CN220212104U - Multi-environment-switching sole anti-skid test equipment - Google Patents

Abstract

The utility model discloses a multi-environment-switching sole anti-skid test device, which comprises a test bench, wherein a mounting groove is formed in the upper side surface of the test bench, a test board is mounted in the mounting groove through a mounting assembly, at least two test grooves are distributed in the upper side surface of the test board front and back, the mounting assembly enables the test board to move front and back and up and down, and the device further comprises a tester, and a shoe body can be hung on the tester, so that the sole can be subjected to anti-skid test in the test grooves, and different materials can be placed in a plurality of test grooves to test the anti-skid performance of the sole in different environments; the test board can be lifted and moved back and forth, so that the sole can be tested in different test grooves by one-time clamping; the sole can be subjected to angle adjustment after being clamped and fixed, so that the anti-skid performance of the sole under different angles can be conveniently tested.

Description

Multi-environment-switching sole anti-skid test equipment

Technical Field

The utility model relates to the technical field of shoemaking, in particular to a multi-environment switching sole anti-skid test device.

Background

The sole needs to be subjected to an anti-skid property test after the design style, the anti-skid property of the sole is directly related to the walking safety of a wearer, and particularly on wet slippery ground, the sole with poor anti-skid property is easier to slip, so that falling injury is caused.

The existing sole anti-skid performance test equipment has single function, namely the sole is difficult to test in various environments, and the anti-skid performance test device of the rubber sole of the sports shoe disclosed in application number 202221070009.6 can only test friction between the sole and a test block under preset pressure, so that the anti-skid performance of the sole in other environments is difficult to test;

in addition, the sole anti-slip detection machine disclosed in application number 202222158004.5 also has the problems: the sole is difficult to test in various environments;

and above-mentioned two kinds of test equipment are difficult to make the sole carry out anti-skidding test under different angles, and test item is comparatively single.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a multi-environment-switching sole anti-skid test device which is used for solving the problems of single test environment and test items which can be carried out by the existing sole anti-skid test device.

The utility model provides the following technical scheme: the anti-skid sole testing equipment comprises a testing table, wherein a mounting groove is formed in the upper side surface of the testing table, a testing plate is mounted in the mounting groove through a mounting assembly, at least two testing grooves are distributed in the upper side surface of the testing plate front and back, and the mounting assembly enables the testing plate to move front and back and up and down;

the automatic testing device comprises a testing platform, and is characterized by further comprising a tester, wherein the tester is mounted on the upper side face of the testing platform through a translation assembly, so that the tester can move left and right, the tester comprises a shell, a testing cavity with an opening right is arranged in the shell, a testing block extending to the right side of the shell is connected in a sliding manner left and right in the testing cavity, a pressure sensor in contact with the testing block is arranged on the inner wall of the testing cavity, and a shoe rack is arranged on the testing block.

Preferably, the shoe rack is liftable, namely the pressure measuring block comprises a translation part contacted with the pressure sensor and a lifting part for mounting the shoe rack, wherein the lifting part is positioned on the right side of the shell, the lifting part is vertically and slidably connected in the right side surface of the translation part, a threaded shaft penetrating through the lifting part and in threaded connection with the lifting part is rotationally connected on the upper side surface of the translation part, and a first knob is arranged at the upper end of the threaded shaft.

Preferably, the shoe rack comprises a vertical rod, a transverse frame and a supporting plate, wherein the vertical rod is fixed on the upper side face of the transverse frame, the supporting plate is fixed on the upper side face of the vertical rod, a step hole which penetrates through up and down is formed in the lifting part, the supporting plate is abutted to the step face in the step hole, and a top cover used for pressing the supporting plate is further connected in a threaded mode in the step hole.

Preferably, the translation subassembly is including locating four mounting panels of testboard upside, two of controlling the distribution the rotation is connected with the drive shaft between the mounting panel, the front and back side of tester be equipped with respectively one with drive shaft threaded connection's extension board, two of controlling the distribution connect through the hold-in range between the drive shaft, and be equipped with on the mounting panel can drive one the motor of drive shaft.

Preferably, the mounting assembly comprises a through groove which is arranged in the test board and penetrates through the test board in the front-back direction, the front side surface and the back side surface of the mounting groove are also provided with a supporting rod which penetrates through the through groove, and the upper-lower width of the supporting rod is smaller than the upper-lower width of the through groove;

an inner groove is further formed in the lower side face of the placement groove, two clamping plates are connected in the inner groove in a left-right sliding mode, a supporting frame is fixedly arranged on the side face, close to each other, of each clamping plate, a first inclined face is arranged between the end face of the supporting frame and the upper side face of the supporting frame, a second inclined face which is matched with the first inclined face can be arranged between the bottom face of the test plate and the left side face of the test plate and the right side face of the test plate, and a control assembly used for controlling the two clamping plates to move in the opposite direction is arranged in the inner groove.

Preferably, the control assembly comprises a control shaft rotatably connected to the inner groove, the control shaft extends to the right side of the test bench, a grip is arranged at the right end of the control shaft, two sections of opposite threads are machined on the control shaft, and each section of threads is in threaded connection with one clamping plate.

Preferably, three test grooves exist, sand and stones are arranged in one test groove, water exists in one test groove, a groove is formed in the lower side face of one test groove, and a weight detecting scale is arranged in the groove.

The utility model provides a multi-environment-switching sole anti-skid test device, which has the following beneficial effects:

according to the utility model, the anti-skid test can be performed on the sole, and three test grooves are formed in the test board, and different materials can be placed in the three test grooves so as to test the anti-skid performance of the sole in different environments;

the test board can be lifted and moved back and forth, so that the sole can be tested in different test grooves by one-time clamping;

the sole can be subjected to angle adjustment after being clamped and fixed, so that the anti-skid performance of the sole under different angles can be conveniently tested.

Drawings

FIG. 1 is a schematic view of the appearance of the present utility model;

FIG. 2 is a schematic view of the structure within the present utility model;

FIG. 3 is a schematic view of the appearance of the test block of FIG. 1;

FIG. 4 is an enlarged schematic view of the test block of FIG. 2;

fig. 5 is a schematic view of the appearance of the test plate of fig. 1.

In the figure:

11. a test bench; 12. a placement groove; 13. a test board; 14. a test slot; 20. a tester; 21. a housing; 22. a pressure block is measured; 23. a pressure sensor; 25. a shoe rack; 26. a lifting shaft; 31. a vertical rod; 32. a cross frame; 33. a support plate; 34. a step hole; 35. a top cover; 41. a slide bar; 42. a motor; 51. a through groove; 52. a support rod; 53. an inner tank; 54. a clamping plate; 55. a support frame; 56. a regulating shaft; 101. a mounting assembly; 102. a mounting assembly; 103. a control assembly;

Detailed Description

Reference will now be made in detail to embodiments of the present utility model, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-5, an embodiment of a multi-environment switching sole anti-skid test apparatus according to the present utility model includes

The anti-skid sole testing equipment capable of switching between multiple environments comprises a testing table 11, wherein a mounting groove 12 is formed in the upper side surface of the testing table 11, a testing plate 13 is mounted in the mounting groove 12 through a mounting assembly 101, three testing grooves 14 are distributed in the upper side surface of the testing plate 13 front and back, sand and stones are arranged in one testing groove 14, and water is arranged in one testing groove 14 so as to test friction force of shoes in different environments;

the tester 20 is mounted on the upper side surface of the test bench 11 through a translation assembly 102, so that the tester 20 can move left and right, the tester 20 comprises a shell 21, a test cavity with a rightward opening is arranged in the shell 21, a pressure measuring block 22 extending to the right side of the shell 21 is connected in a left-right sliding manner in the test cavity, a pressure sensor 23 in contact with the pressure measuring block 22 is arranged on the inner wall of the test cavity, and a shoe rack 25 is arranged on the pressure measuring block 22;

when testing, the worker needs to fix the shoes on the shoe rack 25 and make the shoes abut against the lower side of the test slot 14, and then the translation assembly 102 drives the tester 20 to move leftwards, and the pressure sensed by the pressure sensor 23 is the friction of the shoes under the environment of the test slot 14.

In order to facilitate the shoe to be able to be abutted against the underside of the test slot 14 after being fixed on the shoe rack 25, the shoe rack 25 is liftable, that is, the pressure measuring block 22 is composed of a translation portion 61 in contact with the pressure sensor 23 and a lifting portion 62 for mounting the shoe rack 25, the lifting portion 62 is located on the right side of the housing 21, the lifting portion 62 is connected to the right side of the translation portion 61 in a vertical sliding manner, a threaded shaft penetrating through the lifting portion 62 and in threaded connection with the lifting portion is rotatably connected to the upper side of the translation portion 61, a first knob 91 is arranged at the upper end of the threaded shaft, and a worker can rotate the first knob 91 again after the shoe is mounted on the shoe rack 25 to control the shoe rack 25 to sink, so that the shoe can be abutted against the underside of the test slot 14.

In addition, in order to facilitate the adjustment of the angle of the shoe rack 25 and further facilitate the friction test of shoes at different angles, the shoe rack 25 comprises a vertical rod 31, a transverse frame 32 and a support plate 33, wherein the vertical rod 31 is fixed on the upper side surface of the transverse frame 32, the support plate 33 is fixed on the upper side surface of the vertical rod 31, a step hole 34 penetrating up and down is arranged in the lifting part 62, the support plate 33 is abutted to the step surface in the step hole 34, and a top cover 35 for pressing the support plate 33 is also connected in the step hole 34 in a threaded manner;

when the shoe rack 25 and the shoes fixed on the shoe rack 25 need to be angularly adjusted, the worker manually rotates the shoe rack 25 first and then screws the top cover 35, and at this time, the top cover 35 abuts against the upper side surface of the supporting plate 33, and the angle of the shoe rack 25 is limited.

In order to facilitate the horizontal movement of the tester 20, the translation assembly 102 comprises four mounting plates arranged on the upper side surface of the test bench 11, a driving shaft 41 is rotatably connected between the two mounting plates distributed left and right, an extension plate in threaded connection with the driving shaft 41 is respectively arranged on the front side surface and the rear side surface of the tester 20, the two driving shafts 41 distributed front and rear are connected through a synchronous belt, a motor 42 capable of driving one driving shaft 41 is arranged on one mounting plate, and when the motor 42 is electrified, the motor 42 can enable the two driving shafts 41 to rotate through the synchronous belt, and the tester 20 is driven to move left and right through the extension plate.

In order to enable the shoes fixed on the shoe rack 25 to be freely switched in the three test slots 14, the test board 13 needs to be capable of moving back and forth and moving up and down, the mounting assembly 101 includes a through slot 51 penetrating back and forth in the test board 13, the front and back sides of the mounting slot 12 are further provided with a support rod 52 penetrating through the through slot 51, the up and down width of the support rod 52 is smaller than the up and down width of the through slot 51, so that the test board 13 can slide up and down, and the test board 13 moves back and forth after moving to the lowest side, so that the extrusion of the shoes and the wall surface of the test slot 14 can be avoided;

an inner groove 53 is further formed in the lower side surface of the mounting groove 12, two clamping plates 54 are connected in the inner groove 53 in a left-right sliding manner, a supporting frame 55 is fixedly arranged on the side surface, close to each other, of the two clamping plates 54, a first inclined surface is arranged between the end surface of the supporting frame 55 and the upper side surface of the supporting frame, a second inclined surface which can be matched with the first inclined surface is arranged between the bottom surface of the test plate 13 and the left-right side surface of the test plate, and a control assembly 103 for controlling the two clamping plates 54 to move in opposite directions is arranged in the inner groove 53;

the control assembly 103 comprises a control shaft 56 rotatably connected in the inner groove 53, the control shaft 56 extends to the right side of the test bench 11, a grip 92 is arranged at the right end of the control shaft 56, two sections of opposite threads are processed on the control shaft 56, and each section of threads is in threaded connection with one clamping plate 54;

when the worker rotates the control shaft 56 to separate the two clamping plates 54 from each other, the test plate 13 is sunk at this time, and the test plate 13 can move back and forth at this time, when the worker rotates the control shaft 56 to separate the two clamping plates 54 from each other, the support frame 55 pushes the test plate 13 to move upward under the cooperation of the first inclined plane and the second inclined plane in this process, the test plate 13 is clamped by the two clamping plates 54 after the test plate 13 moves to the uppermost side, and the shoes located on the shoe rack 25 at this time can enter the test slot 14 located in the middle position of the placement slot 12.

In addition, in order to facilitate the staff to know the pressure between the shoes and the underside of the test tank 14, so that the staff can control the up-down position of the shoe rack 25 through the first knob 91, a groove is arranged in the test tank 14 without gravel and water, and a weight detection scale is arranged in the groove.

The specific test flow is as follows:

firstly, a worker fixes shoes on a shoe rack 25, screws a top cover 35 after adjusting the angle of the shoe rack 25, then the worker enables the shoe rack 25 to sink through a first knob 91 until the shoes are abutted against a weight scale, when the weight scale indication reaches the standard, the worker controls a motor 42 to be electrified, at the moment, a tester 20 moves rightwards, and at the moment, the indication sensed by a pressure sensor 23 can calculate the friction force between the shoes and the ground under the simulated pressure and standard environment;

when the shoe is to be placed in another test slot 14 to simulate a gravel and wet environment, the worker first rotates the control shaft 56 to move the two clamping plates 54 away from each other, then manually toggles the test plate 13 back and forth to position the other test slot 14 on the underside of the tester 20, and then again rotates the control shaft 56 to clamp the test plate 13 by the two clamping plates 54, at which time the shoe is positioned in the test slot 14 with the pressure between the lower side of the test slot 14 unchanged.

The above embodiments are merely illustrative embodiments of the present utility model, but the technical features of the present utility model are not limited thereto, and any changes or modifications made by those skilled in the art within the scope of the present utility model are included in the scope of the present utility model.

Claims (7)

1. The utility model provides a sole antiskid test equipment that multiple ring environment switched, includes testboard (11), its characterized in that: a mounting groove (12) is formed in the upper side surface of the test table (11), a test plate (13) is mounted in the mounting groove (12) through a mounting component (101), at least two test grooves (14) are distributed in the upper side surface of the test plate (13) front and back, and the mounting component (101) enables the test plate (13) to move back and forth and up and down;

the automatic testing device is characterized by further comprising a tester (20), wherein the tester (20) is mounted on the upper side face of the test table (11) through a translation assembly (102), so that the tester (20) can move left and right, the tester (20) comprises a shell (21), a right testing cavity with an opening is arranged in the shell (21), a pressure measuring block (22) extending to the right side of the shell (21) is connected in a sliding manner in the testing cavity left and right, a pressure sensor (23) in contact with the pressure measuring block (22) is arranged on the inner wall of the testing cavity, and a shoe rack (25) is arranged on the pressure measuring block (22).

2. The multi-environment switching sole anti-skid test device of claim 1, wherein: the shoe rack (25) can be lifted, namely the pressure measuring block (22) consists of a translation part (61) contacted with the pressure sensor (23) and a lifting part (62) for mounting the shoe rack (25), the lifting part (62) is positioned on the right side of the shell (21), the lifting part (62) is vertically and slidably connected in the right side surface of the translation part (61), the upper side surface of the translation part (61) is rotationally connected with a threaded shaft penetrating through the lifting part (62) and in threaded connection with the lifting part, and the upper end of the threaded shaft is provided with a first knob (91).

3. The multi-environment switching sole anti-skid test device of claim 2, wherein: the shoe rack (25) comprises a vertical rod (31), a transverse frame (32) and a supporting plate (33), wherein the vertical rod (31) is fixed on the upper side surface of the transverse frame (32), the supporting plate (33) is fixed on the upper side surface of the vertical rod (31), a step hole (34) penetrating up and down is formed in the lifting part (62), the supporting plate (33) is abutted to the step surface in the step hole (34), and a top cover (35) for pressing the supporting plate (33) is further connected in the step hole (34) in a threaded mode.

4. The multi-environment switching sole anti-skid test device of claim 1, wherein: the translation assembly (102) comprises four mounting plates arranged on the upper side surface of the test bench (11), a driving shaft (41) is rotatably connected between the two mounting plates which are distributed left and right, an extension plate which is in threaded connection with the driving shaft (41) is respectively arranged on the front side surface and the rear side surface of the tester (20), the two driving shafts (41) which are distributed front and rear are connected through a synchronous belt, and a motor (42) which can drive one driving shaft (41) is arranged on one mounting plate.

5. The multi-environment switching sole anti-skid test device of claim 1, wherein: the mounting assembly (101) comprises a through groove (51) which is arranged in the test board (13) and penetrates through the test board in the front-back direction, a supporting rod (52) which penetrates through the through groove (51) is further arranged on the front side surface and the rear side surface of the mounting groove (12), and the upper-lower width of the supporting rod (52) is smaller than that of the through groove (51);

still be equipped with inside groove (53) in the downside of standing groove (12), sliding connection has two grip blocks (54) about in inside groove (53), two on the side that grip block (54) are close to each other set firmly support frame (55), be a inclined plane between support frame (55) terminal surface and the side on it, be between the bottom surface of test board (13) and its left and right sides face for can with a inclined plane complex No. two inclined planes, be equipped with in inside groove (53) and be used for controlling two control assembly (103) of grip block (54) motion in opposite directions.

6. The multi-environment switching sole anti-skid test device of claim 5, wherein: the control assembly (103) comprises a regulating shaft (56) rotatably connected to the inner groove (53), the regulating shaft (56) extends to the right side of the test bench (11), a grip (92) is arranged at the right end of the regulating shaft (56), two sections of opposite threads are machined on the regulating shaft (56), and each section of threads is in threaded connection with one clamping plate (54).

7. The multi-environment switching sole anti-skid test device of claim 1, wherein: three test grooves (14) exist, sand and stones are arranged in one test groove (14), water exists in one test groove (14), a groove is formed in the lower side face of the test groove, and a weight detection scale is arranged in the groove.