CN102302249A - Tester for testing surface frictional property of shoe lining and insole - Google Patents
Tester for testing surface frictional property of shoe lining and insole Download PDFInfo
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- CN102302249A CN102302249A CN201110209650A CN201110209650A CN102302249A CN 102302249 A CN102302249 A CN 102302249A CN 201110209650 A CN201110209650 A CN 201110209650A CN 201110209650 A CN201110209650 A CN 201110209650A CN 102302249 A CN102302249 A CN 102302249A
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Abstract
The invention discloses a tester for testing surface frictional property of a shoe lining and an insole. The tester comprises a testing platform, a base, a horizontal transmission mechanism and a lifting mechanism, wherein the testing platform is hinged on the base; a first test piece seat, a second test piece seat and a third test piece seat which are movable are sequentially arranged on the testing platform; an inching switch, a scroll control device and a photoelectric switch are arranged at the tail end of the testing platform; a level meter is arranged at the part where the base is hinged with the testing platform; and a force sensor and a range sensor are arranged on the horizontal transmission mechanism. According to the tester disclosed by the invention, the frictional properties such as frictional coefficients, surface resistance dynamic angles, surface resistance static angles and the like of the shoe lining and the insole can be detected on the same tester by arranging a plurality of movable test piece seats on the testing platform and the horizontal transmission mechanism and the lifting mechanism on the base; and meanwhile, by adopting the method for testing surface frictional property of the shoe lining and the insole provided by the invention, the process is simple, and the inspection cost is saved.
Description
Technical field
The present invention relates to a kind of footwear test instrument, especially relate to a kind of detection footwear lining and interior pad mantle friction performance test instrument and method of testing.
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; Require anti-as far as possible sliding stop, the region of interest of manufacturer also can go to select some frictional behaviours as far as possible for consumer's needs comparatively suitable material makes footwear.According to ISO22653-2003 standard and EN12826:2000, footwear should carry out lining and reach interior pad coefficient of friction, skin resistance dynamic angle, the check of skin resistance static angular.
At present, we common to be used for the footwear lining and in the test instrument of pad coefficient of friction, skin resistance dynamic angle, skin resistance static angular all be the single relevant frictional behaviour of check footwear.Notification number is that CN201091276Y and CN201091277Y have described a kind of test instrument and a kind of test instrument of checking footwear lining and interior pad skin resistance static angular of checking footwear lining and interior pad skin resistance dynamic angle respectively; Though above-mentioned patent is simple in structure; But test instrument function singleness; The relevant frictional behaviour of test footwear will be checked on different test instruments; Process is loaded down with trivial details, increases examination and test of products cost.
Summary of the invention
The objective of the invention is to overcome deficiency of the prior art, a kind of detection footwear lining and interior pad mantle friction performance test instrument and method of testing of saving inspection cost is provided.
For reaching above-mentioned purpose; A kind of footwear lining of the present invention and interior pad mantle friction performance test instrument; Comprise test platform; Base; Horizontal transmission mechanism and hoisting mechanism; Said test platform front end is articulated in said base middle part; From the tail end to the front end, be disposed with mobilizable first test specimen seat on the said test platform; The second test specimen seat and the 3rd test specimen seat; Said test platform tail end is provided with microswitch near the said first test specimen seat place; Said test platform both sides are provided with the rolling control device near the said second test specimen seat place; Said test platform one side is provided with optoelectronic switch from the said second test specimen seat parallel distance 200mm place; Be provided with level meter with said test platform hinged place on the said base; Said horizontal transmission mechanism is arranged at base one end, and said horizontal transmission mechanism is provided with strength sensor and range sensor.
Further, the said first test specimen seat and the second test specimen seat are similar sample loading bin.
Further, said rolling control device is provided with electromagnet block, pole and retainer, and said pole and retainer are arranged on the electromagnet block.
Further, said the 3rd test specimen seat comprises two fixed legs and a traction slide plate, and said fixed leg both sides use the screw snap close respectively on said test platform, and said traction slide plate is arranged between the said fixed leg, and said traction nose is equipped with the sample drag hook.
Further, said horizontal transmission mechanism is provided with first motor, screw rod and first pull rope, and said first pull rope, one end is connected with said sample drag hook, and the said first pull rope other end is driven by said screw rod, and said screw rod is connecting synchronous pulley; The described synchronous pulley that is connected on the screw rod is connected with synchronous pulley on the motor.
Further; Said hoisting mechanism comprises support, second motor, assembly pulley and second pull rope; Said support is arranged at said test platform top; Said second motor and assembly pulley are immobilizated on the said support; Said second pull rope, one end is fixedly connected with said test panel afterbody, and the said pull rope other end is driven by said second motor through said assembly pulley.
The method of testing step of footwear lining of the present invention and interior pad mantle friction performance test instrument is following:
1., with the test instrument horizontal positioned, test platform is adjusted to horizontal level, cuts the sample of standard-required size, sample is wrapped on the traction slide plate of the 3rd test specimen seat;
2., start horizontal transmission mechanism; First motor drove synchronous pulley and rotated this moment, made synchronous pulley moment reach setting speed, and synchronous pulley drives screw rod and rotates; Screw rod drives first pull rope, and first pull rope spurs the 3rd test specimen seat horizontal slip on test platform;
3., the frictional force data between strength sensor sensing the 3rd test specimen seat and test platform; The displacement that range sensor moves horizontally on test platform in order to sensing the 3rd test specimen seat; Through analysis, can obtain the confficient of static friction and the coefficient of kinetic friction of sample to frictional force and moving displacement;
4., with the 3rd test specimen seat removal from the test platform; The first test specimen seat that wraps up the sample of standard-required size is positioned on the test platform; Start the microswitch and second motor; Be fixed on the test platform tail end through an end, second pull rope that the other end is driven by second motor through Slide Group drives test platform and tilts;
5., slide along the test platform plane, microswitch cuts out, and second motor stops, and this moment, the test platform angle of inclination of level meter sensing was specimen surface resistance static angular when the inclination angle of inferring test platform can make the first test specimen seat of parcel sample;
6., test platform adjusts to horizontal level, and the second test specimen seat of the sample of parcel standard-required size is positioned on the test platform, opens the assigned address that the optoelectronic switch sensing second test specimen seat arrives, start second motor test platform tilted;
7., when tilting to certain angle; Close second motor and electromagnet; Pole rolls downwards under ramp effect; The second test specimen seat of bump parcel sample; Make second test specimen 200mm that on test platform, slides of parcel sample; Pole is stopped by retainer simultaneously, and this moment, the test platform angle of inclination of level meter sensing was specimen surface resistance dynamic angle.
In sum; Test instrument of the present invention is being through being provided with a plurality of mobilizable test specimen seats and horizontal transmission mechanism and hoisting mechanism being set on base on the test platform, can on same test instrument, detect the footwear lining and in fill up frictional behaviours such as coefficient of friction, skin resistance dynamic angle, skin resistance static angular; Method of testing process through footwear lining of the present invention and interior pad mantle friction performance is succinct simultaneously, has saved inspection cost.
Description of drawings
Fig. 1 is the structural representation of an embodiment of the present invention.
Fig. 2 is a side view of the present invention shown in Figure 1.
The specific embodiment
For further understanding characteristic of the present invention, technological means and the specific purposes that reached, function, the present invention is described in further detail below in conjunction with the accompanying drawing and the specific embodiment.
See also Fig. 1 and Fig. 2, footwear lining of the present invention and interior pad mantle friction performance test instrument comprise test platform 1, base 2, horizontal transmission mechanism 3 and hoisting mechanism 4.Said test platform 1 front end is articulated in said base 2 middle parts; From the tail end to the front end, be disposed with mobilizable first test specimen seat 11, the second test specimen seat 12 and the 3rd test specimen seat 13 on the said test platform 1; The said first test specimen seat 11 and the second test specimen seat 12 are similar sample loading bin, and said test platform 1 tail end is provided with microswitch 14 near the said first test specimen seat 11 places; Said test platform 1 both sides are provided with rolling control device 15 near the said second test specimen seat 12 places; Said rolling control device 15 is provided with electromagnet block 151, pole 152 and retainer 153; Said pole 152 and retainer 153 are arranged on the electromagnet block 151; The rolling motive force of pole 152 is the 3N motive force, and said test platform 1 front end one side is provided with the optoelectronic switch 16 that is used for the sensing second test specimen seat 12 processes from the said second test specimen seat 12 parallel distance 200mm places; Said the 3rd test specimen seat 13 comprises two fixed legs 131 and a traction slide plate 132; Said fixed leg 131 both sides use the screw snap close respectively on said test platform 1; Said traction slide plate 132 is arranged between the said fixed leg 131, and said traction slide plate 132 front ends are equipped with sample drag hook 133.
Be provided with the level meter 21 that is used for sensing test platform 1 angle of inclination with said test platform 1 hinged place on the said base 2.
Said horizontal transmission mechanism 3 is arranged at base 2 one ends; Said horizontal transmission mechanism 3 is provided with first motor 31, screw rod 32 and first pull rope (figure does not show); Said first pull rope, one end is connected with said sample drag hook 133; The said first pull rope other end is driven by said screw rod 32, and said screw rod 32 is connecting synchronous pulley 33; The described synchronous pulley 33 that is connected on the screw rod 32 is connected with synchronous pulley 33 on first motor 31.Said horizontal transmission mechanism 3 upper ends are provided with strength sensor 34 and range sensor 35 near the first pull rope place; Said strength sensor 34 is in order to the frictional force data of 1 of said the 3rd test specimen seat 13 of sensing and said test platform, the displacement that said range sensor 35 moves horizontally on said test platform 1 in order to said the 3rd test specimen seat 13 of sensing.
Said hoisting mechanism 4 comprises support 41, second motor 42, assembly pulley 43 and second pull rope 44; Said support 41 is arranged at said test platform 1 top; Said second motor 42 and assembly pulley 43 are immobilizated on the said support 41; Said second pull rope, 44 1 ends are fixedly connected with said test platform 1 afterbody, and said second pull rope, 44 other ends are driven by said second motor 42 through said assembly pulley 43.
The method of testing step of said footwear lining and interior pad mantle friction performance test instrument is following:
1., with the test instrument horizontal positioned, test platform 1 is adjusted to horizontal level, cuts the sample of standard-required size, sample is wrapped on the traction slide plate 132 of the 3rd test specimen seat 13;
2., start horizontal transmission mechanism 3; This moment first, motor 31 drove synchronous pulley 33 rotations; Make 33 moments of synchronous pulley reach setting speed (industry standard predetermined parameter); Synchronous pulley 33 drives screw rod 32 and rotates; Screw rod 32 drives first pull rope, and first pull rope spurs the 3rd test specimen seat 13 horizontal slip on test platform 1;
3., the frictional force data of 1 of strength sensor 34 sensings the 3rd test specimen seat 13 and test platform; The displacement that range sensor 35 moves horizontally on test platform 1 in order to sensing the 3rd test specimen seat 13; Through analysis, can obtain the confficient of static friction and the coefficient of kinetic friction of sample to frictional force and moving displacement;
4., with the 3rd test specimen seat 13 removal from the test platform 1; The first test specimen seat 11 that wraps up the sample of standard-required size is positioned on the test platform 1; The startup microswitch 14 and second motor 42 (speed 15 degree/min ± 2 degree/min); Be fixed on test platform 1 tail end through an end, second pull rope 44 that the other end is driven by second motor 42 through Slide Group 43 drives test platform 1 and tilts;
5., when making the first test specimen seat 11 of parcel sample, the inclination angle of inferring test platform 1 slides along test platform 1 plane; Microswitch 14 cuts out; Second motor 42 stops, and this moment, test platform 1 angle of inclination of level meter 21 sensings was specimen surface resistance static angular; As the first test specimen seat 11 that wraps up sample leans on self quality and momentum not to glide, and just continues to open second motor 42 and drives test platforms 1 and tilt, and can slide along test platform 1 plane up to the first test specimen seat 11 of parcel sample quality and the momentum by self;
6., test platform 1 is adjusted to horizontal level; The second test specimen seat 12 that wraps up the sample of standard-required size is positioned on the test platform 1; Open the assigned address that the optoelectronic switch 16 sensings second test specimen seat 12 arrives, start second motor 42 test platform 1 is tilted;
7., when tilting to certain angle; Close second motor 42 and electromagnet 151; Pole 152 rolls downwards under ramp effect; The second test specimen seat 12 of bump parcel sample; Make second test specimen 12 200mm that on test platform 1, slides of parcel sample; Pole 152 is stopped by retainer 153 simultaneously, and this moment, test platform 1 angle of inclination of level meter 21 sensings was specimen surface resistance dynamic angle; If the second test specimen seat 12 of parcel sample can not be under free skating on the test platform 1 the 200mm distance, above operation is repeated at the angle of inclination that will increase test platform 1, till the second test specimen seat 12 of parcel sample can be free to slide 200mm.
In sum; Test instrument of the present invention is being through being provided with a plurality of mobilizable test specimen seats and horizontal transmission mechanism 3 and hoisting mechanism 4 being set on base 2 on the test platform 1, can on same test instrument, detect the footwear lining and in fill up frictional behaviours such as coefficient of friction, skin resistance dynamic angle, skin resistance static angular; Method of testing process through footwear lining of the present invention and interior pad mantle friction performance is succinct simultaneously, has saved inspection cost.
The above embodiment has only expressed one embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as limitation of the scope of the invention.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the present invention's design, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with accompanying claims.
Claims (7)
1. a footwear lining and interior pad mantle friction performance test instrument; Comprise test platform (1); Base (2); Horizontal transmission mechanism (3) and hoisting mechanism (4); It is characterized in that: said test platform (1) front end is articulated in said base (2) middle part; Said test platform (1) is gone up and from the tail end to the front end, is disposed with mobilizable first test specimen seat (11); The second test specimen seat (12) and the 3rd test specimen seat (13); Said test platform (1) tail end locates to be provided with microswitch (14) near the said first test specimen seat (11); Rolling control device (15) is located to be provided with near the said second test specimen seat (12) in said test platform (1) both sides; Said test platform (1) one side is provided with optoelectronic switch (16) from said second test specimen seat (12) the parallel distance 200mm place; Said base (2) is gone up with said test platform (1) hinged place and is provided with level meter (21); Said horizontal transmission mechanism (3) is arranged at base (2) one ends, and said horizontal transmission mechanism (3) is provided with strength sensor (34) and range sensor (35).
2. a kind of footwear lining according to claim 1 and interior pad mantle friction performance test instrument is characterized in that: the said first test specimen seat (11) and the second test specimen seat (12) are similar sample loading bin.
3. a kind of footwear lining according to claim 1 and interior pad mantle friction performance test instrument; It is characterized in that: said rolling control device (15) is provided with electromagnet block (151), pole (152) and retainer (153), and said pole (152) and retainer (153) are arranged on the electromagnet block (151).
4. a kind of footwear lining according to claim 1 and interior pad mantle friction performance test instrument; It is characterized in that: said the 3rd test specimen seat (13) comprises two fixed legs (131) and a traction slide plate (132); Said fixed leg (131) both sides use the screw snap close respectively on said test platform (1); Said traction slide plate (132) is arranged between the said fixed leg (131), and said traction slide plate (132) front end is equipped with sample drag hook (133).
5. a kind of footwear lining according to claim 1 and interior pad mantle friction performance test instrument; It is characterized in that: said horizontal transmission mechanism (3) is provided with first motor (31), screw rod (32) and first pull rope; Said first pull rope, one end is connected with said sample drag hook (133); The said first pull rope other end is driven by said screw rod (32), and said screw rod (32) is connecting synchronous pulley (33); The described synchronous pulley (33) that is connected on the screw rod (32) is connected with synchronous pulley (33) on first motor (31).
6. a kind of footwear lining according to claim 1 and interior pad mantle friction performance test instrument; It is characterized in that: said hoisting mechanism (4) comprises support (41); Second motor (42); Assembly pulley (43) and second pull rope (44); Said support (14) is arranged at said test platform (1) top; Said second motor (42) and assembly pulley (43) are immobilizated on the said support (41); Said second pull rope (44) one ends are fixedly connected with said test platform (1) afterbody, and said second pull rope (44) other end is driven by said second motor (42) through said assembly pulley (41).
7. according to the method for testing of described a kind of footwear lining of claim 1-6 and interior pad mantle friction performance test instrument, it is characterized in that, comprise the steps:
1., with the test instrument horizontal positioned, test platform (1) is adjusted to horizontal level, cuts the sample of standard-required size, sample is wrapped on the traction slide plate (132) of the 3rd test specimen seat (13);
2., start horizontal transmission mechanism (3); First motor this moment (31) drives synchronous pulley (33) and rotates; Make synchronous pulley (33) moment reach setting speed; Synchronous pulley (33) drives screw rod (32) and rotates; Screw rod (32) drives first pull rope, and first pull rope spurs the 3rd test specimen seat (13) and goes up horizontal slip at test platform (1);
3., the frictional force data between strength sensor (34) sensing the 3rd test specimen seat (13) and test platform (1); The displacement that range sensor (35) moves horizontally on test platform (1) in order to sensing the 3rd test specimen seat (13); Through analysis, can obtain the confficient of static friction and the coefficient of kinetic friction of sample to frictional force and moving displacement;
4., the 3rd test specimen seat (13) is gone up removal from test platform (1); The first test specimen seat (11) that wraps up the sample of standard-required size is positioned on the test platform (1); Start microswitch (14) and second motor (42); Be fixed on test platform (1) tail end through an end, second pull rope (44) that the other end is driven by second motor (42) through Slide Group (43) drives test platform (1) and tilts;
5., when making the first test specimen seat (11) of parcel sample, the inclination angle of inferring test platform (1) slides along test platform (1) plane; Microswitch (14) cuts out; Second motor (42) stops, and this moment, test platform (1) angle of inclination of level meter (21) sensing was specimen surface resistance static angular;
6., test platform (1) is adjusted to horizontal level; The second test specimen seat (12) that wraps up the sample of standard-required size is positioned on the test platform (1); Open the assigned address that optoelectronic switch (16) the sensing second test specimen seat (12) arrives, start second motor (42) test platform is tilted;
7., when tilting to certain angle; Close second motor (42) and electromagnet (151); Pole (152) rolls downwards under ramp effect; The second test specimen seat (12) of bump parcel sample; Make second test specimen (12) of parcel sample go up slip 200mm at test platform (1); Pole (151) is stopped by retainer (153) simultaneously, and this moment, test platform (1) angle of inclination of level meter (21) sensing was specimen surface resistance dynamic angle.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201110209650A CN102302249A (en) | 2011-07-26 | 2011-07-26 | Tester for testing surface frictional property of shoe lining and insole |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201110209650A CN102302249A (en) | 2011-07-26 | 2011-07-26 | Tester for testing surface frictional property of shoe lining and insole |
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| CN102302249A true CN102302249A (en) | 2012-01-04 |
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| CN201110209650A Pending CN102302249A (en) | 2011-07-26 | 2011-07-26 | Tester for testing surface frictional property of shoe lining and insole |
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Cited By (10)
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| CN102628853A (en) * | 2012-03-12 | 2012-08-08 | 浙江科技学院 | Resistance reduction effect tester for viscoplastic material pipeline convey surface film |
| CN103063187A (en) * | 2012-12-28 | 2013-04-24 | 镇江市丰泰化验制样设备有限公司 | Coal friction angle measurement device |
| CN103307959A (en) * | 2013-05-17 | 2013-09-18 | 中国科学院武汉岩土力学研究所 | Tilting testing device for measuring anisotropy of sliding friction angle of rock joint surface |
| CN103940734A (en) * | 2014-04-28 | 2014-07-23 | 东莞市恒宇仪器有限公司 | Human body non-slip testing machine |
| CN106596392A (en) * | 2016-11-30 | 2017-04-26 | 厦门安踏体育用品有限公司 | Testing device and method for skin-friction coefficient of fabric |
| CN107101936A (en) * | 2017-07-01 | 2017-08-29 | 岭南师范学院 | A kind of device and method for determining coefficient of friction |
| CN107340230A (en) * | 2017-07-25 | 2017-11-10 | 苏州隆威能体育用品有限公司 | Shoes earth-catching property test equipment and method |
| CN108399877A (en) * | 2018-03-20 | 2018-08-14 | 郑州航空工业管理学院 | A kind of cultural spreading smart machine |
| CN109349743A (en) * | 2018-11-15 | 2019-02-19 | 浙江金萨克服饰皮具有限公司 | A kind of anti-skid property of soles test machine |
| KR102017025B1 (en) * | 2018-09-07 | 2019-10-21 | 한국신발피혁연구원 | Testing apparatus for measurement of slip resistance of shoes |
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Cited By (13)
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| CN102628853A (en) * | 2012-03-12 | 2012-08-08 | 浙江科技学院 | Resistance reduction effect tester for viscoplastic material pipeline convey surface film |
| CN102628853B (en) * | 2012-03-12 | 2015-09-09 | 浙江科技学院 | The surface film drag-reduction effect tester of visco-plasticity material pipe conveying |
| CN103063187A (en) * | 2012-12-28 | 2013-04-24 | 镇江市丰泰化验制样设备有限公司 | Coal friction angle measurement device |
| CN103307959A (en) * | 2013-05-17 | 2013-09-18 | 中国科学院武汉岩土力学研究所 | Tilting testing device for measuring anisotropy of sliding friction angle of rock joint surface |
| CN103307959B (en) * | 2013-05-17 | 2015-08-19 | 中国科学院武汉岩土力学研究所 | The anisotropic inclined testing device of a kind of measurement Rock Joint Plane sliding friction angle |
| CN103940734A (en) * | 2014-04-28 | 2014-07-23 | 东莞市恒宇仪器有限公司 | Human body non-slip testing machine |
| CN106596392A (en) * | 2016-11-30 | 2017-04-26 | 厦门安踏体育用品有限公司 | Testing device and method for skin-friction coefficient of fabric |
| CN107101936A (en) * | 2017-07-01 | 2017-08-29 | 岭南师范学院 | A kind of device and method for determining coefficient of friction |
| CN107340230A (en) * | 2017-07-25 | 2017-11-10 | 苏州隆威能体育用品有限公司 | Shoes earth-catching property test equipment and method |
| CN107340230B (en) * | 2017-07-25 | 2023-11-03 | 苏州维赛智芯体育科技有限公司 | Shoe ground grabbing performance testing equipment and method |
| CN108399877A (en) * | 2018-03-20 | 2018-08-14 | 郑州航空工业管理学院 | A kind of cultural spreading smart machine |
| KR102017025B1 (en) * | 2018-09-07 | 2019-10-21 | 한국신발피혁연구원 | Testing apparatus for measurement of slip resistance of shoes |
| CN109349743A (en) * | 2018-11-15 | 2019-02-19 | 浙江金萨克服饰皮具有限公司 | A kind of anti-skid property of soles test machine |
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Application publication date: 20120104 |