 slides on the electromagnet 110 and moves, the more the force pressing the surface of the shoe 10 increases, the better the shoe 10 is cleaned. Therefore, in manufacturing the present invention, the surface and model of the shoe 10 as shown in FIG. 11 in manufacturing the present invention so that the electromagnet 110 can easily move the surface of the shoe 10 and the shoe 10 can be wiped well. Adjustment of the angle θ formed by the electromagnet 110 provided on the foot 100 may be considered.

In the shoe polishing device of the present invention, a plurality of workers move the surface of the shoe along a plurality of electromagnets provided on the model foot and perform dust removal, shoe polish application, and polishing functions, so that the entire surface of the shoe is removed from dust and bitumen. Coating and polishing can be made, and since it is possible to prevent damage to shoes by a shoe brush, there is industrial applicability.

Claims

main body;

a model foot that is formed in the form of a human foot and can be worn with shoes, and is provided inside the main body;

A plurality of workers having a spherical shape and capable of performing at least one function of removing dust, applying bitumen, and polishing the shoes,

The model foot is provided with a plurality of electromagnets at predetermined intervals,

As the plurality of electromagnets continuously repeat that current is applied only to one electromagnet and then current is applied only to the other electromagnet adjacent to one electromagnet and the current to one electromagnet is cut off at the same time, the plurality of workmen use the electromagnet to which the current is applied A shoe polishing device, characterized in that it moves along the surface of the shoe and performs the above function.
According to claim 1,

The worker has a hair ball with hair on the outer surface that can remove dust, a weak ball whose outer surface is wrapped with a fabric of a material that can absorb bitumen, and a light hole whose outer surface is soft and is wrapped with a friction-resistant material. Shoe polishing device comprising a.
3. The method of claim 2,

The model feet may be provided to be movable in the vertical direction within the body to abut against the bottom surface of the body or to be spaced apart from the bottom surface of the body,

On the bottom surface of the main body, the hair ball, the weak hole, and the light hole are each separated and received in the rear adjacent to the model foot, and the hair hole, the weak hole, and the light hole are accessible, and a work storage box equipped with an electromagnet is provided. wiping device.
According to claim 1,

The main body is formed with an inlet through which air is introduced into the main body and an outlet through which the air in the main body is discharged to the outside,

An air inhaler for sucking air toward the outside, and a filter for filtering foreign substances contained in the air sucked in by the air inhaler are provided in the discharge path.
5. The method of claim 4,

The shoe polishing apparatus according to claim 1, wherein a first heater for heating the incoming air is provided in the inflow path.
According to claim 1,

At least one of the electromagnets is provided on the instep of the model foot,

The main body is provided with a spray port for spraying shoe polish and water toward the instep of the shoe worn on the model foot,

The injection hole is formed in the shape of a pipe having a predetermined length and is provided so as to be rotatable up and down on the ceiling of the main body.