RU2563771C1 - Measuring method of actual pitches of roller chains - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: measuring method of actual pitches of roller chains as distance along the link axis between identical generatrixes of two one-sidedly offset adjacent rollers, according to which a calliper gauge with a digital indicating device is used for a measurement; with that, a fixed jaw of the calliper gauge is fixed, and a movable jaw of the calliper gauge is used for one-sided offset of the first roller of the measured link of the roller chain and zero setting of readings of the digital indicating device of the calliper gauge is performed; position of the fixed jaw of the calliper gauge is saved and the movable jaw is moved to the second roller of the measured link; the second roller is one-sidedly offset and the value of the actual pitch is read out; in order to measure the pitch of the next link of the roller chain, zero setting of readings is performed, the movable jaw is moved to the next roller, the next roller is one-sidedly offset and the value of the next actual pitch is read out, etc.

EFFECT: measuring method provides control of actual pitches of roller chains by a standard tool and requires no preliminary adjustment.

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Description

The invention relates to measuring equipment. It can be used to control roller chains by step accuracy both in the factory and directly in the assembled chain transmission of an operating machine.

A known method of measuring the pitch of the links of assembled sleeve-roller chains [A.S. No. 128149. A method of measuring the pitch of links of assembled sleeve-roller chains / A.V. Sokolovsky. "Bulletin of inventions" No. 9 for 1960].

A known system for measuring the actual steps of the chain [RF Patent No. 40465. System for measuring the actual steps of a chain / A.V. Puntus, N.V. Mevsha. Bull. No. 25 September 10, 2004].

The disadvantage of these measurement methods is the use of special devices (pedometers) with two parallel jaws, providing simultaneous unilateral displacement of adjacent rollers. Pedometers require presetting to the nominal step, and measuring devices installed on them record only deviations from the nominal step, and different pedometers are required for circuits of different steps.

The objective of the invention is to develop a method for measuring the actual steps of roller chains, which does not require the use of special devices (pedometers).

The technical result of the invention is to provide control of the actual steps of the roller chains with a standard tool both in the factory and directly in the assembled chain transmission of the operating machine.

The technical result is achieved by the fact that to measure the actual steps of the roller chains, a caliper with a digital reading device is used, while the fixed caliper jaw is fixed, and the first roller of the measured link of the roller chain is unilaterally displaced by the movable caliper lip and the digital readout of the caliper is zeroed, and the position is maintained fixed caliper jaws and move the movable jaw to the second roller of the measured link, one-sided e displace the second roller and the actual value is read step, measuring step, the next link of the roller chain produce zeroing readings movable jaw is moved to the next roller, one side is displaced and the next clip read the actual value of the next step, etc.

For the actual step of the link take the distance along the axis of the link between the identical generators of two unilaterally displaced adjacent rollers.

The proposed method allows to measure the steps of roller chains of various steps using a caliper with a digital reading device that does not require pre-setting for the nominal step and has a zeroing button, and if there is a connection between the reading device and the computer, it is possible to record the measurement results on a computer hard disk for subsequent processing, moreover, the readings of the reading device will correspond to the actual step of the circuit, and not the deviation from the nominal step.

The method of measuring the actual steps of the roller chains is implemented as follows (see drawing). The fixed caliper jaw is fixed, and the first roller of the measured link of the roller chain is unilaterally displaced by the movable caliper sponge, that is, they cover the size L ₀ , the digital reading device of the caliper is zeroed, then the movable sponge is moved to the second roller of the measured link, that is, they cover the size L ₁ , in this case, the readings of the digital reading device of the caliper will be equal to step p ₁ , the value is recorded in the protocol. Again, zero the readings of the digital caliper of the caliper and then cover the size L _2, while the readings of the digital readout of the caliper will be equal to step p ₂ , the value is recorded in the protocol, etc.

Zeroing the readings allows you to implement calculations:

p ₁ = L ₁ -L ₀ and p ₂ = L ₂ -L ₁ .

In general terms, for i = 1 ... n, the dependence can be written as p _i = L _i -L _i-1 . The reading of L ₀ is basic.

Thus, the proposed measurement method provides control of the actual steps of the roller chains with a standard tool and does not require its preliminary adjustment.

Claims (1)

A method of measuring the actual steps of roller chains as the distance along the link axis between the identical generators of two unilaterally displaced adjacent rollers, characterized in that a caliper with a digital reading device is used to measure the actual steps of the roller chains, while the fixed caliper lip is fixed, and the movable caliper lip is unilaterally biased the first roller of the measured link and zero the readings of the digital reading device of the caliper. a fixed caliper jaw and move the movable jaw to the second roller of the measured link, unilaterally shift the roller and read the value of the actual step, to measure the step of the next link, zero the readings, move the jaw to the next roller, unilaterally shift the next roller and read the value of the next valid step and t .d.