SU1671251A1 - Bench for comprehensive testing of footwear - Google Patents

Abstract

The invention relates to the shoe industry, in particular, to equipment for testing footwear, and it allows to increase the objectivity of the test results by eliminating the radial interaction of the footwear with the simulator of the roadway. Based on, the driven working drums with the pads attached to them for the shoes under investigation are mounted, and the roadbed simulator is made as separate running elements kinematically connected with the driving of the working drums with the possibility of strictly linear movement in the contact zone. To do this, there is a closed curved groove made in a fixed platform placed on the base (or directly at the base), where the shanks of the running elements enter, and a rotary table with radial slots connected via a gearbox with a drum drive. The shanks of the running elements have a trapezoid shape in cross section, the smaller base of which is facing the periphery of the turntable. The straight sections of the closed groove are located in the areas of contact with the shoes, i.e. under the drums. 1 hp ff. 6 Il.

Description

The invention relates to the shoe industry, in particular to equipment for testing footwear.

The purpose of the invention is to increase the objectivity of the test results by eliminating the radial interaction of the shoe with the simulator of the roadway.

FIG. 1 is a diagram of the stand; FIG. 2 - the same, top view; in fig. 3 — stationary base with a guide groove, section AA; in fig. 4 - rotary table; in fig. 5 - node attachment of shoes to the working drum; in fig. 6 is a section BB in FIG. five.

The stand contains a base 1 with a support frame 2 fixed on it. On which the electric drive 3 is mounted, connected by an elastic coupling 4 to the gearbox 5. The drums 6 are mounted on the support frame 2 Rotation of the drums in opposite directions is carried out by connecting them to the gearbox 5 shafts 7, and turntable rotation 8 - shaft 9

The test specimens 10 shoes placed on the mandrels 11 are fixed with the help of hinges 12 around the circumference of the working drum 6 on the main rods 13. Their working length is adjusted by moving the movable flange 14, through which a vertical load is transferred to the sample 10 using calibrated elastic elements the position of the nut 16

The integrity of the design of the main stock after the exit of the mandrels with samples from contact with the running elements 17 is ensured by an emphasis 18

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The required dynamic test mode for shoe samples is set using auxiliary rods 19 and elastic elements 20, the stroke of which is controlled by movable nuts 21. The turntable 8 is made with radial grooves 22 in which the running elements 17 are installed. The tail part 23 of the running elements 17 enters the guide the groove 24 of the base 1 and has a cross section of the shape of a trapezoid, the smaller base of which is facing the periphery of the turntable.

The work of the stand is carried out as follows.

When the working drums 6 and the rotary table 8 rotate, the running elements 17, which enter the tail part 23 through the rotary table 8 groove into the guide groove 24 of the fixed base 1 (or the fixed platform mounted on the base 1), make a movement determined by the profile of the guide base groove. the shank of the running element, made in the form of a curvilinear trapezoid, in motion along the straight section of the groove contacts with it at points A. V, D, and at movement along the curvilinear account, at points C, E, D (Fig. 6).

Samples 10 of the shoe come into contact with the support surface of the running elgent at an angle corresponding to the length of the step. which is governed by the working length of the main bar 13, defined by the movable flange 14

The imitation of the person’s weight is effected by changing the stiffness of the elastic element 15 with the help of a nut 16

The force of flexion and extension of the stitch is simulated by the referential selection of elastic elements 20

The peculiarity of a person’s gait is modeled on the shoe sample at a predetermined angle to the support angle of the 5th element in the horizontal and vertical planes with the help of a hinge 12.

The walking dynamics are modeled in a sequence.

During the rotation of the working drums, the bolster heel comes into contact with the running element 1 7 as it moves along the rectilinear section of the guide groove of the fixed base 1. The elastic element 15 of the main rod 13 is compressed during the scrap, having set the load on the supporting surface of the running element the resilient member 20 of the respective auxiliary stem 19 is compressed, the front is expanded. At the same time, the bend of the foot is simulated.

working drums 6 elastic element 15 continues to be compressed, reaching a maximum of preload in an upright position, which corresponds to the transfer of human weight

on one foot in the process of walking. In doing so, the rear element 20 is expanded, the front one is compressed and the foot is in a neutral position relative to the support surface of the tread element.

Upon further movement of the working drum, the preload of the elastic element 15 decreases, reducing the load on the shoes, the rear auxiliary elastic element 20 is expanded and the front elastic is compressed.

imitating the bend of the foot at the completion of the step

Having carried out the appropriate selection of the pads design, it is possible to provide a complete imitation of the walking (running) of a person.

possessing various length of a step, weight and features of gait.

The stand design allows you to simulate any type of road and road obstacles, the required humidity of the environment and

its ozone content, as well as exposure to ultraviolet radiation and other external influences

Thanks to the free access to shoes with shoes and running elements, it is possible to test shoes in any mode of operation, to create any environment in laboratory conditions

Claims (2)

1. Stand for complex testing footwear, containing a base, a simulator of a roadbed mounted on it, working drums with pads attached to them for the shoes under study and a drum rotation drive, characterized in that. in order to increase the objectivity of the test results by eliminating the radial interaction of the shoe with the road simulator canvases, a simulator of a roadway is made in the form of separate running elements, each of which is kinematically connected with a driven rotation of the drums with the possibility of rectilinear motion in the contact zone. 2. A stand according to claim 1, characterized in that the kinematic coupling of the running elements with the drive of the drums comprises a gearbox, on the output shaft of which a rotary table with radial slits, and a fixed platform with a guided closed groove mounted on the base under the rotary table, and each running element has a shank placed in the guide a groove, with the working rectangular sections — the shank has a trapezoid shape in cross section; Yu one Fi & 1 2 Fi.Z Aa 24 24 21 N 22 FI.4 15 FIG. five Curved fit of the notch 8 groove groove 6 Pr linear section of the groove