SU370527A1 - ESSENTRIC ^ "^ - Google Patents

Description

one

A device for testing footwear and its parts, comprising a fixed base and a rod located above it, moving under the action of interchangeable weights and carrying a mobile support, is known.

The proposed device makes it possible to test antistatic and then a scraper around the footwear and its parts, to make control measurements of electrical resistance.

This is achieved by the fact that the base is provided with a plate-electrode, and the movable O.noipa consists of two stops, made at the end with blunt and carrier electrodes with flexible lids, three of which are the base electrode and the electrode of one of the stops are connected to an I3 measuring device; The base plate electrode is provided with an insulating plate with an electrode plug.

FIG. 1 shows the described device when testing shoes, a general view; in fig. 2 - the same, when testing details of shoes; in fig. 3 shows a section A-A in FIG. one.

The proposed device comprises a base /, a rod 2 with interchangeable lruses 3 and a movable support 4, representing two stops 5 and 6, having a flat termination and carrying electrodes 7 with flexible covers 8.

The stops 5 and 5 are fixed on the guides 9 and 10 with the possibility of changing the distance between them, made, for example, of stainless steel and insulated from the guides 9 and 10 with insulating sleeves 11. The electrodes 7 are made of a non-boxing conductive material, for example stainless steel 18X9T.

On the base / insulators 12 are installed, carrying a plate-electrode 13, which serves as a support for the tested footwear 14. The electrodes 13 and 7 are connected by a flexible insulating

wire 15 through the switching button 16 and measuring device / 7 with indicator device 18, connecting with indicator indicator panel 19 with lamp 20, indicating that device 18 is turned on, and with indicator lamps and 21, fixing the resistance measurement results within the specified limits: normal, marriage upper limit (HE), marriage lower limit (NP).

An insulating template 22 is placed on the electrode 13 (see FIG. 2), supported by a piece 23 of current-guiding or antistatic footwear, for example a sole. The contact area of the electrode tube 24 with detail 23

corresponds to the area of the electrode 7 uio, pa 6, and is equal to the area of the electrode 7 of the ophopa 5

The determination of the electrical resistance of the antistatic and conductive shoes on the intended device is made

in the following way.

The size of the shoe 14 to be measured is set: stops 5 and 5 are inserted with electrodes 7 by distances from each other, equal to the length from the straight line of the subsurface to the beginning of the beam part of the shoe. On the rod 2 put the load 3, capable of 0: demon (bake the specific pressure. Each of the electrodes 7 is not less

4kg / cm, and lift it to the upper fixed position. The base of the shoe is cleaned from dust, installed on the electrode 13,. The right part is under the electrode 7 of the tail 5. Lowering the rod 1, and with the electrode 7, the stop 5 takes up a position on the sub foot of the shoe near its straight line, and the electrode 7 yinopa 6 the beginning of the nuch part of the shoe. The contact surface of the electrodes 7 due to their free “repleni on stops

5 and 5 and the movable mount of the support 4, when loaded from the action of the loads 3, occupy a position parallel to the plane of contact with the stele of the shoe, regardless of the height of the heel, and consequently, from the angle of inclination. After pressing the electrodes 7 to the surface of the steel shoes, the device is padded to measure. For the sake of digital values of the measured electrical resistance in the circuit of the indicator device 18 includes a measuring device 17, for which his shuntrochnaya contact 25 is opened. With operational, m Shoe monitoring at the permissible limits of electrical resistance (verX | Niy 0.1–10 ohm, lower 0,8 10 ohm) measuring device 17 is shunted by contact 25. The measurement result in this case is determined by lighting one of the three indicative Lam 21 (norm, VP malfunction, NP malfunction) on the indicator display panel 19. Measurement is carried out by pressing the switching button 16, after which, with the required time, the panel 19 lights the corresponding lampu 21

or include a measuring device 17. The determination of the electrical resistance of the parts of the antistatic and conductive footwear is carried out as follows: the electrodes 7 are installed at a certain distance from each other, depending on the size of the part 23. With the support 4 raised with the electrodes 7, the electrode 13 is placed insulating template 22, and detail 23 on it.

The electrodes 7 are pressed against the part 23 in such a way that the electrode 7 of the anvil 6 is located above the electrode plug 24 for the two-contact contact at the bottom of the part. At the same time, the elactro 7 stop 5 on zaiisilshm from pasiMepa

the part 23 away from the electrode plug 24 provides the contact on top of the part 23. A further order of operations to determine the value of the electrical resistance of the part 23 is similar to the measurement

shoe resistance 14.

Subject invention

1. Device for and snytany shoes and its parts, containing a fixed base

and located above it a scraper, moving under the action of interchangeable weights and carrying a mobile support, characterized in that, in order to enable testing of antistatic and such accompanying shoes and its parts, its base is provided with a plate-electrode, and the mobile support is made in the form of two stops with spherical ends, carrying electrodes with flexible

covers, while the base electrode and the electrode of one of the lugs are connected to a measuring instrument.

2. The device P.O. p. 1, characterized in that the plate-electrode base is provided

insulating template with electrode plug.

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Fig 2