CN201622235U - Skid-proof performance detection device - Google Patents
Skid-proof performance detection device Download PDFInfo
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- CN201622235U CN201622235U CN2010201318324U CN201020131832U CN201622235U CN 201622235 U CN201622235 U CN 201622235U CN 2010201318324 U CN2010201318324 U CN 2010201318324U CN 201020131832 U CN201020131832 U CN 201020131832U CN 201622235 U CN201622235 U CN 201622235U
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Abstract
The utility model discloses a skid-proof performance detection device which is used for detecting the skid-proof performance of shoes. The device comprises a shoe fixing component (25), a frictional panel (23) under the shoe fixing component (25) and a backward and forward sliding pair (22), wherein the frictional panel (23) is arranged on one of the two of the backward and forward sliding pair (22) and can optionally slide opposite to the other. The device is characterized by further comprising an up-down slide way (211) and an up-down slide block (212); and one of the up-down slide way (211) and the up-down slide block (212) is fixed to the shoe fixing component (25), while the other one is fixed to a machine bracket of the skid-proof performance detection device. The skid-proof performance detection device can more accurately simulate the contact condition of the sole and the ground in an actual motion process, in particular to rapid motion, so as to improve the accuracy for the detection of the skid-proof performance of the sole.
Description
Technical field
The utility model relates to footwear Performance Detection field, particularly relates to a kind of detection device for non-skid property that is used to detect the non-skid property of shoes.
Background technology
Along with the development of building industry, building ground is more and more high-grade, but most problem of having ignored ground on-slip, the number that makes sliding accident of falling tumble injury take place is more and more, and therefore, the non-skid property of sole more and more is subjected to people's attention.In addition, in professional sport footwear field, how to improve the sportsman in the dramatic match process, foot improves sports achievement to the ground ability of grabbing on ground, prevents the generation of injury gained in sports, is a vital problem.Meanwhile, the non-skid property of sole also affects comfortableness and the security of shoes when wearing.For this reason, the non-skid property that how to detect footwear becomes more and more important.
Understand for convenient, at first the related technical term of shoe soles slip stopping aspect of performance done and introduced:
Footwear non-skid property: be divided into dynamic non-skid property, static non-skid property; The size of common kinetic friction coefficient with sole and road surface, coefficient of static friction or dynamically critical angle is represented.
Dynamic non-skid property: be meant the on-slip ability that an object is embodied when sliding with certain speed on surface level, represent with kinetic friction coefficient.
Static non-skid property: be meant the on-slip ability that is embodied when object that an object remains static is moved on surface level, represent with coefficient of static friction.
Slip critical angle: be to instigate to be positioned over an object on the smooth ramp needed angle when take place sliding.
Footwear are non-skid property at a high speed dynamically: footwear do on the ground that high speed rotating moves or when sliding, the non-skid property that shows is a kind of of dynamic non-skid property.
The footwear detection device for non-skid property: thus friction factor by the specimen footwear or slip critical angle quantize a kind of equipment of the non-skid property of footwear.
Please refer to Fig. 1 and Fig. 2, Fig. 1 is the structural representation of first kind of typical footwear detection device for non-skid property in the prior art; Fig. 2 is the device synoptic diagram of second kind of typical footwear detection device for non-skid property in the prior art.
As shown in Figure 1, first kind of footwear detection device for non-skid property of the prior art comprises control panel 11, friction panel 14 and is positioned over the specimen holder 13 of friction on the panel 14 and the pull lever 12 of pulling specimen holder 13, when the non-skid property of sole is tested, at first on sole, take off a sample as requested, and by specimen holder 13 clampings, and pull lever 12 pullings that drive by power part, the acting force of record sample when moving, and calculate the friction factor of tested sample according to the suffered acting force of sample perpendicular to friction panel 14.
As shown in Figure 2, second kind of footwear detection device for non-skid property of the prior art comprises friction plate 17 and the anchor clamps 15 that are obliquely installed, in the process of the test, at first clamp tested sample 16 by anchor clamps 15, apply fixation power along the direction shown in the arrow A then, visual observations is passed through at the angle of inclination that changes anchor clamps 15, angle when record tested sample 16 takes place to slide between anchor clamps 15 and the ground, be the slip critical angle of tested sample 16, perhaps apply the acting force of continuous variation along the arrow A direction, observe tested sample 16 and whether slide, the acting force when record slides.
As can be seen, above-mentioned two kinds of footwear detection device for non-skid property can only be tested the sole sample, can't test the anti-slip effect of the whole decorative pattern of sole.
Please refer to Fig. 3, Fig. 3 is the device synoptic diagram of the third typical footwear detection device for non-skid property in the prior art.
As shown in Figure 3, the third footwear detection device for non-skid property comprises can be along the friction panel 19 of the slip of direction shown in the arrow B, in the process of the test, shoes 18 are installed on the support (not shown) of proving installation, adjust angle, and shoes 18 are contacted with friction panel 19, apply with fixation power along arrow A then, drawing friction panel 19 slides testing friction power value, and then the non-skid property of definite shoes 18.
Above-mentioned footwear detection device for non-skid property can detect the non-skid property of the integral body of shoes, but because friction panel 19 can only unidirectionally move, can not simulate in the actual motion process, especially, the complex situations that contact on sole and ground in motion rapidly, thus caused testing result can be relatively poor with reference to property.
Therefore, how to simulate more accurately in the actual motion process, the situation that contacts on sole and ground, the accuracy that improves the shoe soles slip stopping Performance Detection is the present technical issues that need to address of those skilled in the art.
The utility model content
The purpose of this utility model provides a kind of detection device for non-skid property, and this detection device for non-skid property can be simulated in the actual motion process more accurately, and the situation that contacts on sole and ground improves the accuracy to the shoe soles slip stopping Performance Detection.
For solving the problems of the technologies described above, the utility model provides a kind of detection device for non-skid property, be used to detect the non-skid property of shoes, comprise the shoes fixed part, be positioned at the friction panel and the front and back sliding pair of described shoes fixed part below, described friction panel is installed on described front and back sliding pair one in the two, and selectively slide with respect to another person, also comprise up and down slideway and slide block up and down, in the two one is fixed in described shoes fixed part, and another person is fixed in the machine rack of described detection device for non-skid property.
Preferably, also comprise left and right sides slideway and left and right sides slide block, one in the two is installed on described front and back sliding pair, and another person is fixed in described machine rack.
Preferably, also comprise the rotary power parts, the output shaft of described rotary power parts is connected with the upper end of described shoes fixed part.
Preferably, also comprise gear assembly, described output shaft is connected with described shoes fixed part by described gear assembly.
Preferably, described gear assembly comprises first gear that is connected with described output shaft, and second gear that is connected with described shoes fixed part, and described first gear and described second gear are meshing with each other.
Preferably, also comprise the angular adjustment parts, be used to regulate the angle between described shoes fixed part and the described friction panel.
Preferably, described angular adjustment parts comprise top board, offer lower platen, the thread spindle of first through hole and the nut that matches with described thread spindle; The upper end of described thread spindle and described top board are hinged, and its lower end is passed described first through hole described nut is installed, and described lower platen is by described nut support.
Preferably, also comprise the rotation back shaft, described rotation back shaft is installed in described first through hole, its two ends are rotatably supported by the sidewall of described first through hole, the middle part of described rotation back shaft offers second through hole along the direction perpendicular to its axis, the lower end of described thread spindle is passed described second through hole described nut is installed, and described nut supports described lower platen by supporting described rotation back shaft.
Preferably, described rotation back shaft also offers third through-hole, the dead in line of the axis of described third through-hole and described rotation back shaft.
Preferably, the number of described first through hole is at least two, and is opened in described lower platen equably.
Preferably, the upper end of described thread spindle is fixed with location-plate, and is set with spring on the thread spindle between described top board and the described lower platen.
Preferably, described shoes fixed part has the structure identical substantially with people's foot.
The detection device for non-skid property that is used to detect the non-skid property of shoes provided by the utility model, comprise the shoes fixed part, be positioned at the friction panel and the front and back sliding pair of shoes fixed part below, sliding pair one in the two before and after the friction panel is installed on, and selectively slide with respect to another person, also comprise up and down slideway and slide block up and down, in the two one is fixed in the shoes fixed part, and another person is fixed in the machine rack of detection device for non-skid property.When detecting, at first tested shoes are fixed in the shoes fixed part, start detection device for non-skid property then, the friction panel is seesawed with the speed of setting under the effect of the power part of front and back sliding pair, simultaneously, the shoes fixed part is under the effect of the power part that moves up and down, driving tested shoes moves along up and down slideway with predetermined speed, make shoes rush at the friction panel with certain speed, and travel forward with respect to the friction panel simultaneously, thereby simulated the motion state of shoes under normal operating position more accurately, comprise in the plane rubbing action and in the percussive action of vertical direction, and shoes are moved with respect to the friction panel with higher speed, thereby can be more accurate simulation suffered motive power of shoes when running, improved accuracy greatly to the detection of shoes non-skid property.
In a kind of preferred implementation, detection device for non-skid property provided by the utility model also comprises left and right sides slideway and left and right sides slide block, sliding pair before and after one in the two is installed on, and another person is fixed in machine rack.Like this, not only can simulate the motion state that shoes fore-and-aft direction and above-below direction combine, and simulated human body horizontal motion state of shoes when mobile in motion process, thereby can simulate shoes suffered acting force when all directions are moved more accurately, detect the non-skid property of shoes more accurately.
In another kind of preferred implementation, detection device for non-skid property provided by the utility model also comprises the rotary power parts, and the output shaft of rotary power parts is connected with the upper end of shoes fixed part.Like this, in testing process, shoes not only can the direction all around in surface level move, in spatial dimension, move up and down, and can in surface level, rotate, thereby can simulate shoes more easily and wear rotatablely moving under the state, the zig zag under the high-speed motion situation particularly, more convenient, detected the non-skid property of shoes when turning to exactly.
In another kind of preferred implementation, detection device for non-skid property provided by the utility model also comprises the angular adjustment parts that are used to regulate the angle between described shoes fixed part and the described friction panel.Because in the motion process, shoes generally are the states that lands through the sole that landed by heel, the people also is easy to fall under this state; In addition, swerve, fast in the motion process such as race, the ground ability of grabbing of foot half sole has determined athletic athletic performance.Therefore, under the situation that the part-structure of sole lands, it is particularly important that the non-skid property of shoes also seems.By the inclination angle of angular adjustment shoes fixed part, and then change the inclination angle of shoes, can detect the non-skid property of shoes when tilting, thus further improved testing result can be with reference to property.
Description of drawings
Fig. 1 is the structural representation of first kind of typical footwear detection device for non-skid property in the prior art;
Fig. 2 is the device synoptic diagram of second kind of typical footwear detection device for non-skid property in the prior art;
Fig. 3 is the device synoptic diagram of the third typical footwear detection device for non-skid property in the prior art;
Fig. 4 is the perspective view of a kind of embodiment of detection device for non-skid property provided by the utility model;
Fig. 5 is an A enlarged diagram partly shown in Figure 4;
Fig. 6 is the perspective view of a kind of embodiment of gear assembly of detection device for non-skid property provided by the utility model;
Fig. 7 looks synoptic diagram for the assembling master of thread spindle, nut and the rotation back shaft of detection device for non-skid property provided by the utility model;
Fig. 8 is the assembling schematic side view of thread spindle, nut and the rotation back shaft of detection device for non-skid property provided by the utility model;
Fig. 9 is the schematic side view of first kind of embodiment of the rotation back shaft of detection device for non-skid property provided by the utility model;
Figure 10 is the schematic side view of second kind of embodiment of the rotation back shaft of detection device for non-skid property provided by the utility model.
Embodiment
Core of the present utility model provides a kind of detection device for non-skid property, and this detection device for non-skid property can be simulated in the actual motion process more accurately, and the situation that contacts on sole and ground improves the accuracy to the shoe soles slip stopping Performance Detection.
In order to make those skilled in the art person understand the utility model scheme better, the utility model is described in further detail below in conjunction with the drawings and specific embodiments.
Please refer to Fig. 4 and Fig. 5, Fig. 4 is the perspective view of a kind of embodiment of detection device for non-skid property provided by the utility model; Fig. 5 is an A enlarged diagram partly shown in Figure 4.
In a kind of embodiment, the detection device for non-skid property that is used to detect the non-skid property of shoes provided by the utility model, comprise shoes fixed part 25, be positioned at the friction panel 23 and the front and back sliding pair 22 of shoes fixed part 25 belows, the front and back slideway 222 of sliding pair 22 and front and back slide block 221 one in the two before and after friction panel 23 is installed on, and selectively slide with respect to another person, also comprise by up and down slideway 211 and up and down slide block 212 form slide up and down secondary 21, in the two one fixedlyed connected with shoes fixed part 25, and another person is fixedlyed connected with the machine rack of detection device for non-skid property.
Particularly, above-mentioned friction panel 23 can be changed as required, to satisfy on different road surfaces detection, timber floor formula friction panel, cement flooring formula friction panel, ceramic tile formula friction panel and artificial turf formula friction panel etc. can be arranged mainly for the non-skid property of tested shoes.
During detection, at first tested shoes are fixed in detection device for non-skid property by shoes fixed part 25, start the power part of detection device for non-skid property then, make friction panel 23 on the one hand under the effect of the seesaw power part and the pair 22 that seesaws, fore-and-aft direction along shoes moves, on the other hand, make shoes fixed part 25 together with tested shoes under the effect of the power part that moves up and down, secondary 21 guide to such an extent that direction is moved along moving up and down, thereby when having realized that shoes rush at friction panel 23 with certain speed, move upward in its front and back with respect to friction panel 23.
As can be seen, above-mentioned detection device for non-skid property not only can be simulated the rectilinear motion of shoes at its fore-and-aft direction, and can simulate that pin lifts and when landing with the situation that contacts on ground and above-mentioned two kinds of motions in conjunction with the motion under the situation, thereby simulated the motion state of shoes under normal operating position more accurately, thereby can be more accurate simulation suffered motive power of shoes when running, improved accuracy greatly to the detection of shoes non-skid property.
Certainly, for convenience tested shoes is fixing, and distortion when preventing simultaneously that shoes from rushing at friction panel 23 under the effect of power part up and down improves the accuracy of testing result, can make shoes fixed part 25 have the shape of similar people's pin.
Simultaneously, for convenience to the control of the movement velocity of shoes fixed part 25 and friction panel 23, detection device for non-skid property provided by the utility model can also comprise a control module, be used to import various test condition values, and control the movement velocity of each power part, to satisfy the needs of various tests.
As shown in Figure 2, detection device for non-skid property provided by the utility model can also comprise the pair of being made up of left and right sides slideway 271 and left and right sides slide block 272 27 that horizontally slips, sliding pair 22 before and after one in the two is installed on, and another person is fixed in machine rack.
Certainly, horizontally slip secondary 27 and the installation site of front and back sliding pair 22 also can change, secondary 27 be connected even horizontally slip, and then one in the front and back sliding pair 22 be installed on the pair 27 that horizontally slips with the friction panel, its concrete mounting means is not subjected to the restriction of this paper.
Like this, when the non-skid property to shoes detects, not only can simulate the motion state that shoes fore-and-aft direction and above-below direction combine, and human body horizontal motion state and above-mentioned three kinds of motion states that motion combines of shoes when mobile in motion process have been simulated, thereby can simulate shoes suffered acting force when all directions are moved more accurately, detect the non-skid property of shoes more accurately.
Please in conjunction with Fig. 4 with reference to figure 6, Fig. 6 is the perspective view of a kind of embodiment of gear assembly of detection device for non-skid property provided by the utility model.
In another kind of embodiment, detection device for non-skid property provided by the utility model can also comprise rotary power parts 24, and the output shaft 241 of rotary power parts 24 is connected with the upper end of shoes fixed part 25.
Like this, in testing process, shoes not only can the direction all around in surface level move, in spatial dimension, move up and down, and can in surface level, rotate, thereby can simulate shoes more easily and wear rotatablely moving under the state, the zig zag under the high-speed motion situation particularly, thus detected the non-skid property of shoes when turning to more accurately.
Particularly, as shown in Figure 6, rotary power parts 24 can be connected by the upper end of gear assembly with shoes fixed part 25, and the output shaft 241 of rotary power parts 24 is connected with gear assembly.
Like this, not only can make things convenient for being connected of rotary power parts 24 and shoes fixed part 25, but also can change the rotating speed of shoes fixed part 25 by gear assembly, thereby improved the velocity of rotation of tested shoes, improve the non-skid property under a plurality of speed of tested shoes when turning to, further improved the accuracy of simulate effect and testing result.
Certainly, gear assembly can specifically comprise first gear 261 that is connected with output shaft 241, and second gear, 262, the first gears 261 and second gear 262 that are connected with shoes fixed part 25 are meshing with each other.
The transmittance process of rotational power is specifically as follows output shaft 241 power is passed to turning axle 2621 by intermeshing first gear 261 and second gear 262, turning axle 2621 with transmission of power to shoes fixed part 25.Certainly, not that above-mentioned transmittance process also is fine, such as turning axle 2621 is connected with shoes fixed part 25.
As shown in Figure 4 and Figure 5, in another kind of preferred implementation, detection device for non-skid property provided by the utility model can also comprise the angular adjustment parts that are used to regulate the angle between shoes fixed part 25 and the friction panel 23.Particularly, an end of angular adjustment parts can be connected with gear assembly, and the other end is connected with shoes fixed part 25.Like this, the power of rotary power parts 24 just can be passed to shoes fixed part 25 through the angular adjustment parts.
Because in the motion process, shoes generally are the states that lands through the sole that landed by heel, the people also is easy to fall under this state; In addition, swerve, fast in the motion process such as race, the ground ability of grabbing of foot half sole has determined athletic athletic performance.Therefore, under the situation that the part-structure of sole lands, it is particularly important that the non-skid property of shoes also seems.By the inclination angle of angular adjustment shoes fixed part, and then change the inclination angle of shoes, can detect the non-skid property of shoes when tilting, thus further improved testing result can be with reference to property.
Particularly, the angular adjustment parts can comprise top board 281, offer lower platen 282, the thread spindle 283 of first through hole and the nut 29 that matches with thread spindle 283; The upper end of thread spindle 283 and top board 281 are hinged, and its lower end is passed first through hole nut 29 is installed, and lower platen 282 is supported by nut 29.
Like this, when needs carry out the angle of inclination of tested shoes, only need the nut 29 of rotation diverse location just can realize easily, reduced the complexity of process of the test.
First through hole can be opened in the middle part of lower platen 282, also can be opened in its edge, even lacks a certain side of first through hole, thereby forms groove.When preventing the position change when nut 29, thread spindle 283 interferes with lower platen 282, can make first through hole have pyramidal structure, but this moment, the size of nut 29 should satisfy can support lower platen.
Certainly, in order to reduce dimensional requirement to nut 29, simultaneously, reduce of the restriction of first through hole for the range of movement of nut 29, detection device for non-skid property provided by the utility model can also comprise rotation back shaft 284, rotation back shaft 284 is installed in first through hole, its two ends are rotatably supported by the sidewall of first through hole, the middle part of rotation back shaft 284 offers second through hole 2842 (being shown among Fig. 9 and Figure 10) along the direction perpendicular to its axis, the lower end of thread spindle 282 is passed second through hole 2842 nut 29 is installed, and nut 29 supports lower platen by supporting rotation back shaft 284.
Please refer to Fig. 7 to Figure 10, Fig. 7 looks synoptic diagram for the assembling master of thread spindle, nut and the rotation back shaft of detection device for non-skid property provided by the utility model; Fig. 8 is the assembling schematic side view of thread spindle, nut and the rotation back shaft of detection device for non-skid property provided by the utility model; Fig. 9 is the schematic side view of first kind of embodiment of the rotation back shaft of detection device for non-skid property provided by the utility model; Figure 10 is the schematic side view of second kind of embodiment of the rotation back shaft of detection device for non-skid property provided by the utility model.
Particularly, as Fig. 8 and shown in Figure 9, rotation back shaft 284 can also offer third through-hole 2841, the axis of third through-hole 2841 and the dead in line of rotating back shaft 284.Certainly, coincidence as herein described is meant the coincidence under the conditions that does not overlap that reason caused such as not considering error, and is not to be to overlap utterly.
As Fig. 5 and shown in Figure 10, when first through hole is groove 2822, rotation back shaft 284 is installed in the groove 2822, its two ends are supported by the through hole of the correspondence position that is opened in lower platen 282, just can easily rotation back shaft 284 rotatably be supported in the sidewall of groove 2822, and with thread spindle 283 pass the rotation back shaft 284 second through hole 2842, satisfy functional requirement.
Certainly, for the change at the inclination angle that guarantees shoes fixed part 25, guarantee simultaneously to change later stability, the number of first through hole can be at least two, and is opened in lower platen 282 equably.
Because human body is in motion process, when pin contacts with ground, have certain buffer action, therefore, in order to simulate the duty of tested shoes more accurately, can also be on the thread spindle 283 between top board 281 and the lower platen 282 pocketed springs 31, simultaneously, in order to limit the position of spring 31 better, can also be at the upper end of thread spindle 283 stationary positioned plate 2831.Certainly, can change the spring of different elasticity coefficient according to practical requirements, with the buffer action of more accurate simulation human synovial.
More than detection device for non-skid property provided by the utility model is described in detail.Used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present utility model and core concept thereof.Should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection domain of the utility model claim.
Claims (12)
1. detection device for non-skid property, be used to detect the non-skid property of shoes, comprise shoes fixed part (25), be positioned at the friction panel (23) and the front and back sliding pair (22) of described shoes fixed part (25) below, described friction panel (23) is installed on described front and back sliding pairs (22) one in the two, and selectively slide with respect to another person, it is characterized in that, also comprise up and down slideway (211) and slide block (212) up and down, in the two one is fixed in described shoes fixed part (25), and another person is fixed in the machine rack of described detection device for non-skid property.
2. detection device for non-skid property according to claim 1 is characterized in that, also comprises left and right sides slideway (271) and left and right sides slide block (272), and one in the two is installed on described front and back sliding pairs (22), and another person is fixed in described machine rack.
3. detection device for non-skid property according to claim 1 and 2 is characterized in that, also comprises rotary power parts (24), and the output shaft (241) of described rotary power parts (24) is connected with the upper end of described shoes fixed part (25).
4. detection device for non-skid property according to claim 3 is characterized in that, also comprises gear assembly, and described output shaft (241) is connected with described shoes fixed part (25) by described gear assembly.
5. detection device for non-skid property according to claim 4, it is characterized in that, described gear assembly comprises first gear (261) that is connected with described output shaft (241), and second gear (262) that is connected with described shoes fixed part (25), described first gear (261) and described second gear (262) are meshing with each other.
6. detection device for non-skid property according to claim 3 is characterized in that, also comprises the angular adjustment parts, is used to regulate the angle between described shoes fixed part (25) and the described friction panel (23).
7. detection device for non-skid property according to claim 6, it is characterized in that described angular adjustment parts comprise top board (281), offer the lower platen (282) of first through hole, thread spindle (283) and the nut (29) that matches with described thread spindle (283); The upper end of described thread spindle (283) and described top board (281) are hinged, and its lower end is passed described first through hole described nut (29) is installed, and described lower platen (282) is supported by described nut (29).
8. detection device for non-skid property according to claim 7, it is characterized in that, also comprise rotation back shaft (284), described rotation back shaft (284) is installed in described first through hole, its two ends are rotatably supported by the sidewall of described first through hole, the middle part of described rotation back shaft (284) offers second through hole along the direction perpendicular to its axis, the lower end of described thread spindle (283) is passed described second through hole described nut (29) is installed, and described nut (29) supports described lower platen by supporting described rotation back shaft (284).
9. detection device for non-skid property according to claim 8 is characterized in that, described rotation back shaft (284) also offers third through-hole (2841), the dead in line of the axis of described third through-hole (2841) and described rotation back shaft (284).
10. detection device for non-skid property according to claim 7 is characterized in that the number of described first through hole is at least two, and is opened in described lower platen (282) equably.
11. detection device for non-skid property according to claim 7, it is characterized in that, the upper end of described thread spindle (283) is fixed with location-plate (2831), and is set with spring (31) on the thread spindle (283) between described top board (281) and the described lower platen (282).
12. detection device for non-skid property according to claim 1 is characterized in that, described shoes fixed part (25) has the structure identical substantially with people's foot.
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CN2010201318324U CN201622235U (en) | 2010-02-25 | 2010-02-25 | Skid-proof performance detection device |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101793670A (en) * | 2010-02-25 | 2010-08-04 | 安踏(中国)有限公司 | Detection device for non-skid property |
CN106568707A (en) * | 2016-10-13 | 2017-04-19 | 高铁检测仪器(东莞)有限公司 | Rollerskate non-skid testing machine |
CN107136650A (en) * | 2017-07-11 | 2017-09-08 | 李政 | A kind of climbing boot or Labor protection shoes detection means |
CN108613923A (en) * | 2018-05-10 | 2018-10-02 | 重庆红火鸟鞋业有限公司 | Shoe soles slip stopping performance tester |
US20210381951A1 (en) * | 2020-02-26 | 2021-12-09 | University Of Tennessee Research Foundation | Surface performance testing apparatus, systems and methods |
-
2010
- 2010-02-25 CN CN2010201318324U patent/CN201622235U/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101793670A (en) * | 2010-02-25 | 2010-08-04 | 安踏(中国)有限公司 | Detection device for non-skid property |
CN106568707A (en) * | 2016-10-13 | 2017-04-19 | 高铁检测仪器(东莞)有限公司 | Rollerskate non-skid testing machine |
CN107136650A (en) * | 2017-07-11 | 2017-09-08 | 李政 | A kind of climbing boot or Labor protection shoes detection means |
CN107136650B (en) * | 2017-07-11 | 2019-08-23 | 李政 | A kind of climbing boot or Labor protection shoes detection device |
CN108613923A (en) * | 2018-05-10 | 2018-10-02 | 重庆红火鸟鞋业有限公司 | Shoe soles slip stopping performance tester |
CN108613923B (en) * | 2018-05-10 | 2020-07-14 | 重庆红火鸟鞋业有限公司 | Tester for anti-slip performance of sole |
US20210381951A1 (en) * | 2020-02-26 | 2021-12-09 | University Of Tennessee Research Foundation | Surface performance testing apparatus, systems and methods |
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