CN113188924A

CN113188924A - Shoes tortuous wear-resisting testing arrangement

Info

Publication number: CN113188924A
Application number: CN202110438645.3A
Authority: CN
Inventors: 金花
Original assignee: Wenzhou Vocational and Technical College
Current assignee: Wenzhou Vocational and Technical College
Priority date: 2021-04-22
Filing date: 2021-04-22
Publication date: 2021-07-30

Abstract

The invention discloses a shoe bending wear-resistant testing device which comprises a testing rack, a bending mechanism and a shell, wherein the bending mechanism comprises a fixing plate, a bending plate, a fixing tightening belt and a connecting rod sliding mechanism, and a polishing mechanism is arranged between a support and a cross rod; grinding machanism includes first motor, connecting strip, installation pole, the subassembly and the disc of polishing, wherein, be equipped with a feed mechanism in the casing, feed mechanism includes second motor, drive mechanism, admission machine, mounting bracket, shoe mold and slide rail, be connected with a cam on the output of second motor, the mounting bracket activity sets up on the slide rail, just the left end of mounting bracket with the admission machine rigid coupling. What set up in this device has bending mechanism and grinding machanism, makes shoes remove the assigned position through feed mechanism, carries out the abrasion resistance test to shoes to can carry out the tortuosity test to shoes, separately test makes the test result more accurate.

Description

Shoes tortuous wear-resisting testing arrangement

Technical Field

The invention relates to a zigzag wear-resistant testing device, in particular to a shoe zigzag wear-resistant testing device.

Background

The shoe is wear-resistant, wear-resistant and poor in elasticity, and mainly looks at the sole. The shoe with the oxtendon sole is wear-resistant, the oxtendon sole is a sole which can be adopted by people for a long time, and the wear resistance is indeed verified by many people. The sole of another shoe is made of composite materials, so that the sole has good quality and can meet the requirements of long-time travel or work. In addition, the soles of foreign leather shoes with better quality are generally combined type beef tendon soles, so that the shoe soles have the light and convenient effect while having wear resistance. The existing zigzag wear-resistant testing device cannot effectively carry out zigzag wear-resistant testing on shoes, and the tested result is not accurate enough.

Disclosure of Invention

In view of the above, the present invention provides a device for testing shoe flexing and wear resistance, so as to solve the above technical problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a shoe zigzag wear test device comprising:

a test rack;

the bending mechanism is arranged on the testing rack and comprises a fixed plate, a bending plate, a pair of fixed tightening belts and a connecting rod sliding mechanism, the fixed plate is arranged at the front end of the testing rack, the bending plate is hinged at the left end of the fixed plate, the pair of fixed tightening belts are respectively arranged on the fixed plate and the bending plate, one end of the connecting rod sliding mechanism is fixedly connected with the front end of the testing rack, and the other end of the connecting rod sliding mechanism is hinged with the bending plate;

the shell is arranged on the test rack and positioned on the left side of the bending mechanism, and a cross rod is arranged on a support of the shell;

the polishing mechanism comprises a first motor, a connecting strip, an installation rod, a polishing assembly and a disc, wherein the first motor is installed at the lower end of the support, the installation rod is arranged on the cross rod, the polishing assembly is connected to the lower end of the installation rod, the disc is connected with the output end of the first motor, one end of the connecting strip is fixedly connected with the disc, and the other end of the connecting strip is movably arranged on a pipe column of the installation rod through a guide groove;

feeding mechanism, feeding mechanism sets up on the casing, feeding mechanism includes second motor, drive mechanism, admission machine, mounting bracket, shoe mold and slide rail, the second motor is installed in the casing, be connected with a cam on the output of second motor, drive mechanism's both ends set up respectively in the casing with the output of second motor, admission machine with drive mechanism's upper end rigid coupling, just admission machine wears to establish the upper end of casing and outside stretching out, the slide rail passes through the buffer gear activity and sets up the upper end of casing, the mounting bracket activity sets up on the slide rail, just the left end of mounting bracket with the admission machine rigid coupling, the shoe mold is fixed the upper end of mounting bracket, the cam can with the lower extreme of slide rail touches together.

Furthermore, the transmission mechanism comprises a transmission belt, a first bevel gear and a second bevel gear, the first bevel gear is arranged on the inner bottom wall of the shell, two ends of the transmission belt are respectively sleeved on the output end of the second motor and the middle shaft of the first bevel gear, the second bevel gear is fixedly connected with the lower end of the take-up mechanism, and the first bevel gear and the second bevel gear are in meshing transmission.

Furthermore, the take-up mechanism comprises a take-up drum and a pull rope, the take-up drum is fixedly connected with the second bevel gear, the take-up drum penetrates through the upper end of the shell and extends outwards, the pull rope is wound on the periphery of the take-up drum, and the pull rope is fixedly connected with the left end of the mounting frame.

Furthermore, the connecting rod sliding mechanism comprises a connecting rod, a sliding frame, a piston and a pull rod, the sliding frame is arranged at the front end of the test rack, the piston is connected with the inner wall of the sliding frame in a sliding mode, two ends of the connecting rod are hinged to the lower end of the bending plate and the piston respectively, the pull rod is fixedly connected with the piston, and the pull rod is movably arranged and matched with the left end opening of the sliding frame in a sliding mode.

Furthermore, the left end of sliding frame is equipped with a locking subassembly, the locking subassembly is including card strip, arm-tie, first compression spring, guide rail and connecting plate, the guide rail with the connecting plate all sets up on the outer left side wall of sliding frame, just the guide rail with be perpendicular setting between the connecting plate, the arm-tie with guide rail sliding connection, first compression spring sets up the arm-tie with between the connecting plate, the card strip is fixed the lower extreme of arm-tie.

Furthermore, the clamping strip can be connected with a clamping groove formed in the pull rod in a clamping mode.

Further, the subassembly of polishing includes grinding motor case and the mill of polishing, grinding motor case is fixed the lower extreme of installation pole, the mill of polishing with the output portion rigid coupling of grinding motor case, the mill of polishing can support press the terminal surface of shoe mold is so that polish the test to the product.

Further, the lower extreme welding of mounting bracket has a pair of slider, a pair of slider all with slide rail sliding connection, the right-hand member of mounting bracket is provided with an anticollision portion.

Furthermore, the anticollision portion includes second compression spring and an anticollision pad, the anticollision pad sets up the upper end of casing, second compression spring sets up on the anticollision pad, just the both ends of second compression spring support respectively press the mounting bracket with between the anticollision pad.

Further, buffer gear includes a plurality of third compression springs, and a plurality of third compression springs all set up the upper end of casing with between the lower extreme of slide rail.

The technical scheme can show that the invention has the advantages that: what set up in this device has bending mechanism and grinding machanism, makes shoes remove the assigned position through feed mechanism, carries out the abrasion resistance test to shoes to can carry out the tortuosity test to shoes, separately test makes the test result more accurate.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the bending mechanism of the present invention.

Fig. 3 is a partially enlarged view of a portion a of fig. 2.

Fig. 4 is a partially enlarged view of fig. 1 at B.

Fig. 5 is a schematic structural diagram of the feeding mechanism of the present invention.

List of reference numerals: the device comprises a test rack 1, a bending mechanism 2, a fixing plate 21, a bending plate 22, a fixing tightening belt 23, a connecting rod 24, a sliding frame 25, a piston 26, a pull rod 261, a clamping groove 2611, a clamping strip 27, a pull plate 271, a first compression spring 272, a guide rail 273, a connecting plate 274, a shell 3, a support 31, a cross rod 32, a grinding mechanism 4, a first motor 41, a connecting strip 42, a guide groove 421, a mounting rod 43, a pipe column 431, a grinding motor box 44, a grinding disc 45, a disc 46, a feeding mechanism 5, a second motor 51, a cam 511, a transmission belt 52, a first bevel gear 53, a second bevel gear 531, a take-up drum 54, a pull rope 541, a mounting rack 55, a sliding block 551, a second compression spring 552, a shoe mold 56, a sliding rail 57, a third compression spring 58 and an anti-collision pad 59.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

With reference to fig. 1 to 5, the shoe bending wear-resistant testing device shown in fig. 1 and 4 includes a testing rack 1, a bending mechanism 2 and a housing 3, wherein the bending mechanism 2 is disposed at the front right end of the testing rack 1, the bending mechanism 2 includes a fixing plate 21, a bending plate 22, a pair of fixing tightening belts 23 and a connecting rod sliding mechanism, the fixing plate 21 is mounted at the front end of the testing rack 1, the bending plate 22 is hinged at the left end of the fixing plate 21, the pair of fixing tightening belts 23 are respectively disposed on the fixing plate 21 and the bending plate 22, one end of the connecting rod sliding mechanism is fixedly connected to the front end of the testing rack 1, and the other end of the connecting rod sliding mechanism is hinged to the bending plate 22; the shell 3 is arranged at the left front end of the test rack 1, the shell 3 is positioned on the left side of the bending mechanism 2, a cross rod 32 is arranged on a support 31 of the shell 3, and a polishing mechanism 4 is arranged between the support 31 and the cross rod 32; the grinding mechanism 4 comprises a first motor 41, a connecting strip 42, a mounting rod 43, a grinding assembly and a disc 46, wherein the first motor 41 is mounted at the lower end of the bracket 31, the mounting rod 43 is arranged on the cross rod 32, the grinding assembly is connected to the lower end of the mounting rod 43, the disc 46 is connected with the output end of the first motor 41, one end of the connecting strip 42 is fixedly connected with the disc 46, and the other end of the connecting strip 42 is movably arranged on a pipe column 431 of the mounting rod 43 through a guide groove 421; wherein, a feeding mechanism 5 is arranged in the shell 3, the feeding mechanism 5 comprises a second motor 51, a transmission mechanism, a take-up mechanism, a mounting rack 55, a shoe mold 56 and a slide rail 57, the second motor 51 is installed in the housing 3, a cam 511 is connected to an output end of the second motor 51, two ends of the transmission mechanism are respectively arranged in the shell 3 and are connected with the output end of the second motor 51, the wire rewinding mechanism is fixedly connected with the upper end of the transmission mechanism, the take-up mechanism is arranged at the upper end of the shell 3 in a penetrating way and extends outwards, the slide rail 57 is movably arranged at the upper end of the shell 3 through a buffer mechanism, the mounting rack 55 is movably arranged on the slide rail 57, and the left end of the mounting frame 55 is fixedly connected with the take-up mechanism, the shoe mold 56 is fixed at the upper end of the mounting frame 55, and the cam 511 can be contacted with the lower end of the slide rail 57. Bending mechanism 2 and the grinding machanism 4 that set up in this device make shoes remove the assigned position through feed mechanism 5, carry out the abrasion resistance test to shoes to can carry out the tortuosity test to shoes, separately test makes the test result more accurate.

As shown in fig. 5, the transmission mechanism includes a transmission belt 52, a first bevel gear 53 and a second bevel gear 531, the first bevel gear 53 is disposed on the inner bottom wall of the housing 3, two ends of the transmission belt 52 are respectively sleeved on the output end of the second motor 51 and the central axis of the first bevel gear 53, the second bevel gear 531 is fixedly connected to the lower end of the take-up mechanism, and the first bevel gear 53 and the second bevel gear 531 are in meshing transmission.

Preferably, the wire rewinding mechanism includes a wire rewinding cylinder 54 and a pulling rope 541, the wire rewinding cylinder 54 is fixedly connected to the second bevel gear 531, the wire rewinding cylinder 54 penetrates through the upper end of the housing 3 and extends outward, the pulling rope 541 is wound around the periphery of the wire rewinding cylinder 54, and the pulling rope 541 is fixedly connected to the left end of the mounting bracket 55.

As shown in fig. 2 and 3, the connecting rod sliding mechanism includes a connecting rod 24, a sliding frame 25, a piston 26 and a pull rod 261, the sliding frame 25 is disposed at the front end of the test rack 1, the piston 26 is slidably connected with the inner wall of the sliding frame 25, two ends of the connecting rod 24 are respectively hinged to the lower end of the bending plate 22 and the piston 26, the pull rod 261 is fixedly connected with the piston 26, and the pull rod 261 is movably disposed in sliding fit with the left end opening of the sliding frame 25.

Preferably, a locking assembly is arranged at the left end of the sliding frame 25, the locking assembly includes a clamping strip 27, a pulling plate 271, a first compression spring 272, a guide rail 273 and a connecting plate 274, the guide rail 273 and the connecting plate 274 are both arranged on the left side wall outside the sliding frame 25, the guide rail 273 and the connecting plate 274 are vertically arranged, the pulling plate 271 is slidably connected with the guide rail 273, the first compression spring 272 is arranged between the pulling plate 271 and the connecting plate 274, and the clamping strip 27 is fixed at the lower end of the pulling plate 271.

Preferably, the locking strip 27 can be engaged with a plurality of locking grooves 2611 formed on the pull rod 261.

Preferably, the polishing assembly comprises a polishing motor box 44 and a polishing disc 45, the polishing motor box 44 is fixed at the lower end of the mounting rod 43, the polishing disc 45 is fixedly connected with the output part of the polishing motor box 44, and the polishing disc 45 can be pressed against the end surface of the shoe mold 56 so as to perform polishing test on a product.

Preferably, a pair of sliding blocks 551 is welded to the lower end of the mounting rack 55, the pair of sliding blocks 551 are both connected with the sliding rail 57 in a sliding manner, and an anti-collision portion is arranged at the right end of the mounting rack 55.

Preferably, the bump protection portion includes a second compression spring 552 and a bump pad 59, the bump pad 59 is disposed at the upper end of the housing 3, the second compression spring 552 is disposed on the bump pad 59, and two ends of the second compression spring 552 respectively press against between the mounting frame 55 and the bump pad 59.

Preferably, the buffer mechanism includes a plurality of third compression springs 58, and each of the plurality of third compression springs 58 is disposed between the upper end of the housing 3 and the lower end of the slide rail 57.

The working process is as follows: when the flexibility test is carried out, the shoes are placed on the fixed plate 21 and the bending plate 22 to be fixed, the pull plate 271 is pulled upwards, the clamping strips 27 are controlled to move up and down to control the pull rod 261 to move left and right, and therefore the connecting rod 24 is pushed to change the angle between the fixed plate 21 and the bending plate 22, and the flexibility test is carried out on the shoes; when the wear resistance test is carried out, the shoe is sleeved on the shoe mold 56 and fixed, so that the sole faces upwards, the second motor 51 is started, the output end of the second motor 51 drives the cam 511 to rotate, polished fragments can be vibrated into the shell 3, meanwhile, the rotation of the take-up drum 54 is controlled to control the left and right movement of the mounting frame 55, the polishing position can be changed, and the wear resistance test is carried out on multiple positions on the surface of the sole; in conclusion, the bending mechanism 2 and the grinding mechanism 4 arranged in the device enable shoes to move to the designated positions through the feeding mechanism 5, the shoes are subjected to the abrasion resistance test, the shoes can be subjected to the tortuosity test, and the test results are enabled to be more accurate through the separate test.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made to the embodiment of the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A shoe zigzag wear test device, comprising:

a test rack (1);

the bending mechanism (2) is arranged on the testing rack (1), the bending mechanism (2) comprises a fixing plate (21), a bending plate (22), a pair of fixed tightening belts (23) and a connecting rod sliding mechanism, the fixing plate (21) is installed at the front end of the testing rack (1), the bending plate (22) is hinged to the left end of the fixing plate (21), the pair of fixed tightening belts (23) are respectively arranged on the fixing plate (21) and the bending plate (22), one end of the connecting rod sliding mechanism is fixedly connected with the front end of the testing rack (1), and the other end of the connecting rod sliding mechanism is hinged to the bending plate (22);

the shell (3) is arranged on the test rack (1), the shell (3) is positioned on the left side of the bending mechanism (2), and a cross rod (32) is arranged on a support (31) of the shell (3);

the polishing device comprises a polishing mechanism (4), wherein the polishing mechanism (4) comprises a first motor (41), a connecting strip (42), an installation rod (43), a polishing assembly and a disc (46), the first motor (41) is installed at the lower end of the support (31), the installation rod (43) is arranged on the cross rod (32), the polishing assembly is connected to the lower end of the installation rod (43), the disc (46) is connected with the output end of the first motor (41), one end of the connecting strip (42) is fixedly connected with the disc (46), and the other end of the connecting strip (42) is movably arranged on a pipe column (431) of the installation rod (43) through a guide groove (421);

feed mechanism (5), feed mechanism (5) sets up on casing (3), feed mechanism (5) include second motor (51), drive mechanism, admission mechanism, mounting bracket (55), shoe mold (56) and slide rail (57), second motor (51) are installed in casing (3), be connected with a cam (511) on the output of second motor (51), drive mechanism's both ends set up respectively in casing (3) with the output of second motor (51), admission mechanism with drive mechanism's upper end rigid coupling, and admission mechanism wears to establish the upper end of casing (3) and outwards stretches out, slide rail (57) pass through the buffer gear activity and set up the upper end of casing (3), mounting bracket (55) activity sets up on slide rail (57), just the left end of mounting bracket (55) with admission mechanism rigid coupling, the shoe mold (56) is fixed at the upper end of the mounting frame (55), and the cam (511) can touch the lower end of the sliding rail (57).

2. The shoe bending wear-resisting testing device according to claim 1, wherein the transmission mechanism comprises a transmission belt (52), a first bevel gear (53) and a second bevel gear (531), the first bevel gear (53) is arranged on the inner bottom wall of the shell (3), two ends of the transmission belt (52) are respectively sleeved on the output end of the second motor (51) and the middle shaft of the first bevel gear (53), the second bevel gear (531) is fixedly connected with the lower end of the take-up mechanism, and the first bevel gear (53) and the second bevel gear (531) are in meshing transmission.

3. The shoe flexing wear testing device according to claim 2, wherein the take-up mechanism comprises a take-up drum (54) and a pulling rope (541), the take-up drum (54) is fixedly connected with the second bevel gear (531), the take-up drum (54) is arranged at the upper end of the shell (3) in a penetrating manner and extends outwards, the pulling rope (541) is wound on the periphery of the take-up drum (54), and the pulling rope (541) is fixedly connected with the left end of the mounting frame (55).

4. The shoe bending and wear-resisting test device according to claim 1, wherein the connecting rod sliding mechanism comprises a connecting rod (24), a sliding frame (25), a piston (26) and a pull rod (261), the sliding frame (25) is arranged at the front end of the test rack (1), the piston (26) is in sliding connection with the inner wall of the sliding frame (25), two ends of the connecting rod (24) are respectively hinged to the lower end of the bending plate (22) and the piston (26), the pull rod (261) is fixedly connected with the piston (26), and the pull rod (261) is in sliding fit with the left end opening of the sliding frame (25).

5. The shoe zigzag wear testing device according to claim 4, wherein a locking assembly is provided at a left end of the sliding frame (25), the locking assembly comprises a clamping strip (27), a pulling plate (271), a first compression spring (272), a guide rail (273) and a connecting plate (274), the guide rail (273) and the connecting plate (274) are both disposed on a left side wall outside the sliding frame (25), the guide rail (273) and the connecting plate (274) are disposed perpendicularly, the pulling plate (271) is slidably connected with the guide rail (273), the first compression spring (272) is disposed between the pulling plate (271) and the connecting plate (274), and the clamping strip (27) is fixed at a lower end of the pulling plate (271).

6. The device for testing the flexural wear resistance of shoes according to claim 5, characterized in that said strip (27) is adapted to engage with a groove (2611) provided on said tie rod (261).

7. The shoe bending wear-resisting testing device according to claim 1, wherein the grinding assembly comprises a grinding motor box (44) and a grinding disc (45), the grinding motor box (44) is fixed at the lower end of the mounting rod (43), the grinding disc (45) is fixedly connected with the output part of the grinding motor box (44), and the grinding disc (45) can be pressed against the end surface of the shoe mold (56) so as to perform grinding testing on a product.

8. The shoe zigzag wear testing device according to claim 1, wherein a pair of sliding blocks (551) are welded to the lower end of the mounting frame (55), the pair of sliding blocks (551) are slidably connected with the sliding rails (57), and an anti-collision portion is disposed at the right end of the mounting frame (55).

9. The shoe zigzag wear testing device according to claim 8, wherein the bump stopper includes a second compression spring (552) and a bump pad (59), the bump pad (59) is disposed at the upper end of the housing (3), the second compression spring (552) is disposed on the bump pad (59), and both ends of the second compression spring (552) are respectively pressed between the mounting frame (55) and the bump pad (59).

10. The shoe zigzag wear testing apparatus according to claim 1, wherein the cushioning mechanism includes a plurality of third compression springs (58), each of the plurality of third compression springs (58) being disposed between an upper end of the housing (3) and a lower end of the slide rail (57).