RU2704379C1 - Device for investigation of interaction of current collector with current distributor - Google Patents

Abstract

FIELD: electric transport.

SUBSTANCE: invention relates to electric transport, namely to devices for investigation of interaction of current collector with current distributor in laboratory conditions. Device for investigating interaction of current collector with current distributor, comprising current collector connected to vibration unit of rolling stock oscillations, current collector of which is brought into contact with working surface of current distributor, connected to current conductor oscillation simulation unit, atmospheric effects simulation unit directed to contact area of current-collecting element with current distributor, and control unit, outputs of which are connected to inputs of said blocks, is supplemented with an acoustic control unit made in the form of a microphone directed towards the contact of the current-collecting element and the current distributor and connected to the sound level meter, the output of which is connected to the data processing unit.

EFFECT: technical result is broader functional capabilities of device.

1 cl, 1 dwg

Description

The invention relates to electric transport, and in particular to devices for studying the interaction of a current collector with a current lead in laboratory conditions.

Closest to the claimed one is a device for studying the interaction of a current collector with a current lead, comprising a current collector connected to a vibration simulating unit of a rolling stock, a current collector of which is brought into contact with a working surface of a current lead articulated with a current conducting oscillation simulating unit, a weather simulation unit directed to the contact zone a collector element with a current lead, and a control unit, the outputs of which are connected to the inputs of the above blocks (Pat. No. 82638 useful U model (RF), IPC B60L 3/12. Device for investigating sliding contact / OA Sidorov, SA Stupakov, AN Kutkin, FM Filippov (RF) - No. 2008149397/22 ; Declared December 15, 2008; Publish. May 10, 2009. Bull. No. 13).

The disadvantages of the known device include the impossibility of measuring the environmental characteristics of the quality of the current collector, such as noise levels and electromagnetic radiation arising from the interaction of the current collector element of the current collector with the working surface of the current lead, which does not allow us to assess their impact on the environment in the nearby territory (tap).

The considered disadvantages are deprived of the proposed device for studying the interaction of the current collector with the current lead.

The aim of the invention is to expand the functionality of the device by controlling the impact of current collection devices of electric vehicles on the environment.

This goal is achieved by the fact that the known device for studying the interaction of a current collector with a current lead, comprising a current collector connected to a unit for simulating rolling stock vibrations, a current collector element which is brought into contact with a working surface of a current lead coupled to a current lead oscillation simulating unit, a weather simulating unit directed to the contact zone of the collector element with the current lead, and the control unit, the outputs of which are connected to the inputs of the above blocks, are supplemented with acoustic control lump, made in the form of a microphone, directed towards the contact of the collector element and the current lead and connected to the sound level meter, the output of which is connected to the data processing unit. In addition, the device is supplemented by an electromagnetic radiation control unit made in the form of an antenna directed towards the contact of the collector element and the current lead and connected to an electromagnetic radiation meter, the output of which is connected to the data processing unit.

In FIG. presents a diagram of the proposed device for studying the interaction of the current collector with the current lead.

A device for studying the interaction of the current collector with the current lead comprises a current collector 2 connected to the vibration simulation unit of the rolling stock 1, the current collection element 3 of which is brought into contact with the working surface of the current lead 4, coupled to the vibration simulation unit 5 of the current lead 4, an atmospheric simulation unit 6 directed to the zone the contact of the collector element 3 with the current lead 4, the control unit 7, the outputs of which are connected to the inputs of the above blocks 1, 5 and 6, the acoustic control unit 8, made in the form e microphone 9, directed towards the contact of the collector element 3 and the current conductor 4 and connected to the sound level meter 10, the output of which is connected to the data processing unit 11, as well as the electromagnetic radiation control unit 12, made in the form of an antenna 13, directed towards the contact of the collector element 3 and a current lead 4 and connected to the electromagnetic radiation meter 14, the output of which is connected to the data processing unit 11.

The device operates as follows.

The collector element 3 of the current collector 2 is brought into interaction with the working surface of the current lead 4, the vertical displacements of which are set by the vibration simulation unit 5 of the current lead 4 and copy its sag arrow. The unit for simulating the vibrations of the rolling stock 1 sets the movement of the collector element 3 of the current collector 2, copying the vibrations of the body of the rolling stock arising from irregularities in the track structure. The control units for the simulation of oscillations 5 of the current lead 4 and the vibrations of the rolling stock 1 is carried out using the control unit 7, which allows you to explore different modes of interaction of the current collector 2 with the current lead 4. The control unit 7 also controls the operation of the simulation unit atmospheric influences 6, which allows you to evaluate the impact on quality current collection of various weather conditions (dust, humidity and precipitation in the contact zone).

When conducting studies of various operating modes of the current collection system using the acoustic control unit 8, the noise level is measured that occurs when the current collector 3 of the current collector 2 interacts with the current lead 4, which uses a microphone 9 directed towards the contact side and a sound level meter 10 connected to the data processing unit 11 .

Using the control unit of electromagnetic radiation 12, the level of electromagnetic radiation arising from the interaction of the current collector element 3 of the current collector 2 with the current lead 4 is measured, which uses an antenna 13 directed towards the contact and an electromagnetic radiation meter 14 connected to the data processing unit 11.

The data processing unit 11, receiving signals from the acoustic control units 8 and the electromagnetic radiation control 12, processes them and gives the results in the form of numerical values of noise levels and electromagnetic radiation, allowing analysis and comparison with the maximum permissible levels established in regulatory documents, which gives the ability to assess the impact of current collector devices of electric transport on the ecology and the environment under various combinations of factors affecting during operation (speed izheniya and rolling oscillations sag wireways, atmospheric effects, etc.).

Changing the distance of the installation location of the microphone 9 and antenna 13 from the contact zone of the collector 3 of the current collector 2 with the current lead 4 allows us to evaluate the change in the degree of influence of noise and electromagnetic radiation on the environment and environmental safety in the nearby territory.

Using the proposed device to study the interaction of the current collector with the current lead will determine the environmental characteristics of the quality of the current collector (noise and electromagnetic radiation levels) and their impact on the environment under different operating modes of the current collector system, and, therefore, will make it possible to obtain more reliable information about the process of their interaction in conditions close to real, which is of great practical importance in the design of new designs of current collectors and current conductors Yes, with constantly tightening requirements to reduce the negative impact of electric vehicles on the environment.

Claims (2)

1. A device for studying the interaction of a current collector with a current lead, comprising a current collector connected to a unit for simulating rolling stock oscillations, a current collector that is brought into contact with a working surface of a current lead articulated with a current lead oscillation simulating unit, a weather simulation unit directed to the contact zone of the current collector a current lead, and a control unit, the outputs of which are connected to the inputs of the above blocks, characterized in that it is supplemented by an acoustic unit warning light, made in the form of a microphone directed towards the collector contact element and the current conductor and connected with a sound level meter, which output is connected to the processing unit. 2. A device for studying the interaction of a current collector with a current lead according to claim 1, characterized in that it is supplemented by an electromagnetic radiation control unit made in the form of an antenna directed towards the contact of the current collector element and the current lead and connected to an electromagnetic radiation meter, the output of which is connected to the unit data processing.

Images