JP2021065676A - Sole polishing treatment facility for manufacturing leather shoes - Google Patents

Abstract

To disclose a sole polishing treatment facility for manufacturing leather shoes.SOLUTION: A sole polishing treatment facility for manufacturing leather shoes includes a support seat. At an upper end of the support seat are fixedly provided a fixation block and a foot model support frame. The foot model support frame can support a shoe. On the right side of the fixation block is provided a sole polishing mechanism capable of polishing a sole. Below the sole polishing mechanism is provided an edge polishing mechanism capable of polishing an edge of the sole. The edge polishing mechanism includes an annular support block. In the support block is fixedly provided an annular first transmission guide rail. In the support block is provided an annular space that makes an inner wall and an outer space communicate with each other. In the annular space is slidably connected a driven plate having a right end positioned in the outer space. At the right end of the driven plate is fixedly provided a connection block. In the connection block is provided an extension/contraction space opening to the left side.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of shoe manufacturing, and specifically is a sole polishing treatment facility for the production of leather shoes.

The manufacture of leather shoes is to manufacture various leather shoes using leather, artificial leather, synthetic leather as fabric and rubber, plastic or synthetic material as outsole through various crafts such as sewing, bonding, pressure molding, injection molding, etc. It's work,
Currently, when manually manufacturing leather shoes, it is necessary to polish the sole, which provides convenience for the adhesion of the sole, but manual polishing is not accurate, the polishing efficiency is low, and the manufacturing efficiency is affected. And the quality of polishing, which is not high, affects the quality of processing.

Chinese Patent Application Publication No. 105193007

The technical problem to be solved by the present invention provides a sole polishing treatment facility for leather shoe production, overcomes the problem of low manufacturing efficiency, and enhances manufacturing efficiency.

The present invention is realized through the following technical plan.

The sole polishing treatment equipment for the production of leather shoes includes a support seat, and a fixed block and a foot model support frame are fixedly installed at the upper end of the support seat, and the foot model support frame can support the shoe and is fixed. On the right side of the block, a sole polishing mechanism that can polish the sole is installed.
An edge polishing mechanism capable of polishing the edge of the shoe sole is installed under the shoe sole polishing mechanism, the edge polishing mechanism includes an annular support block, and the annular first transmission guide rail is contained in the support block. Is fixedly installed, an annular space connecting the inner wall and the outer space is installed in the support block, and a driven plate whose right end is located in the outer space can slide in the annular space. Connected, a connecting block is fixedly installed at the right end of the driven plate, a telescopic space opened to the left is installed in the connecting block, and the left end is the first electric motor in the telescopic space. A connecting rod fixedly connected to the guide rail is installed, and a telescopic spring connecting the connecting rod and the right end wall of the telescopic space is installed in the connecting rod, and a polishing motor is installed at the lower end of the connecting block. Is fixedly installed, the lower end is connected to the lower end of the polishing motor so that a polishing rod capable of polishing the edge of the shoe sole can be transmitted, and a stop block is fixedly installed on the left side of the upper end surface of the driven plate. A limiting block that can slide on the upper side of the driven plate is installed on the right side of the stopping block, and a spring located at the left end of the limiting block with the left end penetrating the support block and located in an external space. The rod is fixedly installed, a spring block is fixedly installed on the left end of the spring rod, and two compression springs whose right end is fixedly connected to the support block are fixed on the right end surface of the spring block. A drive mechanism capable of raising and lowering the shoe sole polishing mechanism and the edge polishing mechanism is installed in the fixed block, and the raising and lowering mechanism can be raised and lowered in the fixed block. Is installed,
By controlling the drive mechanism, the elevating mechanism is controlled, thereby controlling the elevating and lowering of the sole polishing mechanism and the edge polishing mechanism, and the operation of the sole polishing mechanism and the edge polishing mechanism, respectively, according to needs. Controls, which completes the polishing of different positions on the sole, which is easier and more efficient than the manual polishing operation of leather shoes.

Further, the shoe sole polishing mechanism includes a support rod, a second electric guide rail is fixedly installed on the front end surface of the support rod, and a moving block is installed on the front end of the second electric guide rail. The moving block can be moved to the left and right by being driven by the second electric guide rail, and a moving space in which the lower end wall communicates with the external space is installed in the moving block, and between the front and rear end walls of the moving space. The moving shaft is connected so as to be rotatable, and a thread block whose lower end is located in the external space is connected to the moving shaft by a thread, and the lower end wall communicates with the external space in the thread block. A parallel moving space is installed, the left and right end walls of the parallel moving space communicate with the moving space, and the parallel moving blocks are connected so as to be slidable in the parallel moving space, and in the parallel moving space. A push plate and a connecting spring are installed in the space, the lower end of the push plate is in contact with the parallel moving block, the connecting spring connects the push plate and the upper end wall of the parallel moving space, and the parallel moving block is connected. Parallel moving springs, one of which is in contact with the end wall of the parallel moving space, are fixedly installed on both the left and right ends of the thread block, and moving plates that can slide in the moving space are placed on both the left and right sides of the thread block. A slide groove is formed in the moving plate that penetrates the left and right end faces of the moving plate, and one end of the parallel moving block penetrates the parallel moving space and the slide groove at both left and right ends of the parallel moving block. Is fixedly installed, the parallel moving rod is located in the moving space, and a limiting plate is fixedly installed at one end of the parallel moving rod away from the thread block, and the moving space is fixed. A transmission motor is fixedly connected to the rear end wall, a transmission shaft is fixedly connected to the front end of the transmission motor so that the transmission shaft can be transmitted, and a first cam and a transmission gear are fixedly connected to the transmission shaft. A moving gear whose upper end is connected so as to mesh with the transmission gear is fixedly connected to the rear end of the moving shaft, and the right end of the first cam is in contact with the moving plate on the right side, and the parallel movement A touch switch capable of controlling the operation of the moving shaft and the second electric guide rail is fixedly installed on the front end surface of the space, and when the push plate is separated from the touch switch, the touch switch is the transmission motor and the above. A polishing rod whose lower end is located in the external space is fixedly installed at the lower end of the parallel movement block to control the operation of the second electric guide rail.

Further, the elevating mechanism includes a drive space in which both the left and right end walls communicate with an external space, position limiting plates are installed on both the left and right sides of the fixed block, and the left end of the support rod is the right side of the position limiting. An elevating rod is fixedly installed on the lower end surface of the support rod located in the drive space, penetrating the plate and the drive space, and fixedly connected to the position limiting plate on the left side. An elevating plate that can move up and down in the drive space is fixedly installed at the lower end of the rod, and an elevating spring whose upper end is fixedly connected to the elevating plate is fixedly installed on the lower end wall of the drive space. ing.

Further, the drive mechanism includes a drive motor fixedly installed on the front end wall of the drive space, is connected to the rear end of the drive motor so that a drive shaft can be transmitted, and a second cam is connected to the drive shaft. And the friction wheel are fixedly connected, the lower end of the second cam is in contact with the elevating plate, the right end wall penetrates the drive space in the fixed block, and communicates with the external space. A driven space is installed, and one end of the driven space is located in the drive space, and a friction block in contact with the upper end of the friction wheel is connected so as to slide, and is connected to the right end of the friction block. The right end penetrates the right end wall of the driven space, and an elastic cord fixedly connected to the spring block is fixedly installed.

Further, in the initial state, the parallel moving spring and the telescopic spring on the right side are in a compressed state, and both the compression spring and the elastic cord are in a pulled state.

Further, the frictional force between the friction ring and the friction block is much larger than the sum of the elasticity of the elastic cord, the elasticity of the compression spring and the elasticity of the telescopic spring, and the elasticity of the elastic cord is the compression. It is much larger than the elasticity of the spring, and the diameter of the transmission gear is much smaller than the diameter of the moving gear.

The beneficial effects of the present invention are: The present invention is simple in structure, convenient to operate, and when manually manufacturing leather shoes, the present invention can automatically polish the sole or the edge of the sole, thereby. When workers manually manufacture leather shoes, it saves polishing time and increases manufacturing efficiency, and the efficiency and effect of mechanical polishing is better and more accurate than manual polishing.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention. FIG. 2 is a schematic structural diagram of AA of FIG. 1 according to an embodiment of the present invention. FIG. 3 is a schematic structure diagram of BB of FIG. 1 according to an embodiment of the present invention. FIG. 4 is a schematic structure diagram of CC of FIG. 1 according to an embodiment of the present invention. FIG. 5 is an enlarged schematic view of the structure of FIG. 1D of the embodiment of the present invention. FIG. 6 is a schematic structure diagram of EE of FIG. 2 according to an embodiment of the present invention.

With reference to FIGS. 1 to 6, the sole polishing equipment for producing leather shoes includes a support seat 10, and a fixed block 11 and a foot model support frame 65 are fixedly installed at the upper end of the support seat 10. A sole polishing mechanism 63 capable of supporting shoes by the foot model support frame 65 and polishing the sole is installed on the right side of the fixed block 11, and the edge of the sole is polished under the sole polishing mechanism 63. A possible edge polishing mechanism 62 is installed, the edge polishing mechanism 62 includes an annular support block 17, and an annular first transmission guide rail 18 is fixedly installed in the support block 17, and the support block 17 is installed. An annular space 19 that communicates the inner wall and the outer space is installed in the annular space 19, and a driven plate 27 whose right end is located in the outer space is connected to the annular space 19 so that the driven plate 27 can slide. A connecting block 25 is fixedly installed at the right end of the above, a telescopic space 24 opened to the left is installed in the connecting block 25, and the left end is the first electric guide rail in the telescopic space 24. A connecting rod 26 fixedly connected to 18 is installed, and a telescopic spring 23 connecting the connecting rod 26 and the right end wall of the telescopic space 24 is installed in the connecting rod 26, and the connecting block 25 is installed. A polishing motor 22 is fixedly installed at the lower end, and a polishing rod 21 whose lower end can polish the edge of the sole is connected to the lower end of the polishing motor 22 so as to be transmitted, and the left side of the upper end surface of the driven plate 27 is connected. A stop block 40 is fixedly installed in the space, a limit block 28 that can slide on the upper side of the driven plate 27 is installed on the right side of the stop block 40, and a support block 17 has a left end at the left end of the limit block 28. A spring rod 37 is fixedly installed at the left end of the spring rod 37, and a spring block 38 is fixedly installed at the left end of the spring rod 37, and is fixedly installed on the right end surface of the spring block 38. Two compression springs 39 whose right end is fixedly connected to the support block 17 are fixedly installed, and the sole polishing mechanism 63 and the edge polishing mechanism 62 are supported in the fixed block 11. A mechanism 61 is installed, and a drive mechanism 64 capable of raising and lowering the elevating mechanism 61 is also installed in the fixed block 11, and the elevating mechanism 61 is controlled by controlling the driving mechanism 64. By this, the raising and lowering of the sole polishing mechanism 63 and the edge polishing mechanism 62 is controlled, and the sole polishing mechanism 63 and the edge polishing mechanism 62 are produced according to needs. It controls the movement, which completes the polishing of different positions on the sole, which is easier and more efficient than the manual polishing operation of leather shoes.

Advantageously, the shoe sole polishing mechanism 63 includes a support rod 13, and a second electric guide rail 14 is fixedly installed on the front end surface of the support rod 13, and the second electric guide rail 14 is fixedly installed on the front end surface of the second electric guide rail 14. A moving block 15 is installed, the moving block 15 is driven by the second electric guide rail 14 to move left and right, and a moving space 52 whose lower end wall communicates with an external space is installed in the moving block 15. The moving shaft 41 is rotatably connected between the front and rear end walls of the moving space 52, and the thread block 16 whose lower end is located in the external space is connected to the moving shaft 41 by threads. A parallel moving space 46 in which the lower end wall communicates with the external space is installed in the thread block 16, and the left and right end walls of the parallel moving space 46 communicate with the moving space 52. The parallel movement block 44 is connected to the parallel movement block 44 so as to be slidable, the push plate 43 and the connecting spring 42 are installed in the parallel movement space 46, and the lower end of the push plate 43 is connected to the parallel movement block 44. The connecting spring 42 is in contact with the push plate 43 and the upper end wall of the parallel moving space 46, and one end of each of the left and right ends of the parallel moving block 44 is in contact with the end wall of the parallel moving space 46. The contacting parallel moving spring 57 is fixedly installed, and moving plates 47 that can slide in the moving space 52 are installed on both left and right sides of the thread block 16, and the moving plates 47 are installed in the moving plate 47. A slide groove 60 is formed through the left and right end faces of the plate 47, and a parallel movement rod 58 having one end penetrating the parallel movement space 46 and the slide groove 60 is fixedly installed at both left and right ends of the parallel movement block 44. The parallel moving rod 58 is located in the moving space 52, and a limiting plate 59 is fixedly installed at one end of the parallel moving rod 58 away from the thread block 16, and the moving space 52 A transmission motor 51 is fixedly connected to the rear end wall, a transmission shaft 48 is connected to the front end of the transmission motor 51 so that the transmission shaft 48 can be transmitted, and a first cam 50 and a transmission gear 49 are connected to the transmission shaft 48. A moving gear 53 which is fixedly connected and whose upper end is connected so as to mesh with the transmission gear 49 is fixedly connected to the rear end of the moving shaft 41, and the right end of the first cam 50 is the right side of the moving gear 53. A touch switch that is in contact with the plate 47 and can control the operation of the moving shaft 41 and the second electric guide rail 14 on the front end surface of the parallel moving space 46. When the push plate 43 is fixedly installed and the push plate 43 is separated from the touch switch 45, the touch switch 45 controls the operation of the transmission motor 51 and the second electric guide rail 14, and the parallel movement block 44 A polishing rod 20 whose lower end is located in the external space is fixedly installed at the lower end of the rod.

Advantageously, the elevating mechanism 61 includes a drive space 36 in which both the left and right end walls communicate with the external space, and position limiting plates 12 are installed on both the left and right sides of the fixed block 11, and the support rod 13 is provided. The left end of the rod penetrates the position limiting plate 12 on the right side and the drive space 36, and is fixedly connected to the position limiting plate 12 on the left side, and the lower end surface of the support rod 13 located in the drive space 36. An elevating rod 29 is fixedly installed in the elevating rod 29, an elevating plate 32 capable of elevating and descending in the drive space 36 is fixedly installed at the lower end of the elevating rod 29, and an upper end is fixedly installed on the lower end wall of the drive space 36. An elevating spring 33 fixedly connected to the elevating plate 32 is fixedly installed.

Advantageously, the drive mechanism 64 includes a drive motor 34 fixedly installed on the front end wall of the drive space 36, and is connected to the rear end of the drive motor 34 so that a drive shaft 31 can be transmitted. The second cam 30 and the friction ring 54 are fixedly connected to the drive shaft 31, the lower end of the second cam 30 is in contact with the elevating plate 32, and the right end wall is inside the fixed block 11. A driven space 55 that penetrates the drive space 36 and communicates with the external space is installed, one end of the driven space 55 is located in the drive space 36, and the upper end of the friction ring 54. The friction block 35 in contact with the friction block 35 is connected so as to be slidable, and the right end of the friction block 35 penetrates the right end wall of the driven space 55 and is fixedly connected to the spring block 38. Is fixedly installed.

Advantageously, in the initial state, the parallel moving spring 57 and the telescopic spring 23 on the right side are in a compressed state, and the compression spring 39 and the elastic cord 56 are both in a pulled state.

Beneficially, the frictional force between the friction ring 54 and the friction block 35 is much greater than the sum of the elasticity of the elastic cord 56, the elasticity of the compression spring 39 and the elasticity of the telescopic spring 23. The elasticity of the elastic cord 56 is much larger than the elasticity of the compression spring 39, and the diameter of the transmission gear 49 is much smaller than the diameter of the moving gear 53.

Flow of mechanical operation of the entire invention of the present application:
1. 1. When polishing the sole, the drive motor 34 operates to rotate the drive shaft 31 counterclockwise, which causes the second cam 30 and the friction wheel 54 to rotate counterclockwise, causing the second cam 30 to rotate. The elevating plate 32 is lowered, thereby lowering the elevating rod 29 and the support rod 13, thereby lowering the position limiting plate 12, compressing the elevating spring 33, and lowering the support rod 13 to lower the second electric guide rail. 14 and the moving block 15 are lowered, and when the lower end of the polishing rod 20 comes into contact with the sole placed on the upper side of the foot model support frame 65, it is continuously lowered to move the polishing rod 20 upward, thereby translating. The moving block 44 and the push plate 43 are moved upward, whereby the connecting spring 42 is compressed, and as the parallel moving block 44 rises, both the parallel moving rod 58 and the limiting plate 59 rise, and the connecting spring 42 is the limit. When compressed to, the drive motor 34 stops operating, and when the push plate 43 rises, it separates from the touch switch 45. Therefore, the touch switch 45 operates to control the second electric guide rail 14 and the transmission motor 51. (Ii) Start the electric guide rail 14 and the transmission motor 51.
2. The second electric guide rail 14 operates to move the moving block 15 to the left and right, and the transmission motor 51 operates to rotate the transmission shaft 48, thereby rotating the first cam 50 and the transmission gear 49, and the first cam. When the 50 rotates and no longer presses the right moving plate 47, the right parallel moving spring 57 returns, which moves the parallel moving block 44 to the left, thereby moving the parallel moving rod 58 and the limiting plate 59. Move to the left, thereby moving the right moving plate 47 to the left, and when the first cam 50 rotates and begins to press the left moving plate 47, the left moving plate 47 is moved to the left. As a result, the left position limiting plate 59 and the translation rod 58 are moved to the left, whereby the translation block 44 is moved to the left, whereby the translation spring 57 on the left side is compressed, and the first cam 50 When does not press the left moving plate 47, the left translation spring 57 returns, which moves the translation block 44 to the right, thereby moving the left translation rod 58 and the left limiting plate 59. It moves to the right, which moves the left translation spring 57 to the right, and when the first cam 50 pushes the translation plate 47 again, it moves the right limiting plate 59 and the right translation rod 58 to the right. Move, thereby moving the translation block 44 to the right, the translation spring 57 on the right moves to the right, which causes the translation block 44 to reciprocate left and right while the first cam 50 rotates. As a result, the polishing rod 20 is reciprocated from side to side, thereby polishing the sole.
3. 3. After polishing the sole, the drive motor 34 continuously rotates counterclockwise, thereby rotating the second cam 30, and at this time, with the rotation of the second cam 30, the elevating spring 33 returns and the elevating plate 32 is moved upward, thereby raising the elevating rod 29 and the support rod 13, thereby raising the moving block 15, thereby raising the polishing rod 20, at which time the connecting spring 42 returns and the push plate 43 When the push plate 43 returns to the lower position and comes into contact with the touch switch 45 again, the touch switch 45 controls the second electric guide rail 14 and the transmission motor 51 to control the second electric guide rail 14 and the transmission motor 51. Stops the operation of.
4. When polishing the edge of the shoe sole, the drive motor 34 operates to rotate the drive shaft 31 clockwise, which causes the second cam 30 and the friction wheel 54 to rotate clockwise, causing the second cam 30 to rotate. The elevating plate 32 is lowered, whereby the elevating rod 29 and the support rod 13 are lowered, the elevating spring 33 is compressed, and the friction ring 54 rotates clockwise to move the friction block 35 to the right, thereby elastic. When the string 56 is loosened, the support block 17 is also lowered with the lowering of the support rod 13, the elastic string 56 is also loosened, and the lower end of the polishing rod 21 is located on the left side of the edge of the shoe sole, the drive motor 34 Is stopped, at which time the elastic cord 56 is completely loosened and the compression spring 39 is also loosened, which moves the spring block 38 to the right, thereby moving the spring rod 37 and the spring block 38 to the right. At this time, the elastic spring 23 is loosened, thereby moving the connecting block 25 to the right, thereby moving the driven plate 27 and the polishing rod 21 to the right, and when the polishing rod 21 comes into contact with the edge of the shoe sole. , The telescopic spring 23 is not completely loosened, at this time the polishing motor 22 and the first electric guide rail 18 start to operate, and the first electric guide rail 18 operates to drive and move the connecting rod 26, thereby connecting. The block 25 and the polishing rod 21 move in conjunction with each other, the polishing motor 22 operates to rotate the polishing rod 21, and the polishing rod 21 rotates with the movement of the polishing rod 21 to start polishing the edge of the shoe sole.
5. After the edge of the shoe sole has been polished, the first electric guide rail 18 operates to move the connecting rod 26 in the opposite direction, thereby returning the driven plate 27 and the connecting block 25, and the first electric guide rail 18. The polishing motor 22 stops operating, and at this time, the drive motor 34 operates to rotate the drive shaft 31 counterclockwise, thereby rotating the second cam 30 and the friction wheel 54 counterclockwise, and the second cam. The counterclockwise rotation of 30 returns the elevating spring 33, thereby raising the elevating plate 32, thereby raising the elevating rod 29 and the support rod 13, thereby raising the support block 17, thereby the elastic cord 56. Is pulled, the friction wheel 54 rotates counterclockwise to move the friction block 35 to the left, starts pulling the elastic cord 56, and since the elastic cord 56 is pulled, the spring block 38 is moved to the left. This moves the spring rod 37 and the limiting block 28 to the left, which in turn moves the stop block 40 and the driven plate 27 to the left, which in turn moves the connecting block 25 to the left, which causes the telescopic spring 23 to move. When the spring block 38 moves to the left to pull the compression spring 39 and the elevating spring 33 returns, the drive motor 34 stops operating, and the present invention completes the return.

The above is merely a specific embodiment of the invention of the present application, but the scope of protection of the invention of the present application is not limited to this. Changes and replacements that come to mind through all creative labor are covered by the scope of the invention of the present application. Therefore, the scope of protection of the present invention is based on the scope of protection in which the request for rights is limited.

Claims (6)

A fixed block and a foot model support frame are fixedly installed at the upper end of the support seat including the support seat, the foot model support frame can support the shoe, and the shoe sole can be polished on the right side of the fixed block. A bottom polishing mechanism is installed,
An edge polishing mechanism capable of polishing the edge of the shoe sole is installed under the shoe sole polishing mechanism, the edge polishing mechanism includes an annular support block, and the annular first transmission guide rail is contained in the support block. Is fixedly installed, an annular space connecting the inner wall and the outer space is installed in the support block, and a driven plate whose right end is located in the outer space can slide in the annular space. Connected, a connecting block is fixedly installed at the right end of the driven plate, a telescopic space opened to the left is installed in the connecting block, and the left end is the first electric motor in the telescopic space. A connecting rod fixedly connected to the guide rail is installed, and a telescopic spring connecting the connecting rod and the right end wall of the telescopic space is installed in the connecting rod, and a polishing motor is installed at the lower end of the connecting block. Is fixedly installed, the lower end is connected to the lower end of the polishing motor so that a polishing rod capable of polishing the edge of the shoe sole can be transmitted, and a stop block is fixedly installed on the left side of the upper end surface of the driven plate. A limiting block that can slide on the upper side of the driven plate is installed on the right side of the stopping block, and a spring located at the left end of the limiting block with the left end penetrating the support block and located in an external space. The rod is fixedly installed, a spring block is fixedly installed on the left end of the spring rod, and two compression springs whose right end is fixedly connected to the support block are fixed on the right end surface of the spring block. A drive mechanism capable of raising and lowering the shoe sole polishing mechanism and the edge polishing mechanism is installed in the fixed block, and the raising and lowering mechanism can be raised and lowered in the fixed block. Is installed,
By controlling the drive mechanism, the elevating mechanism is controlled, thereby controlling the elevating and lowering of the sole polishing mechanism and the edge polishing mechanism, and the operation of the sole polishing mechanism and the edge polishing mechanism, respectively, according to needs. A sole polishing facility for the production of leather shoes, which is characterized by being easier and more efficient than the manual polishing operation of manual manufacturing of leather shoes, which completes polishing for different positions of the sole. The shoe sole polishing mechanism includes a support rod, a second electric guide rail is fixedly installed on the front end surface of the support rod, and a moving block is installed on the front end of the second electric guide rail, and the moving block is installed. Is driven by the second electric guide rail to move left and right, a moving space in which the lower end wall communicates with the external space is installed in the moving block, and a moving shaft is provided between the front and rear end walls of the moving space. Are connected so that they can rotate, and a thread block whose lower end is located in the external space is connected to the moving shaft by a thread, and the lower end wall communicates with the external space in the thread block in parallel movement. A space is installed, and the left and right end walls of the parallel moving space communicate with the moving space, and the parallel moving blocks are connected so as to slide in the parallel moving space, and in the parallel moving space, the parallel moving blocks are connected so as to be slidable. A push plate and a connecting spring are installed, the lower end of the push plate is in contact with the parallel moving block, the connecting spring connects the push plate and the upper end wall of the parallel moving space, and the left and right sides of the parallel moving block are connected. Parallel moving springs, one end of which is in contact with the end wall of the parallel moving space, are fixedly installed at both ends, and moving plates that can slide in the moving space are also installed on the left and right sides of the thread block. A slide groove penetrating the left and right end faces of the moving plate is formed in the moving plate, and a parallel moving rod having one end penetrating the parallel moving space and the slide groove is fixed to the left and right ends of the parallel moving block. The parallel moving rod is located in the moving space, and a limiting plate is fixedly installed at one end of the parallel moving rod away from the thread block, and after the moving space. A transmission motor is fixedly connected to the end wall, a transmission shaft is fixedly connected to the front end of the transmission motor so that the transmission shaft can be transmitted, and a first cam and a transmission gear are fixedly connected to the transmission shaft. A moving gear whose upper end is connected so as to mesh with the transmission gear is fixedly connected to the rear end of the shaft, and the right end of the first cam is in contact with the moving plate on the right side. A touch switch capable of controlling the operation of the moving shaft and the second electric guide rail is fixedly installed on the front end surface, and when the push plate is separated from the touch switch, the touch switch is moved to the transmission motor and the second. Claim 1 is characterized in that a polishing rod whose lower end is located in an external space is fixedly installed at the lower end of the parallel moving block by controlling the operation of the electric guide rail. Sole polishing equipment for the production of leather shoes described in. The elevating mechanism includes a drive space in which both the left and right end walls communicate with an external space, position limiting plates are installed on both the left and right sides of the fixed block, and the left end of the support rod is the right position limiting plate. An elevating rod is fixedly installed on the lower end surface of the support rod located in the drive space, penetrating the drive space and fixedly connected to the position limiting plate on the left side. An elevating plate that can move up and down in the drive space is fixedly installed at the lower end, and an elevating spring whose upper end is fixedly connected to the elevating plate is fixedly installed on the lower end wall of the drive space. The sole polishing treatment facility for producing leather shoes according to claim 2, wherein the sole polishing facility is characterized in that. The drive mechanism includes a drive motor fixedly installed on the front end wall of the drive space, is connected to the rear end of the drive motor so that a drive shaft can be transmitted, and frictions with a second cam on the drive shaft. The wheels are fixedly connected, the lower end of the second cam is in contact with the elevating plate, the right end wall penetrates the drive space in the fixed block, and the driven space communicates with the external space. A space is installed, one end of which is located in the drive space in the driven space, and the friction block in contact with the upper end of the friction wheel is connected so as to slide, and the right end is connected to the right end of the friction block. The sole polishing for leather shoe production according to claim 3, wherein an elastic cord is fixedly installed so as to penetrate the right end wall of the driven space and is fixedly connected to the spring block. Processing equipment. The fourth aspect of claim 4, wherein in the initial state, the parallel moving spring and the telescopic spring on the right side are in a compressed state, and both the compression spring and the elastic cord are in a pulled state. Sole polishing equipment for the production of leather shoes. The frictional force between the friction ring and the friction block is much larger than the sum of the elasticity of the elastic cord, the elasticity of the compression spring and the elasticity of the telescopic spring, and the elasticity of the elastic cord is that of the compression spring. The sole polishing equipment for producing leather shoes according to claim 4, wherein the transmission gear is much larger than the elasticity and the diameter of the transmission gear is much smaller than the diameter of the moving gear.

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