CN201611332U - Non-slip tester for finished footwear - Google Patents

Abstract

The utility model provides a non-slip tester for finished footwear, which has the advantages of simple and reasonable structure and convenient use, and achieves a fast and standardized test mode. The non-slip tester comprises a support, wherein the bottom end of the support is provided with a test bench, the surface layer of which is provided with a test surface, a shoe clamp is arranged above the test bench and connected with the support by adjusting handles at two sides, the top end of the support is connected with a cylinder, the other end of the cylinder is connected with a load cell, the end part of the bottom of the support is connected with a force sensor, and the side surface of the support is provided with a drive mechanism connected with the test bench. The non-slip tester for finished footwear can better test the non-slip property parameter of the finished footwear, and lead a sole to generate frictional resistance with friction plates of different test surfaces, thus testing the friction coefficient of materials of different formulation fast and accurately.

Description

Become footwear on-slip testing machine

Technical field

The utility model relates to a kind of testing machine that becomes footwear, particularly relates to a kind of testing machine of testing into the footwear non-skid property.

Background technology

Footwear are the requisite articles for use of people's daily life, the quality quality of footwear directly has influence on people's life, under wet and slippery situation, how to improve the non-skid property of footwear, it is actively developing direction hardy of industry always, for the friction factor of the material for sole of shoe of new prescription, need accurate non-skid property test data.But in the prior art, can only calculate roughly that error is bigger, how can test out the friction factor of different formulations material quickly and accurately, the non-skid property that makes into footwear is outstanding, is the problem that industry need solve.

The utility model content

Problem at the prior art existence, the purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art part, a kind of one-tenth footwear on-slip testing machine of advantage simple and reasonable for structure, easy to use is provided, reaches quick and normalized test pattern, its novel structure, simple and practical.

For reaching above-mentioned purpose, one-tenth footwear on-slip testing machine of the present utility model, adopt following technical scheme:

A kind of one-tenth footwear on-slip testing machine, include support, be provided with test platform below the support, test platform can't move up and down, test platform can only move forward and backward, the test platform surface layer is provided with test surfaces, be provided with the shoes anchor clamps above the test platform, the shoes anchor clamps link to each other with support by the adjusting handle of both sides, and cantilever tip connects cylinder, the other end of cylinder connects load measuring gauge, the support bottom end connects strength sensor, and the centre of support is provided with gear train, and support does not link to each other with gear train, gear train is positioned at below the test platform, and gear train connects test platform.

Further, described gear train comprises motor, clutch coupling, synchronous pulley, is with synchronously, motor connects clutch coupling, the clutch coupling synchronous pulley that is in transmission connection, the synchronous pulley transmission is with synchronously, the other end of band is positioned at the end that support connects strength sensor synchronously, is with synchronously to be provided with stator, and band connects test platform by stator synchronously; Be provided with below the test platform both sides with synchronously with parallel slide rail, the slide block that test platform is provided with below is positioned at slide rail; Be provided with horizontal adjusting mechanism below the test platform, the end of horizontal adjusting mechanism connects bit block by linkage, and bit block is positioned at alignment grooves; Load measuring gauge is electrically connected display screen, and strength sensor is electrically connected display screen, and the shoes anchor clamps are provided with the artificial model pin towards the test platform face, and the shoes anchor clamps are positioned at mid-stent.

The utility model can better test out into the non-skid property parameter of footwear, during test, the product shoes of test block is added on the friction plate that is pressed in different test surfaces, the product shoes of utilizing gear train to drive test block again moves, make sole produce frictional resistance with the friction plate of different test surfaces, and these data are delivered to computer by the strength sensor that sets in advance, and show friction curve figure and friction factor by display screen, test out the friction factor of different formulations material quickly and accurately.

Description of drawings

Fig. 1 is the schematic perspective view of the utility model embodiment;

Fig. 2 is the structural representation of the utility model embodiment;

Fig. 3 is the schematic top plan view of the utility model embodiment;

Fig. 4 is the schematic perspective view of the utility model embodiment holder part;

Fig. 5 is the schematic perspective view of the utility model embodiment horizontal adjusting mechanism;

Fig. 6 is the stereographic map of the utility model embodiment gear train;

Fig. 7 is the schematic configuration diagram of overlooking of the utility model embodiment gear train;

Fig. 8 is the synoptic diagram of the utility model embodiment gear train side.

Embodiment

For further understanding feature of the present utility model, technological means and the specific purposes that reached, function, resolve advantage of the present utility model and spirit, by detailed description of the present utility model being further understood below in conjunction with accompanying drawing and embodiment.

The utility model dependency structure mainly comprises following parts (or device): motor 1, clutch coupling 2, synchronous pulley 3, be with 4 synchronously, test platform 5, test surfaces 6, support 7, shoes anchor clamps 8, artificial model pin 9, cylinder 10, horizontal adjusting mechanism 11, strength sensor 12, load measuring gauge 13, adjusting handle 14, display screen 15, bit block 16, alignment grooves 17.

Structure devices as shown in Figure 1, it is the schematic perspective view of embodiment of the one-tenth footwear on-slip testing machine of the utility model, the utility model includes support 7, be provided with test platform 5 below the support 7, test platform 5 can't move up and down, test platform 5 can only move forward and backward, support 7 can only move up and down, test platform 5 surface layers are provided with the friction plate of different test surfaces 6, be provided with shoes anchor clamps 8 above the test platform 5, shoes anchor clamps 8 are provided with artificial model pin 9 towards test platform 5 faces, and shoes anchor clamps 8 are positioned at support 7 middle parts, shoes anchor clamps 8 link to each other with support 7 by the adjusting handle 14 of both sides, put on the product shoes of test block when artificial model pin 9 after, the product shoes of test block is positioned at the top of different test surfaces 6 friction plates, and support 7 tops connect cylinder 10, the other end of cylinder 10 connects load measuring gauge 13, load measuring gauge 13 is electrically connected display screen 15, and support 7 bottom end connect strength sensor 12, and strength sensor 12 is electrically connected display screen 15, the side of support 7 is provided with gear train, and gear train connects test platform 5.

Gear train comprises motor 1, clutch coupling 2, synchronous pulley 3, is with 4 synchronously, the side of support 7 is provided with motor 1, motor 1 connects clutch coupling 2, clutch coupling 2 synchronous pulley 3 that is in transmission connection, synchronous pulley 3 transmissions are with 4 synchronously, be positioned at the end of support 7 connection strength sensor 12 synchronously with 4 the other end, be with 4 to be provided with stator synchronously, be with 4 synchronously by stator connection test platform 5, be provided with below test platform 5 both sides with synchronously with 4 parallel slide rails, the slide block that test platform 5 is provided with below is positioned at slide rail; Be provided with horizontal adjusting mechanism 11 below the test platform 5, the end of horizontal adjusting mechanism 11 connects bit block 16 by linkage, and the bit block 16 of horizontal adjusting mechanism 11 is positioned at alignment grooves 17.

During use, earlier the horizontal shank of horizontal adjusting mechanism 11 is transferred to the installation position, this moment, the bit block 16 of horizontal adjusting mechanism 11 entered in the alignment grooves 17, give cylinder 10 the next pressure again, make cylinder 10 promote support 7 and move down on the horizontal adjusting mechanism 11, make the cross bar on the support 7 be adjusted to horizontality; Be provided with test platform 5 below the support 7, test platform 5 can only move forward and backward, support 7 can only move up and down, the friction plate of different test surfaces 6 is housed on the test platform 5, be provided with shoes anchor clamps 8 above the test platform 5, pass through fixedly shoes anchor clamps 8 of adjusting handle 14 to suit test block (product shoes) on the artificial model pin 9 of shoes anchor clamps 8 this moment on support 7, make test block (product shoes) meet the requirements of test position (difference requires parameter that different test angle is arranged); At this moment cylinder 10 returns rise, and recall to the test position that support 7 rises to peak, and the reset locking horizontal adjusting mechanism 11 again, and the bit block 16 of horizontal adjusting mechanism 11 withdraws from alignment grooves 17; Begin test after setting test parameter, start test software programs, start cylinder 10 and be depressed into set pressure (after the pressure stability), this moment, motor 1 drove synchronous pulley 3 rotations by clutch coupling 2, make 3 moments of synchronous pulley reach setting speed (industry standard predetermined parameter), drive test platforms 5 with 4 synchronously and fix the friction plate displacement of the different test surfaces 6 on it, test platform 5 moves along sliding-rail sliding; At this moment, the load measuring gauge that links to each other with cylinder 10 13 induction pressure at right angle data on the cylinder 10, the strength sensor 12 of support 7 rear ends is sensed the frictional force data of test block and test surfaces 6, by the analysis of software to pressure and friction force, obtain the friction factor of test block, result data shows on display screen 15.Test platform 5 can slide on slide rail, respectively there is a photoelectric sensor switch test platform 5 front and back ends, the photoelectric sensor switch purpose of initiating terminal is that the control test starting is effective, promptly having only this photoelectric sensor switch to be in the sense state test could begin, and terminal photoelectric sensor switch is the test stroke of control test platform 5; Horizontal adjusting mechanism 11 (making test platform 5 levels), load measuring gauge 13 induction pressure at right angles, strength sensor 12 induction friction power, the product shoes bottom-friction factor of acquisition test block.

Above illustrated embodiment is only with for conveniently illustrating the utility model, it only is the preferred embodiment of the utility model, be not that the utility model is done to implement any pro forma restriction, have in the technical field under any and know the knowledgeable usually, if in the scope that does not break away from technical characterictic that the utility model is carried, utilize technology contents that the utility model discloses to make the impartial equivalent embodiment that changes or modify of local change, and do not break away from technical characterictic content of the present utility model, all still belong in the covering scope of the utility model technical characterictic.

Claims (3)

1. one kind becomes footwear on-slip testing machine, include: support (7), it is characterized in that: be provided with test platform (5) below the described support (7), test platform (5) surface layer is provided with test surfaces (6), be provided with shoes anchor clamps (8) above the test platform (5), shoes anchor clamps (8) link to each other with support (7) by the adjusting handle (14) of both sides, support (7) top connects cylinder (10), the other end of cylinder (10) connects load measuring gauge (13), support (7) bottom end connects strength sensor (12), the centre of support (7) is provided with gear train, and gear train connects test platform (5).

2. one-tenth footwear on-slip testing machine according to claim 1, it is characterized in that: described shoes anchor clamps (8) are provided with artificial model pin (9) towards test platform (5) face, shoes anchor clamps (8) are positioned at support (7) middle part, described gear train comprises motor (1), clutch coupling (2), synchronous pulley (3), be with synchronously (4), motor (1) connects clutch coupling (2), clutch coupling (2) synchronous pulley (3) that is in transmission connection, (4) are with in synchronous pulley (3) transmission synchronously, the other end of band (4) is positioned at the end that support (7) connects strength sensor (12) synchronously, band (4) is provided with stator synchronously, and band (4) connects test platform (5) by stator synchronously.

3. one-tenth footwear on-slip testing machine according to claim 1, it is characterized in that: described load measuring gauge (13) is electrically connected display screen (15), strength sensor (12) is electrically connected display screen (15), be provided with below test platform (5) both sides and synchronous band (4) parallel slide rail, the slide block that test platform (5) is provided with below is positioned at slide rail; Be provided with horizontal adjusting mechanism (11) below the test platform (5), the end of horizontal adjusting mechanism (11) connects bit block (16) by linkage, and the bit block (16) of horizontal adjusting mechanism (11) is positioned at alignment grooves (17).

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