RU2548287C1 - Device for testing current collectors of electric stock - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for testing current collectors of electric stock should be equipped with a unit collecting wear products current-collecting elements, and this unit should be placed opposite the above wind load simulator and coupled to the unit weighing mass of wear products of current-collecting elements, at that dimensions of case bellmouth for the unit collecting wear products current-collecting elements exceed dimensions of the current collector slide.

EFFECT: enlarging functional capabilities of device.

1 dwg

Description

The invention relates to electrified railway transport, and in particular to devices for testing current collectors of electric rolling stock in laboratory conditions.

Closest to the claimed is a device for testing current collectors of electric rolling stock, consisting of a platform resting on a fixed base through a unit for simulating vibrations of the base of an electric rolling stock, with a tested current collector installed on it, containing a runner interacting with a contact wire connected to a block simulating vibrations of the contact wire , and a block simulating wind load directed into the contact zone of the current collector skid with the contact wire (Pat. No. 2466041 on the image (RF), IPC B60L 3/12, 5/00. Device for testing current collectors of electric rolling stock / OA Sidorov, IE Chertkov, AN Smerdin, SV Zarenkov, AV Tarasenko (Russian Federation). - No. 2011117070/11; Stated 05/20/2011; Publ. 10.11.2012. Bull. No. 31).

The disadvantages of the known device include the impossibility of studying the wear process of the collector elements, which is accompanied by intensive separation of particles of materials of the collector elements during the interaction of their surfaces. In addition, the wear products of the current collector elements are carried out from the contact zone of the current collector runway with the contact wire by the air flow created by the simulated wind load unit, which leads to environmental pollution (the room) in which dynamic tests of current collectors of electric rolling stock take place, especially when using coal, electrographic and metal-carbon inserts of current collectors.

The considered disadvantages are deprived of the proposed device for testing current collectors of electric rolling stock.

The aim of the invention is to expand the functionality of the device.

This goal is achieved by the fact that the known device for testing current collectors of electric rolling stock, consisting of a platform resting on a fixed base through a unit for simulating vibrations of the base of electric rolling stock, with a tested current collector installed on it, containing a runner interacting with a contact wire connected to the vibration simulation block contact wire, and a unit for simulating wind load directed to the contact zone of the current collector skid with the contact wire, the block is supplemented ohm collection of wear products of the collector elements, located opposite the aforementioned unit for simulating the wind load and connected to the unit for determining the mass of wear products of the collector elements, while the dimensions of the socket of the collection unit of the wear products of wear of the collector elements exceed the dimensions of the runner runner.

The figure shows a diagram of a device for testing current collectors of electric rolling stock.

The device consists of a platform 1, resting through a block 2 for simulating vibrations of the base of an electric rolling stock on a fixed base 3, with a tested current collector 4 installed on it, containing a runner 5, interacting with a contact wire 6 connected to a block 7 for simulating vibrations of the contact wire 6, block 8 simulating a wind load directed into the contact zone of the runner 5 of the current collector 4 with the contact wire 6 of the collection unit 9 of the wear products of the collector elements located opposite the said simulation unit 8 rovoy load and associated with the block 10 of determining the mass of wear current collecting elements.

The device operates as follows.

The tested current collector 4 is mounted on a movable platform 1, which, depending on the speed of movement, simulates the oscillations of the body of the electric rolling stock using the block 2 simulate the oscillations of the base mounted on a fixed base 3.

The runner 5 of the current collector 4 interacts with the contact wire 6 connected to the oscillation simulation unit 7 of the contact wire 6, defining its vertical and horizontal movements simulating the sag and the zigzag of the contact wire 6. By varying the frequency of horizontal and vertical vibrations of the contact wire 6, it is possible to simulate different speeds movements of electric rolling stock. In addition, it is possible to investigate the joint and separate influence of the sag arrow and zigzag of the contact wire 6 on the nature and type of wear of the current collection elements.

The aerodynamic effect of the oncoming or lateral air flow on the current collector 4 is realized by means of a wind load simulation unit 8.

To capture the wear products from the contact area of the runner 5 of the current collector 4 with the contact wire 6 opposite the wind load simulation unit 8, there is a block 9 for collecting wear products of the current collector elements, while the sizes of the socket of the block 9 are larger than the sizes of the runner 5 of the current collector 4. From block 9, wear products of the collector elements enter the block 10 for determining the mass of wear products of the collector elements, which allows you to explore the degree of wear of the collector elements and the resulting particles of wear.

The use of the proposed device for testing current collectors of electric rolling stock will expand its functionality by ensuring the collection of wear products of current collector elements throughout the test period, which will allow us to assess the degree of wear of current collector elements for various parameters of current collectors and contact suspensions. The capture of wear products of current collector elements, especially when using coal, electrographite and metal-carbon inserts of the current collector, allows to reduce environmental pollution (premises), in which dynamic tests of current collectors of electric rolling stock take place.

Claims (1)

Device for testing current collectors of electric rolling stock, consisting of a platform resting on a fixed base through a unit for simulating vibrations of the base of an electric rolling stock, with a tested current collector installed on it, containing a runner interacting with a contact wire connected to a block of vibration simulation of a contact wire and a wind simulation block load directed to the contact zone of the runner with the contact wire, characterized in that it is supplemented by a product collection unit and nasal current collecting elements disposed opposite said block simulate wind load and associated with the unit of determining the mass of wear current collecting elements, and the dimensions of the funnel collection unit wear products current collecting elements exceed the dimensions of the runner susceptor.

Images