SU1065938A1 - Sliding current pick-off device - Google Patents

Abstract

1. SLIDING ACCESSORIES for transmitting electrical signals between parts wedging one relative to another, containing fixed and rotating cylindrical electrodes coaxially mounted, in the annular gap between which are installed contacting elements in the form of helical springs, different in that, in order to simplify its design and increase durability, the springs are oriented along the axis of the rotating electrode and uniformly fill the annular gap. W: l: about: 90

Description

2. A device according to claim 1, characterized in that, in order to increase its reliability, adjacent springs are made with multidirectional winding.

3. The device according to PP. 1, 2, differently from the fact that, in order to control the magnitude of the transient resistance, each of the springs is provided with an axial preload assembly;

The invention relates to electrical engineering, in particular, to sliding current collection devices, and can be used to transmit pulsed electrical signals with currents up to during voltages up to between parts rotating one another.

A sliding current collection device is known, containing coaxially mounted electrodes in contact with each other through a helical spring covering the internal electrode ij

When this device is in operation, considerable frictional forces arise between the coil spring and the electrodes, which lead to increased wear of the contacting elements, which reduces the service life of the device.

It is also known to slide a current collection device for transmitting electrical signals between parts rotating one relative to another, containing coaxially mounted stationary and rotating cylindrical electrodes, in the annular gap between which are installed contacting elements made in the form of helical springs that are oriented around the circumference of the annular gap. The device has an outer electrode divided into parts, on which the indicated helical springs and arc holders are fixed, rigidly connected to the parts of the electrode and pivotally with the housing, allowing, if necessary, to disconnect the outer electrode from the inner 23.

This device has a complex structure and insufficient durability due to both the location of the springs relative to the electrodes and the fact that the external electrode is divided into parts, each of which has an individual drive (rotary arc holder), but does not have a contact pressure adjustment unit, does not allow to provide the same contact resistance between separate parts of the electrodes and, thereby, ensure uniform current distribution

The purpose of the invention is to strengthen the design and increase durability.

This goal is achieved by the fact that in a current-collecting device for transmitting electrical signals between parts, one can rotate one relatively differently, containing fixed and rotating cylindrical electrodes coaxially mounted, in which there are contacting elements in the gap between them.

0; in the form of coil springs, the latter are oriented along the axis of the rotating electrode and uniformly fill the annular gap.

In addition, to increase reliability by eliminating the jamming of adjacent springs, the latter are made with multidirectional winding.

Moreover, each of the springs is provided with an axial preload assembly.

The drawing shows the slide iqee current collector, longitudinal section.

The device consists of a stationary 1 and a rotating 2 electrodes, in the annular gap between which are placed contacting elements made in the form of vignors of springs 3. Springs 3 evenly fill the annular gap between electrodes 1, 2 and are oriented along the axis of rotation

0 of the electrode 2, which allows them to work in a rotational movement around their axes while simultaneously moving in a circle whose radius is equal to the distance between the axis

5 rotation of the electrode 2 and the longitudinal axis of the spring 3. To avoid seizure of adjacent springs, they can be performed with multidirectional winding. If each screw spring 3 is provided with an axial compression unit, made in the form of a nut 4, screw 5 and two bushings 6, it is possible to regulate the magnitude of the contact resistance of the contact assembly. Everything

The springs 3 are placed in an annular gap so that they have the opportunity to shift somewhat, in the axial direction from the collar to the electrode 2 to the flange 7, which is rigidly fixed on the electrode 1.

The device works in the same way. When electrode 2 is rotated relative to electrod 1, the electric signal provides guaranteed contacting along the line with both of the electrodes. This is ensured by the elasticity of the springs and by the fact that the width of the annular cavity between electrodes 1 and 2 is somewhat smaller than the diameter of springs 3. It is advisable to make the springs with multidirectional winding. To ensure the control of the magnitude of the transient resistance and to ensure the same current distribution over each spring, each of them has an individual axial preload assembly. This is necessary due to the fact that no matter how precise the individual springs are made, they will never have the same properties as electrical and mechanical. Individual adjustment knots allow the level of various spring parameters. The adjustment node works as follows. When screwing the screw 5 into the nut 4, the spring 3 is compressed, leading to an increase in the contact pressure between the spring 3 and the electrodes 1 and 2, and consequently, to a decrease in the transient resistance of the contact assembly. In order to prevent the nut 4 from loosening during operation, it is split by a known method (not shown). Since each of the springs has free running in the axial direction and the springs do not rub along the electrodes, but run around them, the frictional forces are significantly reduced, which increases the service life of the proposed device. The proposed device is simple in design and technology to manufacture.

Claims (3)

1. SLIDING SUSPENSION DEVICE for transmitting electrical signals between parts rotating one relative to another, containing coaxially mounted stationary and rotating cylindrical electrodes, in the annular gap between which contact elements in the form of coil springs are installed, characterized in that, in order to simplify its design and increase durability, the springs are oriented along the axis of the rotating electrode and evenly fill the annular gap. U777 / 77 // U /// 7 // L 2. The device according to π. 1, characterized in that, in order to increase its reliability, neighboring springs are made with multidirectional winding. 3. The device according to paragraphs. 1, 2, differing in that, in order to ensure regulation of the transition resistance, each of the springs is equipped with an axial preload unit /