RU196570U1 - PRECISION DEVICE - Google Patents

Abstract

The invention relates to current collecting devices using liquid metal as an intermediate layer, and can be used for receiving and transmitting electrical signals between stationary and rotating parts of machines. contact. An annular cavity is formed between the fixed and movable contacts. The liquid metal layer is placed in the annular cavity. A steel ball is installed between the fixed and movable contacts along the longitudinal axis of symmetry of the current collector in the liquid metal layer. 2 ill.

Description

The utility model relates to current collecting devices using liquid metal as an intermediate layer, and can be used to receive and transmit electrical signals between stationary and rotating parts of machines.

Known collector device [Patent RU No. 70414, bull. No. 2. Publ. January 20, 2008], including a stationary and rotating electrodes forming an annular cavity for liquid-metal contact. Mercury was used as the liquid metal contact, and the annular cavity was sealed with a felt seal.

A disadvantage of the known collector device is the low accuracy of the current transfer.

The technical result of the utility model is to increase the accuracy of the current transfer of the current collector.

The technical result is achieved by the fact that between the fixed and movable contacts an annular cavity is formed. The liquid metal layer is placed in the annular cavity. A steel ball is installed between the fixed and movable contacts along the longitudinal axis of symmetry of the current collector in the liquid metal layer.

In FIG. 1 shows a current collector; FIG. 2 - the same, view A.

The current collection device includes a housing 1 in which a fixed contact 2 is placed, interacting through an intermediate liquid metal layer 3 with a movable contact 4. An annular cavity 5 is formed between the fixed 2 and the movable 4 contacts. A liquid metal breakage 3 is placed in the annular cavity 5. Between the fixed 2 and the movable 4 contacts along the longitudinal axis of symmetry of the collector in the liquid metal layer 3 is installed steel ball 6. In the housing 1, placed bearings 7, which are placed on the movable contact 4. On the bottom intermeshing pin 4, is situated adapter 8, and screw 9 is fixed.

A clamp 10 is attached to the housing. Between the housing 1 and the clamp 1 10, a rubber gasket 2 ... 4 mm thick is installed. A bracket is attached to the clamp 10 (not shown in Fig. 1), which, in turn, is fixed to the housing 1. This is achieved by fixing the housing from scrolling and damping torsional and radial vibrations.

With a current collector device, operate as follows.

Previously, the current collector is attached through an adapter 8 to the crankshaft of an internal combustion engine (ICE). Then start the engine. An electromotive force is generated in the “sleeve-ring-piston” friction pair, the pulses of which are initially transmitted to the ICE crankshaft, and then through the movable contact 4 and the liquid metal layer 3 to the steel ball 6 and the stationary contact 2. From the stationary contact 2, the magnitude of the electromotive force is measured millivoltmeter (not shown in FIG. 1).

The use of the developed current collector will improve the accuracy of the current transfer of the current collector.

Claims (1)

A current collection device comprising a housing in which a fixed contact is placed, interacting through an intermediate liquid metal layer with a movable contact, characterized in that an annular cavity is formed between the fixed and movable contacts, the liquid metal layer is placed in the annular cavity, between the fixed and movable contacts along the longitudinal axis of symmetry a current collection device in a liquid metal layer, a steel ball is installed.

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