SU991997A1 - Device for determining inner sole resistance to destruction in footwear made of polymers - Google Patents

Description

(54) DEVICE FOR DETERMINING STABILITY

INSOLES TO DESTRUCTION IN FOOTWEAR MADE

one

The invention relates to appurtenances and devices for testing shoes and can be used to determine the resistance to destruction of insoles in shoes, for example, plastisol PVC shoes.

A device is known for determining the stability of an insole to failure in shoes made of polymers, consisting of fasteners of a shoe fastener and loading mechanism I.

The main disadvantage of the known device is that when tested on it, the loading conditions are not reproduced, corresponding to the actual use of the insole in the shoe.

The purpose of the invention is to improve the accuracy of determination.

The goal is achieved by the fact that in the device for determining the stability of the insole to destruction in shoes made of polymers consisting of a fixed base for the shoe attachment unit and loading mechanism, the shoe cracking unit has a pressure plate hinged at one end on the frame, a spring-loaded platform with screw clamps

FROM POLYMERS

connected to the free end of the pressure plate, and the means for adjusting the pressing force, and the loading mechanism is designed as a crank mechanism that carries an indenter in contact with the platform at the free end of the connecting rod.

The tool for adjusting the clamping force is made in the form of screws located on both sides of the spring-loaded platform.

FIG. 1 shows the device, front view; in fig. 2 - the same, top view;

10 in FIG. 3 is a view along arrow A in FIG. I.

The device comprises a loading mechanism, which consists of a motor with a gearbox 1 connected to the crank 2 and a connecting rod 3 having an axis of rotation 4. At the 15th free end of the connecting rod 3, an indenter 5 is placed. The indenter 5 contacts the platform 6 of the shoe fastening assembly having a pressure plate 7 fixed at one end by means of a hinge 8 on the frame. The platform 6 is spring-loaded with a calibrated spring 9 and connected to the free end of the pressure plate 7. The spring-loaded platform 6 has a means for adjusting the pressing force made in the form of screws 10 and I mounted on racks 12 and 13

and placed on both sides of the pad 6. A pad 6 installs the tested base 14 of the shoe and secures it with a flange 15. and nuts 16. Guides 18 and 19 are mounted between the pad b and the slab 17. Pressure on the heel part of the base is clamped plate 7 and the stop 20 and is fixed on the bar 21.

The device works as follows.

The engine through the gearbox 1 and using crankshaft 2 drives the rod 3. The indenter 5 at the same time coBepujaeT translational motion, creating axial pressure on the heel part of the base 14. Due to the axis 4, the indenter 5 simultaneously performs a rotational movement causing the insole to shift.

The change in the magnitude of the shift of the indenter 5 relative to the insole in the shoe is carried out by changing the position of the axis of rotation 4 of the rod 3 in the horizontal plane. The frequency of loading on the heel part of the shoe is 24 cycles / min.

Since the heel height varies depending on the size of the shoe, to create a constant compressive strength of the heel part of the base, the test must change the distance between the indenter 5 and the n (the surface of the movable platform 6. The deformation of the spring 9 remains constant. For this purpose rotating the screws 10 and 11 relative to the uprights 12 and 13, change the position of the plate 17.

Compared with the known devices, the proposed design allows to more fully imitate the real conditions of the wearing of shoes and, therefore, more accurately assess its quality.

Claims (2)

1. A device for determining the stability of the insole to destruction in shoes made of polymers, consisting of a shoe attachment unit and a loading mechanism mounted on the base, characterized in that, in order to improve the determination accuracy, the OwI attachment unit has clamping plate, pivotally fixed at one end on the frame, spring-loaded area with screw clamps, connected to the free end of the clamping plate, and means for adjusting the clamping force, and the loading mechanism is in the form of a curvature-shatunnogo mechanism that carries an indenter in contact with the platform . 2. The device on and. 1, characterized in that the means for adjusting the pressing force is made in the form of screws located on both sides of the spring-loaded platform. Sources of information taken into account in the examination 1. Testing for the rollability in the wet state. Test methods for shoe materials and shoes. Gizlegprom. M., 1954, p. 292. 2 3 (.1 duig.2 VV 8idA (rig. 3