CN215777913U - Electric shoe polisher - Google Patents

Abstract

The utility model provides an electric shoe polisher, which belongs to the technical field of electric tools and comprises: a handle; the fixed seat is connected with the handle, and a mounting hole is formed in the fixed seat; the motor component is arranged in the handle; the wiping component is connected with the motor component and is arranged corresponding to the mounting hole up and down; the shoe polish box is connected with the fixing seat, and the shoe polish box comprises a box body, a control switch and a polish stop sheet, wherein an oil outlet is formed in the box body, the control switch is arranged on the box body, the control switch can be opened or closed, the polish stop sheet is arranged on the box body and is connected with the control switch, the box body is inserted in the mounting hole, the polish stop sheet is shielded on the oil outlet when the control switch is opened, and the polish stop sheet is pulled to move to open the oil outlet when the control switch is closed. The utility model has the beneficial effects that: the shoe polish box has a detachable shoe polish box structure, and the shoe polish box can be opened only by pinching the control switch, so that the shoe polish box is convenient to operate and can well play a role in storing and releasing shoe polish.

Description

Electric shoe polisher

Technical Field

The utility model belongs to the technical field of electric tools, and relates to an electric shoe polisher.

Background

At present, most of people polish leather shoes manually, which is time-consuming and tedious, so that at present, some electric shoe polishers exist, shoe polish can be extruded out of the shoe polisher onto the vamp of the leather shoe, and then the rotary head is started to polish the leather shoe.

However, an electric shoe polisher in the market at present has large volume and heavy weight, can only be fixedly used at home, cannot be carried about, and brings great inconvenience to business trips and travelers.

So there are some small electric shoe-cleaning machines at present, for example, a chinese patent with application number CN200810140105.1, which discloses a portable electric shoe-cleaning device; it is characterized in that; the switch is pushed forward to enable the motor to rotate, and the brush is driven to rotate to finish shoe polishing. The rotary push rod is arranged at the center of the positioning seat and the rotary hand wheel, the piston is arranged in the oil storage cylinder, when the shoe polishing needs oiling, the spiral hand wheel is rotated, the piston is pushed forwards along the oil storage cylinder, and shoe polish is extruded from the oil outlet. In order to enable the oil outlet hole to automatically stretch out and draw back, the oil outlet switch is connected with the spring, when the oil hole needs to be opened, the switch is pushed forwards, and the blocking piece at the front end of the oil hole is opened.

The electric shoe polisher has the function of automatically applying shoe polish, but the function of storing the shoe polish is simple, the operation is very troublesome, the shoe polish can be discharged only by pulling the switch at the front end of the shoe polisher, and when the shoe polish is applied, a user needs to hold the shoe polisher by one hand and push the switch by the other hand, so that the operation is very troublesome, two hands are needed to be simultaneously operated, the integral structure is very unreasonable, the operation is difficult, and the functions of storing the shoe polish and releasing the shoe polish cannot be well played.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides an electric shoe polisher.

The purpose of the utility model can be realized by the following technical scheme: an electric shoe polisher comprising:

a handle;

the fixed seat is connected with the handle and is provided with a mounting hole;

a motor assembly disposed within the handle;

the wiping component is connected with the motor component, and the wiping component and the mounting hole are arranged in an up-and-down corresponding mode;

the cover is detachably arranged on the fixed seat, and covers the wiping component;

the shoe polish box, it with the fixing base is connected, the shoe polish box includes box body, control switch and fender oil piece, be provided with the orientation on the box body clean the oil-out of subassembly, control switch sets up on the box body and control switch can open or draw in, fender oil piece sets up on the box body and with control switch connects, the box body is pegged graft in the mounting hole, works as control switch opens the fender oil piece shelters from on the oil-out, works as control switch draws when drawing thereby it removes to open to keep off the oil piece the oil-out.

Preferably, a frame-shaped hole wall is arranged around the mounting hole, limiting grooves are formed in two sides of the frame-shaped hole wall, the control switch comprises two movable elastic pieces, the two movable elastic pieces are movably arranged on two sides of the box body respectively, when the two movable elastic pieces are opened towards two sides, the two movable elastic pieces abut against the fixed seat to limit the box body to further go deep into the mounting hole, when the two movable elastic pieces are closed to each other, the box body further goes deep into the mounting hole, and the two movable elastic pieces are connected with the two limiting grooves respectively.

Preferably, a connecting buckle is arranged on the movable elastic sheet, one end of the oil blocking sheet covers the oil outlet, a connecting groove is formed in the other end of the oil blocking sheet, the connecting buckle is connected with the connecting groove, and the movable elastic sheet pulls the oil blocking sheet to move through the connecting buckle.

Preferably, the box body is provided with an auxiliary seat, the auxiliary seat is provided with a guide block and a reset block, the oil blocking sheet passes through the guide block and then forms a bending structure, and the reset block is connected with the oil blocking sheet so that the oil blocking sheet resets and blocks the oil outlet.

Preferably, the motor assembly is provided with a gear switch, the gear switch penetrates through the frame-shaped hole wall and is located in the mounting hole, and when the control switch is closed, the box body is further inserted into the mounting hole and triggers the gear switch.

Preferably, a rotatable conveying roller is arranged in the oil outlet, a plurality of oil feeding grooves are formed in the circumferential surface of the conveying roller, when the oil outlet is opened, the conveying roller is in linkage connection with the wiping component, and shoe polish in the box body is coated on the wiping component by the conveying roller through rotation.

Preferably, the shoe polish box further comprises a push plate and an adjusting bolt, the adjusting bolt is arranged on the box body, the push plate is arranged in the box body and connected with the adjusting bolt, and when the adjusting bolt rotates, the push plate is driven to move to extrude shoe polish.

Preferably, the box body is provided with an oil filling hole, the outer wall of the box body is provided with a detachable transparent baffle, and the transparent baffle is plugged on the oil filling hole.

Preferably, the wiping component includes a spherical brush head and a spherical polishing wheel, the motor component is provided with two output shafts, the box body is of an inverted triangle structure, the spherical brush head and the spherical polishing wheel are respectively connected with the two output shafts, the spherical brush head and the spherical polishing wheel are separated when the box body is inserted into the mounting hole, the oil outlet faces the spherical brush head, and the conveying roller is in linkage connection with the spherical brush head when the oil outlet is opened.

Preferably, the motor assembly comprises a motor, a gear box, a transmission belt and a silencing cover, the motor, the gear box and the transmission belt are all arranged in the silencing cover, the motor is connected with the gear box, and the gear box is connected with the output shaft through the transmission belt.

Compared with the prior art, the utility model has the beneficial effects that:

1. the shoe polish box has a detachable shoe polish box structure, and the shoe polish box can be opened only by pinching the control switch, so that the shoe polish box is convenient to operate and can well play a role in storing and releasing shoe polish.

2. The vertical position of the box body in the mounting hole can be controlled through the two movable elastic sheets, and when the two movable elastic sheets enter the mounting hole after being furled, the two movable elastic sheets can be abutted against the wall of the frame-shaped hole, so that the two movable springs continue to maintain the furled state, and the shoe polisher can be operated more conveniently and reliably.

3. One end of the oil blocking piece is blocked at the oil outlet, the other end of the oil blocking piece is required to be connected with the movable elastic piece, the oil outlet is arranged at the side part of the box body, and the movable elastic piece is arranged at the upper part of the box body, so that the effect that one end of the oil blocking piece shields the other end of the oil blocking piece can be realized after the oil blocking piece is bent, and the oil blocking piece can be bent after passing through the guide block and can also move along the bent track; the reset block is of a spring structure and is connected with the movable elastic sheet, when the movable elastic sheet pulls up the oil blocking sheet, the reset block is compressed, and when the movable elastic sheet is released, the reset block pulls the oil blocking sheet downwards to enable the oil blocking sheet to be shielded on the oil outlet again.

4. Keep off the position that the position switch is located the mounting hole deepening, when the box body inserted the mounting hole, can not touch fender position switch, only when control switch draws in the back in, the box body further downstream just can trigger and keep off the position switch, adjusts into the motor element and keeps off slowly, and the oil-out is opened this moment to clean the subassembly and keep off work slowly, make the shoe polish can not splash out because of cleaning the subassembly rotational speed too fast.

5. Can drive the conveying roller when cleaning the subassembly and rotate for the conveying roller with clean the subassembly linkage together, just so can extrude or take out shoe polish through the rotation of cleaning the subassembly, storage shoe polish that so not only can be better avoids it to spill from the oil-out, can be fine again release shoe polish, make shoe polish and clean more even of subassembly contact.

Drawings

Fig. 1 is a schematic view showing the construction of an electric shoe polisher according to the present invention.

FIG. 2 is an isometric view of the electric shoe polisher of the present invention.

Fig. 3 is a schematic structural diagram of the motor assembly of the present invention.

Fig. 4 is a schematic position diagram of the box and the gear switch according to the present invention.

Fig. 5 is a schematic structural view of the fixing base of the present invention.

Fig. 6 is a schematic structural view of the shoe polish box of the present invention.

Fig. 7 is an exploded view showing the construction of the shoe polish case of the present invention.

Fig. 8 is a schematic view of the moving direction of the movable spring plate and the oil baffle plate of the present invention.

In the figure, 100, a handle; 200. a fixed seat; 210. mounting holes; 220. a frame-shaped hole wall; 221. a limiting groove; 300. a motor assembly; 310. a gear switch; 320. an output shaft; 330. a motor; 340. a gear case; 350. a transmission belt; 400. a wiping component; 410. a spherical bristle head; 420. a spherical polishing wheel; 500. a shoe polish box; 510. a box body; 511. an oil outlet; 512. an auxiliary seat; 513. a guide block; 514. a reset block; 515. an oil filling hole; 516. a transparent baffle; 520. a conveying roller; 521. an oil supply groove; 530. a control switch; 531. a movable spring plate; 532. a connecting buckle; 540. an oil baffle sheet; 541. connecting grooves; 550. pushing the plate; 560. adjusting the bolt; 600. a cover; 700. a battery pack is provided.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, and 8, an electric shoe polisher includes: handle 100, holder 200, motor assembly 300, wiping assembly 400, and shoe polish box 500, which can apply shoe polish to wiping assembly 400 through shoe polish box 500, and can seal shoe polish box 500 and separate shoe polish box 500 from wiping assembly 400 when shoe polish application is not required.

It should be noted here that the electric shoe polisher is a hand-held shoe polisher, which has the advantages of compact structure and portability; although the existing shoe polisher has the function of adding shoe polish, the shoe polisher generally needs to continuously open an oiling switch during operation, so that the operation is troublesome, and the shoe polish storing and releasing effect is poor; therefore, the electric shoe polisher is specially designed to use the detachable shoe polish case 500 and then release the shoe polish controllably through the shoe polish case 500, thereby avoiding the problem that the user keeps turning on the oil filling switch continuously.

The handle 100 has a housing structure, a mounting cavity is provided in the handle 100, and in an actual structure, a charging port and a main switch are provided on the handle 100, so that an operator can hold the handle 100 for use.

A fixing seat 200 connected with the handle 100, wherein the fixing seat 200 is provided with a mounting hole 210; the holder 200 is a plate-shaped structure integrally coupled to the front end of the handle 100, the mounting hole 210 is a square hole structure, and the mounting hole 210 is actually a hole body formed in a rectangular structure, which is capable of mounting the shoe polish box 500.

A motor assembly 300 disposed within the handle 100; the motor assembly 300 can output power, the motor assembly 300 is electrically connected with a battery, a main switch is connected with the motor assembly 300, and when the main switch is started, the motor assembly 300 can work.

A wiper member 400 connected to the motor member 300, the wiper member 400 being disposed to correspond to the mounting hole 210 in the up-down direction; preferably, wipe subassembly 400 and can set up to brush or round brush structure, wipe subassembly 400 and be connected with motor element 300, so motor element 300 can drive and wipe subassembly 400 and rotate to wipe or polish the shoes surface, in actual structure, wipe subassembly 400 and can set up a brush and a spherical buffing wheel 420, motor element 300 drives brush and spherical buffing wheel 420 work, thereby realizes electronic shoe-cleaning and the effect of electronic polishing.

A cover 600 detachably disposed on the fixing base 200 and covering the wiping component 400 by the cover 600, preferably, a cover 600 is further disposed on the shoe polisher, the cover 600 is a shell structure which can be just spliced with the fixing base to cover the wiping component 400, so as to prevent the wiping component 400 from being dirty.

A battery assembly 700 disposed within the handle 100, and the battery assembly 700 is electrically connected with the motor assembly 300; preferably, the battery assembly 700 is further connected with a USB charging port, so that the battery assembly 700 can be repeatedly charged for use, and in addition, after the battery assembly 700 is arranged, the shoe polisher can become a wireless shoe polisher, and power can be directly supplied through the battery assembly 700 without plugging in electricity during use.

The shoe polish box 500 is connected with the fixing base 200, and the shoe polish box 500 comprises a box body 510, a control switch 530 and a shoe polish baffle 540; the shoe polish box 500 is detachably and fixedly connected, the box body 510 is used for containing shoe polish, the control switch 530 can be pinched or automatically opened, the oil blocking sheet 540 is a strip-shaped flexible sheet, and it should be noted that the oil blocking sheet 540 can be a plastic sheet, so that the oil blocking sheet 540 can be bent, and the oil blocking sheet 540 can have certain toughness.

The box 510 is provided with an oil outlet 511 facing the wiping assembly 400, and preferably, when the box 510 is installed in the installation hole 210, the oil outlet 511 faces the wiping assembly 400, so that when the oil outlet 511 is opened, shoe polish can be applied to the wiping assembly 400 and then wiped onto the shoe by the wiping assembly 400.

The control switch 530 is disposed on the box 510 and the control switch 530 can be opened or closed, preferably, the control switch 530 mainly plays two roles, the first role is to control the movement of the oil blocking piece 540, the second role is to limit the position of the box 510, and the two roles are matched with each other, that is, the control switch 530 controls the position of the oil blocking piece 540 through opening or closing itself, and simultaneously, the depth of the box 510 penetrating the installation hole 210 is also limited through opening and closing itself.

It should be noted here that the control switch 530 is actually an elastic structure, and a spring is disposed on the control switch 530, and the spring expands the control switch 530 to be opened, and overcomes the elastic force of the spring when the control switch 530 is closed, so that the control switch 530 is opened again once the external force is removed.

The oil blocking piece 540 is disposed on the case 510 and connected to the control switch 530, the oil blocking piece 540 is movable, and the control switch 530 can pull the oil blocking piece 540, so that the position of the oil blocking piece 540 can be controlled by pinching the control switch 530.

The box 510 is inserted into the mounting hole 210, and it should be noted here that the box 510 is inserted into the mounting hole 210 and can be located at different depths in the mounting hole 210, when the oil outlet 511 is not opened, the box 510 can also be inserted into the mounting hole 210 first, and after the oil outlet 511 is opened, the control switch 530 is pinched and then closed, so that the box 510 can be continuously inserted into the mounting hole 210 downward, and at this time, the control switch 530 also enters into the mounting hole 210; in short, the box 510 can be further inserted into the mounting hole 210 after being inserted into the mounting hole 210, and shoe polish can be provided after being inserted into the mounting hole 210.

When the control switch 530 is opened, the oil blocking sheet 540 blocks the oil outlet 511, and when the control switch 530 is closed, the oil blocking sheet 540 is pulled to move so as to open the oil outlet 511.

During the operation, the box 510 is inserted into the mounting hole 210, and since the control switch 530 is opened, and the control switch 530 is supported or abutted against the upper end surface of the fixing base 200, the box 510 cannot be inserted further downwards, and since the control switch 530 is in the opened state, the oil blocking piece 540 blocks the oil outlet 511 and cannot move, so that the shoe polish cannot come out of the box 510.

It should be noted here that the lower end of the box 510 is in an inverted chevron structure, and the oil outlet 511 is disposed on one side of the box 510, which can separate the wiping component 400, so that the spherical brush head 410 and the spherical polishing wheel 420 are separated by the lower end of the box 510, and the shoe polish can be coated on the brush 410 only, thereby preventing the shoe polish from being stained on the spherical polishing wheel.

When the control switch 530 is held so as to be closed, the oil blocking piece 540 is pulled by the control switch 530 to open the oil outlet 511, the control switch 530 gradually moves from the fixing base 200 into the mounting hole 210, at this time, the control switch 530 does not limit the movement of the box body 510, and then the box body 510 is pushed downwards, so that the box body 510 can move downwards together with the control switch 530, so that the box body 510 is inserted into the deep part of the mounting hole 210, at this time, the control switch 530 is released, the control switch 530 is opened under the action of the spring and abuts against the wall of the mounting hole 210, so that the control switch 530 cannot be completely opened, and thus, the mounting hole 210 is utilized to maintain the control switch 530 in the closed state, so that the oil outlet 511 is kept in the open state, and a user does not need to manually maintain the opening of the oil outlet 511.

The electric shoe polisher has a detachable shoe polish box 500 structure, and the shoe polish box 500 can be opened only by pinching the control switch 530, so that the electric shoe polisher is convenient to operate and can well play a role in storing and releasing shoe polish.

As shown in fig. 1, 2, 5, 6, 7 and 8, in addition to the above-mentioned embodiments, a frame-shaped hole wall 220 is provided around the mounting hole 210, and the two sides of the frame-shaped hole wall 220 are provided with the limiting grooves 221, preferably, the mounting hole 210 has a frame-shaped hole wall therein, the two sides of the frame-shaped hole wall 220 are provided with the limiting grooves 221, and the cartridge 510 can be inserted into the frame-shaped hole wall 220.

The control switch 530 includes two movable resilient strips 531, the two movable resilient strips 531 are movably disposed on two sides of the box 510, preferably, a spring is disposed on the movable resilient strips 531, the spring can move the movable resilient strips 531 towards the outside, so that the control switch 530 is opened, when the two movable resilient strips 531 all extend out of two sides of the box 510, the control switch 530 is in an open state, and when the two movable resilient strips 531 move in opposite directions to approach each other, the control switch 530 is in a close state.

When the two movable resilient strips 531 are opened to both sides, they abut against the fixing base 200 to limit the cartridge 510 from further entering the mounting hole 210, and preferably, when the two movable resilient strips 531 are opened, the distance between the outermost ends of the two movable resilient strips is greater than the width of the mounting hole 210, so that the cartridge 510 cannot move further downward even though inserted into the mounting hole 210.

It should be further noted that a limiting buckle extends outwards from the lower surface of the movable elastic piece 531, the limiting buckle on the movable elastic piece 531 is located in the mounting hole 210 and embedded in the limiting groove 221, so that the limiting buckle can limit the upward movement of the box body 510 from being separated from the mounting hole 210, in short, the limiting buckle can play a role in limiting the box body 510 in the mounting hole 210, and the box body 510 cannot fall out of the mounting hole 210.

When the two movable resilient sheets 531 are close to each other, the box body 510 further penetrates into the mounting hole 210, and the two movable resilient sheets 531 are respectively connected with the two limiting grooves 221.

Preferably, when the two movable resilient strips 531 move toward each other to get close, the two movable resilient strips 531 can move downward into the mounting hole 210, and then the box body 510 is moved downward, so that the box body 510 can be further inserted into the deep portion of the mounting hole 210, and at this time, the movable resilient strips 531 also move downward to the position flush with the position of the limiting groove 221, and then the movable resilient strips 531 are sprung open and embedded in the limiting groove 221.

The vertical position of the box body 510 in the mounting hole 210 can be controlled by the two movable elastic sheets 531, and when the two movable elastic sheets 531 enter the mounting hole 210 after being folded, the two movable elastic sheets can abut against the frame-shaped hole wall 220, so that the two movable springs continue to maintain the folded state, and the shoe polisher can be operated more conveniently and reliably.

As shown in fig. 1, 2, 5, 6, 7, and 8, on the basis of the above embodiment, a connecting buckle 532 is disposed on the movable elastic sheet 531, one end of the oil blocking sheet 540 covers the oil outlet 511, a connecting groove 541 is disposed at the other end of the oil blocking sheet 540, the connecting buckle 532 is connected to the connecting groove 541, and the movable elastic sheet 531 pulls the oil blocking sheet 540 to move through the connecting buckle 532.

Preferably, the connection buckle 532 has a T-shaped structure and is connected to penetrate into the connection groove 541, such that the movable spring 531 and the oil blocking piece 540 are connected together, when the movable spring 531 is opened outward, the oil blocking piece 540 blocks the oil outlet 511, thereby sealing the oil box 500, and when the movable spring 531 is closed inward, the oil blocking piece 540 pulls, so that the oil outlet 511 is opened.

It should be noted here that the number of the movable resilient pieces 531 is two, and only one of the movable resilient pieces 531 is connected to the oil blocking piece 540, so in principle, only the movable resilient piece 531 needs to be pulled to open the oil outlet 511, but in an actual structure, the two movable resilient pieces 531 need to be folded to further insert the box body 510 into the mounting hole 210, so that the two movable resilient pieces 531 are pinched during actual operation to keep the oil outlet 511 in an open state.

As shown in fig. 1, 2, 6, 7, and 8, on the basis of the above embodiment, the box 510 is provided with an auxiliary seat 512, the auxiliary seat 512 is provided with a guide block 513 and a reset block 514, the oil blocking sheet 540 passes through the guide block 513 to form a bent structure, and the reset block 514 is connected with the oil blocking sheet 540 so as to reset the oil blocking sheet 540 and block the oil outlet 511.

Preferably, the oil outlet 511 is located at the side of the box body 510, and an auxiliary seat 512 is further disposed at the side of the box body 510, the auxiliary seat 512 can assist the oil blocking piece 540 in working, specifically, the oil blocking piece 540 has one end plugged at the oil outlet 511, the other end needs to be connected with the movable elastic piece 531, the oil outlet 511 is located at the side of the box body 510, and the movable elastic piece 531 is located at the upper portion of the box body 510, so that the oil blocking piece 540 can achieve the effect that one end is blocked and the other end is connected after being bent, and the oil blocking piece 540 can be bent after passing through the guide block 513 and can also move along the bent track; the reset block 514 is a spring structure, and is connected to the movable elastic sheet 531, when the movable elastic sheet 531 pulls up the oil-blocking sheet 540, the reset block 514 is compressed, and when the movable elastic sheet 531 is released, the reset block 514 pulls the oil-blocking sheet 540 downward to shield the oil outlet 511 again.

As shown in fig. 3, 4 and 5, on the basis of the above embodiment, the motor assembly 300 is provided with a gear switch 310, the gear switch 310 passes through the frame-shaped hole wall 220 and is located in the mounting hole 210, and when the control switch 530 is closed, the box 510 is further inserted into the mounting hole 210 and triggers the gear switch 310.

It should be noted that, the motor assembly 300 is electrically connected with the gear switch 310, and the motor assembly 300 has a fast-gear state and a slow-gear state, the gear switch 310 can control the fast-gear operation or the slow-gear operation of the motor assembly 300, when the motor assembly 300 is in the fast-gear state, the motor assembly operates at a high speed, and the rotation speed of the wiping assembly 400 is also high, but when the oil outlet 511 is opened, the shoe polish is easily splashed out of the wiping assembly 400, so the shoe polish cannot be applied, and when the motor assembly 300 is in the slow-gear state, the shoe polish is not splashed by opening the oil outlet 511.

Therefore, in general, the motor assembly 300 can be operated at a fast gear when not being coated with shoe polish, the efficiency of removing dust and polishing can be improved when the motor assembly 300 is operated at the fast gear, and the motor assembly 300 needs to be operated at a slow gear when being coated with shoe polish, but in practical situations, an operator often forgets to switch the motor assembly 300 to the slow gear when being coated with shoe polish, so that the shoe polish splashes, and at this time, the gear switch 310 needs to be linked with the box body 510.

Specifically, the box 510 can be inserted into the mounting hole 210 and can further move downwards so as to be inserted into a deeper position of the mounting hole 210, the gear switch 310 is located at a deeper position of the mounting hole 210, when the box 510 is inserted into the mounting hole 210, the gear switch 310 is not touched, only when the control switch 530 is closed, the box 510 further moves downwards so as to trigger the gear switch 310, the motor assembly 300 is adjusted to be in a slow gear, the oil outlet 511 is opened, and the wiping assembly 400 operates in a slow gear, so that shoe polish can not splash out due to too fast rotating speed of the wiping assembly 400, and the design can achieve quick ash removal polishing, can also achieve uniform slow gear oil application, and is time-saving, oil-saving and environment-friendly.

As shown in fig. 1, 2, 6, 7 and 8, on the basis of the above embodiment, a rotatable conveying roller 520 is disposed in the oil outlet 511, a plurality of oil feed grooves 521 are disposed on a circumferential surface of the conveying roller 520, when the oil outlet 511 is opened, the conveying roller 520 is linked with the wiping assembly 400, and the conveying roller 520 applies the shoe polish in the cartridge 510 to the wiping assembly 400 by rotation.

Preferably, the roller shafts at the two ends of the conveying roller 520 penetrate through the two side walls of the oil outlet 511, and the conveying roller 520 blocks the oil outlet 511, so that only when the conveying roller 520 rotates, the shoe polish in the box 510 is driven to the outside of the oil outlet 511 through the oil feeding groove 521, the shoe polish can be better released, and the shoe polish is prevented from leaking or flowing out.

Preferably, the conveying roller 520 does not have power, but is in linkage collision with the wiping component 400, and when the wiping component 400 rotates, the conveying roller 520 can be driven to rotate, so that the conveying roller 520 is in linkage with the wiping component 400, shoe polish can be extruded or taken out through the rotation of the wiping component 400, and therefore the shoe polish can be better stored, the shoe polish is prevented from leaking from the oil outlet 511, the shoe polish can be well released, and the contact between the shoe polish and the wiping component 400 is more uniform.

As shown in fig. 1, on the basis of the above embodiment, the shoe polish box 500 further includes a push plate 550 and an adjusting bolt 560, the adjusting bolt 560 is disposed on the box body 510, the push plate 550 is disposed in the box body 510 and connected to the adjusting bolt 560, and when the adjusting bolt 560 is rotated, the push plate 550 is moved to squeeze the shoe polish.

Preferably, the push plate 550 is provided with a threaded hole, and the adjusting bolt 560 is coupled to the push plate 550 through the threaded hole, so that when the adjusting bolt 560 rotates, the push plate 550 can move downward, thereby squeezing the shoe polish in the case 510 toward the outlet 511.

As shown in fig. 1, 6 and 7, in addition to the above embodiment, the box body 510 is provided with an oil filling hole 515, and the outer wall of the box body 510 is provided with a detachable transparent baffle 516, and the transparent baffle 516 is blocked on the oil filling hole 515.

Preferably, the box 510 also has the function of adding shoe polish, after the transparent baffle 516 is removed, the shoe polish can be injected into the box 510 through the oil filling hole 515, then the transparent baffle 516 is inserted to cover the oil filling hole 515, and the level of the shoe polish in the box 510 can be seen through the transparent baffle 516, so that the volume of the shoe polish in the box 510 can be conveniently known.

As shown in fig. 1 and 4, based on the above embodiment, the wiping assembly 400 includes a spherical bristle head 410 and a spherical polishing wheel 420, the motor assembly 300 is provided with two output shafts 320, the box 510 is an inverted triangle structure, the spherical bristle head 410 and the spherical polishing wheel 420 are respectively connected to the two output shafts 320, the box 510 is inserted into the mounting hole to separate the spherical bristle head 410 and the spherical polishing wheel 420, the oil outlet 511 faces the spherical bristle head 410, and the conveying roller 520 is linked with the spherical bristle head 410 when the oil outlet 511 is opened.

Preferably, the spherical brush head 410 can wipe shoes, and the spherical polishing wheel 420 can polish the surfaces of the shoes, so that the shoe wiper can wipe and polish the shoes, thereby achieving the purpose of multi-function, and in addition, the spherical brush head 410 drives the conveying roller 520 to rotate when rotating, the shoe polish of the oil outlet 511 is coated on the spherical brush head 410 through the conveying roller 520, so that the spherical brush head 410 also has the function of brushing the shoe polish.

The box body 510 is of an inverted triangle structure, so the lower end of the box body 510 is of an inverted herringbone structure, the oil outlet 511 is arranged on one side edge of the box body 510, the wiping component 400 can be separated by the design, the lower end of the box body 510 separates the spherical brush head 410 and the spherical polishing wheel 420, so the shoe polish can be only coated on the brush 410, the shoe polish is prevented from being stained on the spherical polishing wheel, and the shoe polish is prevented from splashing.

Preferably, the spherical brush head 410 and the spherical polishing wheel 420 both have spherical ends, and this design enables the angles of brushing dust, applying oil and polishing to be wider, so that the spherical brush head 410 and the spherical polishing wheel 420 can better contact with the shoe upper, in brief, except that the peripheral surfaces of the spherical brush head 410 and the spherical polishing wheel 420 can work, the spherical ends of the spherical brush head 410 and the spherical polishing wheel 420 can also work, so that the operation is more flexible and convenient.

As shown in fig. 2, 3 and 4, on the basis of the above embodiment, the motor assembly 300 includes a motor 330, a gear box 340, a transmission belt 350 and a silencing cover (not shown), the motor 330, the gear box 340 and the transmission belt 350 are all disposed in the silencing cover, the motor 330 is connected to the gear box 340, and the gear box 340 is connected to the output shaft 320 through the transmission belt 350.

Preferably, the two output shafts 320 are substantially directly connected with the spherical brush head 410 and the spherical polishing wheel 420, the motor 330 can drive the gear box 340 to work, and two driving wheels are arranged on the shaft of the gear box 340 and connected with the two output shafts 320 through two driving belts 350, so that the motor assembly 300 can drive the spherical brush head 410 and the spherical polishing wheel 420 to rotate.

Preferably, the noise reduction cover covers or covers the motor 330, the gear box 340 and the transmission belt 350, so that the noise of the electric shoe polisher during working can be greatly reduced, the effects of sound insulation and noise reduction are achieved, and the experience feeling during use can be improved.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (10)

1. An electric shoe polisher, comprising:

a handle;

the fixed seat is connected with the handle and is provided with a mounting hole;

a motor assembly disposed within the handle;

the wiping component is connected with the motor component, and the wiping component and the mounting hole are arranged in an up-and-down corresponding mode;

the cover is detachably arranged on the fixed seat, and covers the wiping component;

the shoe polish box, it with the fixing base is connected, the shoe polish box includes box body, control switch and fender oil piece, be provided with the orientation on the box body clean the oil-out of subassembly, control switch sets up on the box body and control switch can open or draw in, fender oil piece sets up on the box body and with control switch connects, the box body is pegged graft in the mounting hole, works as control switch opens the fender oil piece shelters from on the oil-out, works as control switch draws when drawing thereby it removes to open to keep off the oil piece the oil-out.

2. An electric shoe polisher according to claim 1 in which: the utility model discloses a box body, including mounting hole, control switch, movable shell fragment, box body, mounting hole, control switch, two be provided with the frame pore wall around the mounting hole, and the both sides of frame pore wall are provided with the spacing groove, control switch includes two movable shell fragments, two movable shell fragment mobilizable setting respectively is in the both sides of box body, work as two it conflicts when opening to both sides to the movable shell fragment thereby restrict on the fixing base the box body further gos deep into the mounting hole, work as two after the movable shell fragment is drawn close each other the box body further gos deep into the mounting hole, and two the movable shell fragment respectively with two spacing groove connects.

3. An electric shoe polisher according to claim 2 in which: the movable elastic sheet is provided with a connecting buckle, one end of the oil blocking sheet covers the oil outlet, the other end of the oil blocking sheet is provided with a connecting groove, the connecting buckle is connected with the connecting groove, and the movable elastic sheet pulls the oil blocking sheet to move through the connecting buckle.

4. An electric shoe polisher according to claim 3 with: the oil baffle device is characterized in that an auxiliary seat is arranged on the box body, a guide block and a reset block are arranged on the auxiliary seat, the oil baffle piece passes through the guide block to form a bending structure, and the reset block is connected with the oil baffle piece to enable the oil baffle piece to reset and cover the oil outlet.

5. An electric shoe polisher according to claim 2 in which: the motor component is provided with a gear switch, the gear switch penetrates through the frame-shaped hole wall and is located in the mounting hole, and when the control switch is folded, the box body is further inserted into the mounting hole and triggers the gear switch.

6. An electric shoe polisher according to claim 5 with: the shoe polish wiping device is characterized in that a rotatable conveying roller is arranged in the oil outlet, a plurality of oil feeding grooves are formed in the circumferential surface of the conveying roller, when the oil outlet is opened, the conveying roller is in linkage connection with the wiping component, and shoe polish in the box body is coated on the wiping component by the conveying roller through rotation.

7. An electric shoe polisher according to claim 2 in which: the shoe polish box also comprises a push plate and an adjusting bolt, wherein the adjusting bolt is arranged on the box body, the push plate is arranged in the box body and connected with the adjusting bolt, and the adjusting bolt drives the push plate to move to extrude shoe polish when rotating.

8. An electric shoe polisher according to claim 7 with: the oil filling device is characterized in that an oil filling hole is formed in the box body, a detachable transparent baffle is arranged on the outer wall of the box body, and the transparent baffle is plugged on the oil filling hole.

9. An electric shoe polisher according to claim 6 with: the cleaning assembly comprises a spherical brush head and a spherical polishing wheel, the motor assembly is provided with two output shafts, the box body is of an inverted triangle structure, the spherical brush head and the spherical polishing wheel are respectively connected with the two output shafts, when the box body is inserted into the mounting hole, the spherical brush head and the spherical polishing wheel are separated, the oil outlet faces towards the spherical brush head, and when the oil outlet is opened, the conveying roller is in linkage connection with the spherical brush head.

10. An electric shoe polisher according to claim 9 with: the motor assembly comprises a motor, a gear box, a transmission belt and a silencing cover, wherein the motor, the gear box and the transmission belt are arranged in the silencing cover, the motor is connected with the gear box, and the gear box is connected with the output shaft through the transmission belt.

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