SU118164A1 - Torque tool - Google Patents

Description

The subject of the invention is a portable dynamometer device for measuring the tension of tram, trolleybus and other contact wires under operating conditions.

Known dynamometer devices containing mounted on the frame of the device spring dynamometer with a pressure rod, abutted in a controlled wire and creating a given deflection.

However, these instruments do not measure the tension of the wire, regardless of its degree of wear.

The mentioned deficiency is eliminated in the described dynamometric device by the fact that it is equipped with a device for automatic correction of the dynamometer readings. This device is made in the form of a spring-loaded strip, abutted against the protrusion of the pressure rod and loosely mounted on the guide screw.

The bar is connected with a stop that displaces the linear or circular scale of the dynamometer by the amount of wire wear.

FIG. 1 shows schematically a dynamometer device with a linear scale, a general view; in fig. 2 is a schematic of the device for automatically correcting the indications of a dynamometric instrument with a circular gauge.

Measuring the tension of the wire by means of a dynamometric device is based on the fact that in a small area, 2 / in length (Fig. 1), under the action of a vertically applied force S, the value of the local deflection boom f is created.

By neglecting the initial stiffness of the wire, the following relationship can be obtained between the vertical force S and the tension G.

Since the angle a is small, it can be assumed that

S 2-Sina-T

5 / pa tgy. -4№ 118164 Thus

 / T (1)

From the expression 1 it follows that at a constant value of the local deflection /, a linear relationship can be obtained between the vertical force 5 and the tension T.

Expression 1 will obviously only be true for an ideal wire. In the real wire, however, a part of the vertical force 5 is expended on bending the wire itself, possessing a certain stiffness by the amount of the deflection arrow. It can be assumed that for the same cross-section of the wire with the same value of the deflection boom f, the vertical force required to only bend the wire by the value of / must be the same. The ratio between the vertical force 5 and the tension T at 1 const and f const in this case can be expressed as:

five . /. T. S, (2)

where Sf is the part of the vertical force S, only bending the wire by a given amount of deflection.

This assumption is confirmed by calculations and experiment.

Thus, the constancy of the size of the local deflection boom / practically provides a linear relationship for a real wire that has a certain stiffness with the same cross section.

The dynamometer provides for a constant deflection independent of the compression of the measuring spring La, since for different values of the vertical force 5 the total deflection of the contact wire would obviously change, which in turn would not provide the linearity of expression 2. Constructively, this is achieved that the measuring bracket 2 is set in the middle part of the frame 1. The distance from the top point of the wire section to the bracket is equal to the deflection value D The dynamometer on the hooks c and 4 is testament to the contact wire 5. With the help of the handle 6 erzhen 7 is extended upwards in a threaded thrust washer 8, the trolley wire and deflects Originating wherein the vertical force S equilibrated measuring spring 9 dynamometer, poluchivschey wherein the pellet (A - constant of the spring). The push rod is extended until the contact wire reaches bracket 2. Then the deflection will correspond to the given deflection of the deflection f, and the spring 9 will balance the vertical force S arising from this deflection and tension of the T wire.

In practice, it is often necessary to deal with a contact wire having varying degrees of wear. Consequently, when bending the wire by the amount of the deflection f, different strength S will correspond to different degrees of wear. The more the wire is worn out, the less obviously the component S in expression 2 should be. At the same time, it should be noted that for the same case of wire wear, the force Sy over the entire measurement range will be constant regardless of the measurement value be tensioned.

The last consideration was used in the development of automatic correction of the dynamometer, depending on wear, which is based on the following principle. When measuring the tension, the total deflection, i.e. the distance between the upper points of the wire section

to.

MF)

-J 11

b

"Q

I

/ 13

12

Phage.2