Mountaineering shoe or protective shoe detection device

Technical Field

The invention relates to a kind of footwear quality detection device, in particular to a mountaineering shoes or diving detection device.

Background Art

Climbing shoes and diving to the quality requirement of the relatively high, all requirements of the shoes on the foot there is better protection effect, while at the same time durable. In an actual product, the quality of the more common problem is the sole wear, glue and the like. In particular just the development of a new product, or replaced with a new production process, quality problems generated very easy. Therefore, the need for aging test of the product, in order to in batch before the commissioning of the discover the problems.

Climbing shoes and toe cap aging test, is directed primarily to the sole of the abrasion resistance and a shoe at the joint of the anti-deformation property, while the two performance test requiring a long period of repeated test can show the effect, therefore, by the testing personnel wearing shoes carry out the test, not only wastes time, but also the cost of testing is high, in the actual operation, the contrast is not convenient.

Therefore, the need to design and manufacture a test device, used for the simulated foot action, the shoes repeatedly applied a plurality of times the external applied force, completed in a short time to the aging of the shoes wear test, while providing quantified test data and compared with the index, is used for the quality of the shoes to make an objective assessment.

Content of the invention

The present invention is to solve the above problems, the provides a mountaineering shoes or diving detection device.

This invention is in accordance with the following of the technical proposal.

A mountaineering shoes or diving detecting device, comprises a base, the base is provided with a power mechanism, the mechanism and the damping mechanism;

The power mechanism comprises a motor, the rotor of the motor is nested on the 1st driven wheel;

The execution mechanism includes two groups of deployment on the base surface of the two groups of 1st vertical support and a group of 2nd vertical support; each group of the 1st vertical support are provided between a group of horizontal track, two horizontal track provided on the support plate, two sides of the tray along the horizontal sliding of the track of the pulley; a through hole formed on the center of the support plate, the edge of the through to the lower surface of the on the supporting plate extends to form the outer sleeve; the outer tube is provided with a 1st connecting rod, the connecting rod 1st includes two groups of pressure connector and one of the movable joint, activities of the joint top end embedded in the adjusting joint and movably connected with the adjusting joint, the movable connector is connected to the bottom end of the acupuncture; the adjusting of the joint top end is provided with threaded holes; said two groups of pressure fitting through a spring connected to the bottom end, the bottom end of the pressure joint forming block hole, through the spring of the pin embedded in the two ends of the two pressure joint respectively inserted into the insert hole; a pressure fitting the top end of the adjusting joint embedded in the hole of the screw threads at the top, another pressure through the hinge joint top end of the connecting rod is connected to the one end of the 2nd, 2nd and the other end of the connecting rod through the hinge connecting the rotary wheel; and the rotating wheel on the nesting of the rotating rod, two ends of the rotary rod through the bearing to connect the two 2nd vertical support, the rotary rod is also provided with a 2nd driven wheel; 2nd 1st driven wheel through a transmission chain from the wheel;

The damping mechanism comprises a deployment on the base surface a plurality of 3rd vertical support, each of the 3rd vertical support is provided with two vertical arrangement of screw, 3rd vertical support arranged in the middle of sand; screw against the sand plate edge, the sand fastening on the base.

The two end of the opening of the outer tube to the [...], forming clamp the movable joint of the inlays position.

The inlays the position to sell states inlays the position hole and the cross section of which is rectangular or square.

The block the position sells the inlay hole of lubricant coated on the contact face; the pressure joint and the external casing of the lubricant coated on the contact face.

The pressure of the joint top end inserted into the threaded hole formed in the adjusting joint of the external screw thread.

Said pulley is the middle part of the horizontal track the contact surface of the sunken inward, the recess has a width equal to the width of the horizontal track.

The screw are nested on the nut.

The invention has obtained the following beneficial effects.

The invention provides a method for mountaineering or diving detection device, suitable for hiking boots and shoes such as diving to the quality and protection capacity requirements and higher quality of the aging of the shoes. The invention is directed primarily to the sole of the abrasion resistance and a shoe at the joint of the anti-deformation property, and simulate the foot action, the shoes repeatedly applied a plurality of times the external applied force, completed in a short time to the aging of the shoes wear test, while providing quantified test data and compared with the index, is used for the quality of the shoes to make an objective assessment. The invention has simple structure, convenient operation, convenient adjustment, can be compatible with a plurality of different footwear sole thickness of product quality.

Description of drawings

Figure 1 is the front view of the invention;

Figure 2 is the left view of the invention;

Figure 3 is the top view of the plate in the present invention;

Figure 4 is the invention of outer pipe internal structure diagram;

Figure 5 is the bottom view of the invention of the pressure in the joint;

Figure 6 is the top view of the damping mechanism in this invention;

Figure 7 is the left view of the damping mechanism in this invention (sand level);

Figure 8 is the left view of the damping mechanism in this invention (sand inclined).

Wherein 1. The base; 2. 1st vertical support; 3. 2nd vertical support; 4. The horizontal track; 5. The supporting plate; 6. Pulley; 7. The rotary rod; 8. The rotating wheel; 9. 1st connecting rod; 901. The movable connector; 902. An adjustment joint; 903. The pressure joint; 904. The inlay pin; 905. Spring; 10. 2nd connecting rod; 11. Acupuncture; 12. The transmission chain; 13. Motor; 14. The external casing; 15. Block hole; 16. Sand; 17. 3rd vertical support; 18. The screw; 19. The nut; 20. The hinge.

Mode of execution

The following reference with photos and embodiment of the invention further technical note.

As shown in Figure 1-8, a for mountaineering or diving detecting device, comprises a base 1, the base 1 is provided with a power mechanism, the mechanism and the damping mechanism;

The power mechanism includes a motor 13, motor 13 is nested on the 1st on the rotor from the wheel;

The execution mechanism includes two groups of the deployment of the base 1 on the upper surface of the two groups of the 1st vertical support 2 and a group of 2nd vertical support 3; each group of the 1st vertical support 2 are provided between a group of horizontal track 4, two groups of horizontal track 4 are mounted on the supporting plate 5, the support plate 5 is provided with two side along the horizontal track 4 of the sliding of the pulley 6; the supporting plate 5 is formed on the center of the through hole, the through hole to the edge of the support plate 5 extends to form the lower surface of the outer sleeve 14; the outer sleeve 14 is arranged in the connecting rod 1st 9, the 1st connecting rod 9 includes two groups of pressure joint 903 and a movable joint 901, the movable connector 901 is embedded into the top of the adjusting connector 902 and with the adjusting joint 902 is movably connected, the movable connector 901 is connected to the bottom end of the acupuncture 11; the adjusting joint 902 is provided with threaded holes at the top end; said two groups of pressure joint 903 through the bottom end of the spring 905 connected, pressure joint 903 formed at the bottom of the embedding hole 15, through the spring 905 of the inlays the position to sell 904 respectively inserted into the two ends of the two pressure joint 903 [...] of 15 in; a pressure joint 903 embedded into the top of the adjusting connector 902 in the hole of the screw threads at the top, another pressure fitting 903 through the top of the hinge 20 is connected with the 2nd connecting rod 10 one end of, 2nd connecting rod 10 and the other end through the hinge 20 connected with the turning wheel 8; and the rotating wheel 8 nested rotating rod 7 on, the rotary rod 7 through a bearing connected to the two ends of the two 2nd vertical support 3, and the rotary rod 7 is also provided with a 2nd driven wheel; 2nd driven wheel by the transmission chain 12 is connected to the 1st driven wheel;

The damping mechanism including the deployment of the base 1 on the upper surface of a plurality of 3rd vertical support 17, each of the 3rd vertical support 17 is provided with two vertical arrangement of the screws 18, 3rd vertical support 17 arranged in the middle of sand 16; screw 18 against the sand 16 edge, the sand 16 fastened to the base 1 on.

The outer bushing 14 to the two end of the opening [...], forming clamp the movable joint 901 of the inlays position.

The block hole 15 and inlays the position to sell 904 of the cross section is a rectangle or square.

The position sells a block 904 the inlay hole 15 of lubricant coated on the contact face; the pressure joint 903 with the outer sleeve 14 is coated on the contact surface of the lubricant.

The pressure joint 903 formed at the top of the embedded adjusting connector 902 in the external thread of the threaded hole.

The pulley 6 with the horizontal track 4 to the inner wall of the middle part of the contact surface, the recess width is equal to the horizontal track 4 width.

The screws 18 are nested on the nut 19.

Embodiment 1:

The use of this invention steps and principle is:

1. the sand 16 arranged in the base 1 on a plurality of 3rd vertical support 17 in the area around the middle of, the screw driver for screwing the 3rd vertical support 17 screws 18, so that the sand in the top of the 16 edge, and further to lock the screw 18, so that the sand will be 16 and embedded fastening, prevent the sand 16 off of.

2. the acupuncture 11 is placed in the shoe to be tested, tie lace. The acupuncture point 11 of the heel is provided with a pressure sensor. Acupuncture 11 fixed to the movable joint 901 the bottom, of the adjustment joint 902, so that the 1st connecting rod 9 elongated or shortened, until the acupuncture 11 on the pressure sensor readings in between the standard reference value.

3. the starting motor 13, 1st the driven wheel to rotate, and through the drive chain 12, 2nd from the wheel, the rotary shaft 7 of the transmission, to drive the wheel 8 to rotate. 2nd connecting rod 10 in one end of the runner 8 under the drive of the circular motion, 2nd connecting rod 10 and the other end of the traction splint 5 in the horizontal track 4 on to perform the reciprocating motion. Reciprocating motion at the same time, the 2nd connecting rod 10 under the direction of the obliquely, so there is also a vertical downward component force of a, and is shown as the vertical downward pressure of the shoes, the formulae wearing the shoes for walking, it is also acting force, and with the center of gravity of the changes in the human body, the force also changes all the time. In this process, 2nd connecting rod 10 slope has been change, so also is the size of the force are always in the state of variation.

4. the motor 13 rotates a week, shoes in the sand 16 finish one reciprocating motion, to keep the motor 13 for rotation, can be completed within a short period of time the reciprocating motion of the thousands.

5. the motor 13 stops, remove the shoes, the wear condition of the observation of the sole and the sole and the vamp of the bonding part of the deformation.

Embodiment 2:

As shown in Figure 8, the sand 16 tilt, located for 3rd vertical support 17 the different positions of the screw 18 locking sand 16, because the tilt of the easy to get loose sand, if necessary in the screw 18 are nested on the nut 19, pressing sand 16 edge. According to the embodiment after a in step 2 to step 5 of the note, re-executes the test operation, the sole can be focused on one side of the wear-resistant and the extent of the bonding part of the sole and the upper anti-deformation property.

Embodiment 3:

Changing the direction of rotation of the motor, as shown in Figure 1, when the rotating wheel 8 when it rotates counterclockwise, the abrasion of the brassiere some more serious, when the rotating wheel 8 rotates clockwise, shoe paw abrasion more more serious. In the complete test cycle, set is the number of the number ring and instead turns circle with the different number of, or only for setting motor to rotate clockwise or only counterclockwise rotation, can be targeted validation of the heel and the sole part of the sole and the upper wear resistance and resistance to deformation of the bonding part.