SU794404A1 - Multichannel associative adressing optical recording device - Google Patents

Description

The invention relates to testing equipment, namely, devices for measuring axial forces arising in vehicle steering gears, and can be used to determine the loading of the steering gear, stability and control.

A device for measuring axial force is known, comprising an elastic coupling with flanges, bolted and rigidly connected by hubs to the ends of the shaft, on which measurement of force, LIA, and strain gauges connected to measuring circuit 1 is performed.

To exclude measurement error from the torque, one sleeve of the diaphragm is pressed into one of the flanges of the elastic coupling, and the other has an adjusting stop screw fixed to the thread and deforming the membrane with a strain gauge attached to it.

The disadvantage of the device is. the fact that under the action of a bending moment large deformations occur in the transverse direction, as a result, distortions of the actual loading modes of the longitudinal thrust of the steering drive arise.

It is also known a device for measuring axial force, comprising a holder,

fastening two ti gi, the end surfaces of which are connected by a strain gauge element, and strain gauges included in the measuring circuit 2.

The disadvantage of this device is that when measuring small axial forces due to slight deformation of strain gauges, a large error occurs in the measurements of axial force.

The purpose of the invention is to improve accuracy.

This goal is achieved by the fact that in the device containing a holder, two fasteners were fastened, the end surfaces of which are connected by a strain gauge element, and teizododchiki, the holder is connected to each of the rigs by means of a centering rod, in which oval with the location of its major axis along the direction of the measured force, and the thermometric element is connected to one of the rods by means of a threaded connection.

The drawing shows a device for measuring axial force.

It contains gi / and 2, each of which is connected to the holder 5 by means of a centering rod 4. In the case of 2, the hole for the rod is oval, its main axis is located along

3

direction of the measured force. The end surfaces of the pulleys g / and 2 are connected by a strain gauge element 5, and they are connected with a screw Y by a threaded joint 6. On the strain gauge element 5, strain gauges 7 are glued, which are connected to strain gauges through wires 8.

The device works as follows.

When an axial force appears, the strain gauge element 5 is deformed in the axial direction, which leads to deformation of the strain gauge 7. Thus, the measurement of the axial forces is provided. The bending and torques are transmitted through the yoke 3. When torque is transmitted and there are angular backlashes between the pull 2 and the yoke 3, the strain gauge 5 is rotated within the baffle due to the threaded connection of the strain gauge 5 with pull 1. From overloads, the axial force is transmitted from the rod 2 with the oval hole through the centering rod 4 to the holder 3.

The invention allows high precision measurements of axial forces.

LIU arising in

steering gears of vehicles.

 the invention

1.A device for measuring axial force, containing a yoke holding two rods, the end surfaces of which are connected by a strain gauge element, and strain gauges included in the measuring circuit, characterized in that, in order to improve accuracy, the yoke is connected to each of the grids by centering its rod; in this case, in one of the grips, the hole for the rod is made oval with its large axis along the direction of the measured force.

2. Device but n. 1, characterized in that the strain gauge element is connected to one of the plugs by means of a threaded connection.

Sources of information taken into account in the examination:

1. Avtorskoe - USSR certificate Lo 209809, cl. G 01 L 5 / 1-2, 1965.

2. US patent number 3911737, cl. 73-141A, publ. 1975 (prototype).

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Claims (2)

Claim 1. A device for measuring axial force, comprising a clip fastening two rods, the end surfaces of which are connected by a strain gauge element, and strain gauges included in the measuring circuit, characterized in that, in order to improve accuracy, the clip is connected to each of the rods through a centering rod, while in one of the rods the hole for the rod is made oval with the location of its major axis along the direction of the measured force. 2. The device according to π. 1, characterized in that the strain gauge element is connected to one of the rods by means of a threaded connection.