JP2019209088A - Highly efficient antislip sole preparation device - Google Patents

Abstract

To disclose highly efficient antislip sole preparation device.SOLUTION: The equipment includes a frame and a box body which is integrally installed on the frame. Between the frame and the box body, there is installed a standing groove that goes to the right and, on the end face in the apex of the box body, there is installed a first slide housing that goes to the standing groove. In the first slide housing, a first slide block is smoothly attached and, in the first slide block, a first turnaround housing is placed that goes downward. On the bottom of the lateral inner wall of the first turnaround housing, a first turnaround shaft rotates, engages, and is attached. The left end of the first turnaround shaft is connected by a motive force with a first motor which is fixedly installed on the inner wall on the left side of the first turnaround housing, and a second turnaround housing is vertically extended and installed which penetrates in front and in the rear in the first slide block on the right side of the first turnaround housing.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of processing technology for the shoe industry, and more specifically, to a highly efficient anti-slip sole preparation device.

  A certain shoe manufacturing factory increases the slip resistance by performing a grooving operation on the processed shoe sole. However, traditional grooving equipment requires excessive manpower manipulation, increases labor intensity, reduces efficiency, and severely injuries to the cutting blades if it fails during the operation process, so the sole It is necessary to provide processing equipment that can automatically realize grooving.

Chinese Patent Application No. 105500746

  An object of the present invention is to provide a high-efficiency anti-slip shoe sole preparation device for solving the problems submitted to the background art.

The high-efficiency anti-slip sole preparation device of the present invention includes a frame and a box that is integrally installed on the frame, and a left-handed groove is installed between the frame and the box, A first slide housing that faces the leaving groove is installed on an end surface of the top of the box, and the first slide block is smoothly mounted in the first slide housing, and the first slide block is directed downward toward the first slide block. A first turning housing is installed, and the first turning shaft is rotated and engaged with the bottom of the left and right inner walls of the first turning housing, and the left end of the first turning shaft is located on the left side of the first turning housing. A second turning housing that is connected to the first motor fixedly installed on the inner wall by power and penetrates the front and rear of the first sliding block on the right side of the first turning housing is vertically installed and installed. A drive shelf is fixedly mounted between the left and right inner walls of the two-turn housing, and the precursor drive A drive housing is installed through the front and rear, left drive teeth and right drive teeth are fixedly installed on the left and right inner walls of the drive housing, and the drive housing is installed on the front and rear inner walls of the first turning housing. A second turning shaft that passes through the first turning shaft is rotated and installed, a front end of the second turning shaft is rotated and installed in a front end wall of the first turning housing, and a rear end is the first turning housing. A fan-shaped gear that is connected to the second motor in the rear end wall by power and is positioned in the drive housing and engaged with the precursor left drive tooth and the right drive tooth on the second turning shaft is fixed. A second slide housing is installed on the end surface of the bottom of the box on the right side of the first slide housing, and the second slide block is smoothly mounted in the second slide housing. A hydraulic cylinder is installed on the inner top wall of the second slide housing, and the hydraulic pressure of the hydraulic cylinder is A bar is inserted into the second slide housing and fixedly connected to the top end surface of the second slide block, and a third turning housing is installed in the second slide block. A third turning shaft extending in the front-rear direction is installed in the third turning case, the front end of the third turning case is rotated and installed on the front end wall of the third turning case, and the rear end Is connected by power to a third motor fixedly installed on the rear inner wall of the third turning case, and a first turning wheel is fixedly installed on the third turning case in the third turning case. A rubber ring is installed on the outer ring of the first turning wheel, and a third slide casing extending toward the leaving groove is installed in the box on the left side of the first slide casing. A fourth turning casing is communicated and installed between the third slide casing and the first slide casing, The third slide block is mounted smoothly in the slide housing, the first toothed tooth is installed on the right end surface of the third slide block, and the second toothed tooth is installed on the left end surface of the first slide block A gear that engages and connects with the first and second toothed teeth through the fourth turning shaft in the fourth turning case is rotated and installed, and a moving device is installed on the gantry, The moving device includes a prism and a roller.

As a further technical plant, a holding housing is installed on the left side of the inner bottom wall of the leaving groove, a transmission groove communicating with the holding housing and directed to the right is installed in the gantry, A transmission device is installed therein, a fifth turning case is installed on the inner bottom wall of the left groove on the right side of the holding case, and a plurality of second turning wheels rotate in the fifth turning case. Installed.

As a further technical plan, a cutting blade is fixedly installed on the first turning shaft in the first turning housing.

As a further technical plan, the first guide grooves are symmetrically installed on the left and right inner walls of the first slide housing, and the first guide block fixedly connected to the first slide block is smooth in the first guide groove. And an elastic part that is in contact with the first guide block is installed on the bottom wall of the first guide groove.

As a further technical plan, a second guide groove is installed on the left inner wall of the third slide housing, and the second guide block fixedly connected to the third slide block is smoothed in the second guide groove. Mounted.

As a further technical plan, a rubber block is fixedly installed at the bottom of the third slide block.

As a further technical plan, a detector is installed on the inner wall on the right side of the first slide casing, and the detector is electrically connected to the third motor.

As a further technical plant, the prisms are each installed at the bottom of one corner of the gantry and the rollers are installed at the bottom of each prism.

The beneficial effects of the present invention are:

The present invention is simple in structure, convenient to use, and a first turning housing is installed on the first slide block. The first turning shaft is engaged with the bottom of the left and right inner walls of the first turning housing. The left end of the first turning shaft is connected to the first motor fixedly attached to the left inner wall of the first turning housing by power, and a support device is installed outside the first motor. A second turning housing that includes a buffer thick plate and a cooling aluminum plate and extends through the front and rear of the first sliding block on the right side of the first turning housing is installed between the left and right inner walls of the second turning housing. The drive shelf is fixedly attached to the drive cabinet, the drive housing is installed through the front and rear in the precursor drive shelf, and the left drive tooth and the right drive tooth are fixedly installed on the left and right inner walls of the drive housing, respectively. A second turning shaft that penetrates the drive housing rotates and is installed on the front and rear inner walls of the housing, The front end of the shaft is rotated and installed in the front end wall of the first turning housing, and the rear end is connected by power to the second motor in the rear end wall of the first turning housing, and the second turning A fan-shaped gear, which is located in the drive housing and engages with the precursor left drive gear and the right drive gear, is fixedly installed on the shaft, and is moved downward toward the end surface of the bottom of the right box of the first slide housing. Two slide housings are installed, the second slide block is smoothly mounted in the second slide housing, a hydraulic cylinder is installed on the inner top wall of the second slide housing, and the hydraulic lever of the hydraulic cylinder is the second A third turning case is inserted into the slide case and fixedly connected to the top end surface of the second slide block, and a downward third turning case is installed in the second slide block. A third turning shaft that extends back and forth is installed, and the front end of the third turning housing is the third turning housing. The third turning in the third turning casing is connected to the third motor which is installed on the front end wall of the third turning casing and the rear end is fixedly connected to the rear inner wall of the third turning casing. The first turning wheel is fixedly installed in the housing, the rubber ring is installed in the outer ring of the first turning wheel, and the third slide housing that faces the leaving groove is vertically moved in the box on the left side of the first slide housing. The fourth turning housing is installed in communication between the third slide housing and the first slide housing, the third slide block is smoothly mounted in the third slide housing, The first toothed tooth is installed on the right end face of the three slide blocks, the second toothed tooth is installed on the left end face of the first slide block, and the first toothed tooth is inserted into the fourth turning housing through the fourth turning shaft. And the gear that engages and connects with the second toothed wheel is rotated and installed, which speeds up the grooving of the shoe sole and improves the processing effect. Increases rate and safety when grooving.

In order to more clearly explain the technical solutions in the embodiments of the present invention and in the existing technology, the following is a brief introduction to the accompanying drawings that need to be used in the description of the embodiments and the existing technology. It should be understood that the accompanying drawings in the following description are only some embodiments of the present invention, and that other engineers based on these appended drawings are assumed based on the assumption that creative labor is not paid to ordinary engineers in this field. Attached figure can be obtained.

FIG. 1 is a schematic diagram of the overall structure of a highly efficient anti-slip shoe sole preparation device of the present invention.

All features disclosed in the present invention, or all disclosed methods and steps in the process, may be combined in any manner other than features or steps that are mutually exclusive.

All features disclosed in this document may be replaced with other alternative features having equivalent or similar purposes unless otherwise specified. That is, unless otherwise stated, all features are just one example in a series of equivalent or similar features.

As shown in FIG. 1, the highly efficient anti-slip shoe sole preparation device of the device of the present invention includes a gantry 10 and a box 11 that is integrally installed on the gantry 10, and the gantry 10 and the box 11 A left standing groove 19 is installed between the first slide housing 27 and the first slide housing 27 facing the leaving groove 19 on the end surface of the top of the box 11. A slide block 41 is mounted smoothly, and a first turning case 40 is installed on the first slide block 41. The first turning shaft 43 rotates at the bottom of the left and right inner walls of the first turning case 40. The left end of the first turning shaft 43 is connected to the first motor 42 fixedly mounted on the left inner wall of the first turning case 40 by power, and the first turning case 40 A second turning casing 38 penetrating the front and rear in the first slide block 41 on the right side is extended and installed, and the second turning casing 3 A drive shelf 37 is fixedly mounted between the left and right inner walls of 8, and a drive housing 36 is installed through the front and rear in the precursor drive shelf 37, and left drive teeth 32 and A right driving tooth 31 is fixedly installed, a second turning shaft 29 passing through the driving housing 36 is rotated and installed on the front and rear inner walls of the first turning housing 40, and a front end of the second turning shaft 29 is The second end is rotated and installed in the front end wall of the first turning case 40 and the rear end is connected by power to a second motor in the rear end wall of the first turning case 40. A fan-shaped gear 30 located in the drive housing 36 and engaged with the precursor left drive teeth 32 and the right drive teeth 31 is fixedly installed on the shaft 29, and the box on the right side of the first slide housing 27 A second slide housing 45 directed downward is installed on the end surface of the bottom of the body 11, and the second slide block 46 is smoothly mounted in the second slide housing 45. The hydraulic cylinder 51 is installed on the inner top wall of the second slide housing 45, and the hydraulic lever of the hydraulic cylinder 51 is inserted into the second slide housing 45 and at the top of the second slide block 46. A third turning housing 47 that is fixedly connected to the end face and is downwardly installed in the second slide block 46, and a third turning shaft 48 that extends back and forth is installed in the third turning housing 47. The front end of the third turning casing 47 is rotated and installed on the front end wall of the third turning casing 47, and the rear end is fixedly installed on the rear inner wall of the third turning casing 47. The first turning wheel 49 is fixedly attached to the third turning case 47 in the third turning case 47, and the outer ring of the first turning wheel 49 is rubberized. A ring 50 is installed, and the third slide casing 13 facing the leaving groove 19 in the box 11 on the left side of the first slide casing 27. The fourth turning housing 14 is installed in communication between the third slide housing 13 and the first slide housing 27, and extends into the third slide housing 13. The block 18 is mounted smoothly, a first toothed tooth is installed on the right end surface of the third slide block 18, a second toothed tooth is installed on the left end surface of the first slide block 41, and the fourth turning A gear 16 that engages and connects with the first toothed hook and the second toothed tooth through the fourth turning shaft 17 in the housing 14 is rotated and installed, and a moving device is installed on the gantry 10, and the moving device Includes a prism 101 and a roller 102.

As shown in a useful example, a holding housing 21 is installed in the left side of the inner bottom wall of the leaving groove 19, and communicates with the holding housing 21 in the gantry 10 and goes to the right. A transmission groove 23 is installed, a transmission device 22 is installed in the transmission groove 23, and a fifth turning case 24 is installed on the inner bottom wall of the leaving groove 19 on the right side of the holding case 21, A plurality of second turning wheels 25 are rotated and installed in the five turning case 24.

As a useful example, a cutting edge 39 is fixedly mounted on the first turning shaft 43 in the first turning housing 40 therein.

As shown in a useful example, a first guide groove 34 is symmetrically installed in the left and right inner walls of the first slide housing 27, and the first slide block 41 is placed in the first guide groove 34. The first guide block 35 that is fixedly connected to the first guide block 35 is mounted smoothly, and an elastic part 33 that abuts the first guide block 35 is installed on the bottom wall of the first guide groove 34, and the elastic part 33 is The slide block 41 is pressed upward.

As shown in a useful example, a second guide groove 12 is installed in the left inner wall of the third slide housing 13, and the third slide block 18 is inserted in the second guide groove 12. The second guide block 15 connected to the fixed is attached smoothly.

A rubber block 20 is fixedly installed at the bottom of the third slide block 18 therein, as a useful example.

As a useful example, a detector 44 is installed in the inner wall on the right side of the first slide housing 27, and the detector 44 is electrically connected to the third motor, thereby Stop the operation of the third motor intermittently.

As a useful example, the prisms 101 are respectively installed at the bottoms of the four corners of the gantry 10 and the rollers 102 are installed at the bottoms of the prisms 101, respectively. 102 provides convenience for moving and transporting the device.

When the device of the present invention is in the initial state, the end surface of the top portion of the first slide block 41 abuts the inner top wall of the first slide housing 27, and the cutting edge 39 is located in the first slide housing 27. The bottom of the third slide block 18 is inserted into the leaving groove 19, and the second slide block 46 is completely retracted into the second slide housing 45.

In use, the shoe sole is placed in the leaving groove 19 and the end surface of the top of the shoe sole is brought into contact with the second turning wheel 25, and then the hydraulic cylinder is operated, and the second slide block 4 is moved by the hydraulic lever. When the first turning wheel 49 abuts against the surface of the shoe sole, the operation of the hydraulic cylinder 51 is stopped and the third motor is activated, and when the third motor is activated, the first turning By rotating the wheel 49, the shoe sole is slid to the left, and when the shoe sole reaches just below the cutting edge 39, the first motor 42 and the second motor are activated, and the first motor 42 The cutting blade 39 is rotated by the activation, the sector gear 30 is rotated clockwise by the operation of the second motor, and the driving shelf 37 is driven by the engagement with the right driving tooth 31 thereon, By drive shelf 37 In the process in which the first slide block 41 is moved downward and the first slide block 41 slides downward, the third slide block 18 is gradually slid upward by driving the gear 16 from the left groove 19 When the first slide block 41 slides down and collides with the detector 44, the detector 44 is triggered to stop the operation of the third motor, and the operation of the third motor is stopped. Later, when the rotation of the first turning wheel 49 is stopped, that is, the movement of the shoe sole is stopped, and the first slide block 41 continues to slide downward, the cutting blade 39 performs a single rotation on the shoe sole. Grooves are made, and the sector gear 30 continues to rotate and meshes with the left drive teeth 32, thereby moving the first slide block 41 upward by the drive shelf 37, and the first slide block After the rack 41 is slid up and out of contact with the detector 44, the third gear 49 is rotated by the third motor to continuously move the shoe sole to the left, thereby The cut shoe sole is pushed to the left, and at the same time, under the pressure of the third slide block, the grooved shoe sole falls into the holding housing 21 and is transmitted by the transmission device 22 to the outside world. Is transmitted.

The basic principle, main features and advantages of the present invention have been described and explained above. It should be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and the above-described embodiments and the description are the principles of the present invention, and do not depart from the significance and principles of the present invention. There are various changes and improvements in the present invention on the premise, and these changes and improvements are within the protection scope of the present invention. The scope of protection of the present invention is defined as equivalent to the attached rights request.

Claims (1)

  The high-efficiency anti-slip shoe sole preparation device includes a frame and a box body that is integrally installed on the frame, the features of which are: a left-handed groove is installed between the frame and the box body; A first slide casing toward the leaving groove is installed on an end surface of the top of the box, and the first slide block is smoothly mounted in the first slide casing, and is directed downward to the first slide block. A first turning housing is installed, a first turning shaft is rotated and engaged with the bottom of the left and right inner walls of the first turning housing, and the left end of the first turning shaft is the left side of the first turning housing A first turning motor is fixedly connected to the inner wall of the first power supply, and a second turning case penetrating front and rear is installed in the first slide block on the right side of the first turning case. A drive shelf is fixedly mounted between the left and right inner walls of the second turning housing, A drive case is installed in the moving shelf through the front and rear, left drive teeth and right drive teeth are fixedly installed on the left and right inner walls of the drive case, and the drive is provided on the front and rear inner walls of the first turning case. A second turning shaft that penetrates the housing is rotated and installed, a front end of the second turning shaft is rotated and installed in a front end wall of the first turning housing, and a rear end is the first turning A sector gear connected to the second motor in the rear end wall of the housing by power, is located in the drive housing on the second turning shaft, and engages with the precursor left drive teeth and the right drive teeth. A second slide housing is installed on the bottom end surface of the box on the right side of the first slide housing, and the second slide block is smooth in the second slide housing. A hydraulic cylinder is installed on the inner top wall of the second slide housing, A pressure lever is inserted into the second slide housing and connected to the top end surface of the second slide block in a fixed manner, and a third turning housing is installed in the second slide block. A third turning shaft extending in the front-rear direction is installed in the third turning case, the front end of the third turning case is rotated and installed on the front end wall of the third turning case, and the rear side The end is connected by power to a third motor fixedly installed on the rear inner wall of the third turning case, and the first turning wheel is fixed to the third turning case in the third turning case. Installed, a rubber ring is installed on the outer ring of the first turning wheel, and a third slide housing extending toward the left groove is installed in the box on the left side of the first slide housing. A fourth turning housing is provided in communication between the third slide housing and the first slide housing; A third slide block is smoothly mounted in the third slide housing, a first toothed tooth is installed on the right end face of the third slide block, and a second toothed tooth is placed on the left end face of the first slide block. A gear that engages and connects with the first and second gears through the fourth turning shaft is rotated and installed in the fourth turning housing, and a moving device is installed on the gantry. The moving device includes a prism and a roller, a holding housing is installed on the left side of the inner bottom wall of the leaving groove, and a transmission groove that communicates with the holding housing and is directed to the right is installed in the mount. A transmission device is installed in the transmission groove, a fifth turning case is installed on the inner bottom wall of the left groove on the right side of the holding case, and a plurality of second turning points are provided in the fifth turning case. The wheel is rotated and installed, and the cutting blade is fixed to the first turning shaft in the first turning housing. The first guide groove is symmetrically installed on the left and right inner walls of the first slide housing, and the first guide block fixedly connected to the first slide block is smoothly installed in the first guide groove. An elastic part that faces the first guide block is installed on the bottom wall of the first guide groove; a second guide groove is installed on the left inner wall of the third slide housing; A second guide block that is fixedly connected to the third slide block is smoothly mounted therein, and a rubber block is fixedly installed at the bottom of the third slide block, and is detected on the right inner wall of the first slide housing. A detector is installed, the detector is electrically connected to the third motor, the prisms are respectively installed at the bottoms of the corners of the gantry, and the bottoms of the prisms are all Over it is installed.

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