RU184966U1 - DEVICE FOR MEASURING FRICTION COEFFICIENT - Google Patents

Abstract

The utility model relates to measuring instruments and can be used to determine the coefficient of sliding friction between surfaces of various shapes and sizes. The device consists of a strain gauge sensor mounted cantilever in a precision guide moving with an electric motor that allows you to vary the speed of movement, moreover, the strain gauge sensor contains a leash configured to connect to the sample, and a connector configured to transmit a signal from the sensor. Effect: the expansion of the scope and the absence of special requirements for the shape of the samples of the studied materials. 1 ill.

Description

The invention relates to equipment for measuring the resulting frictional forces between the investigated surfaces moving relative to each other.

Most tribometers are based on electronic measuring equipment, for example, those presented in patents US 9,592,966, US 9,541,491, US 9,200,889 and RU 163380, mechanical tribometers - RU 165027, RU 150882, IPC - G01N 19/02 are also widely used.

Closest to the proposed technical essence is (patent US 9,752,969, IPC - G01N 19/02, 2017) a universal mechanical device for testing friction and wear, allowing you to perform various test protocols using a single machine. This result is achieved through the use of test modules, each of which is designed for a separate configuration. The modules are manually connected to the instrument base and automatically recognized to activate the correct software related to its configuration and test protocols (scripts). One engine, located in the frame of the device, drives the drive of each module through the transmission and the connecting mechanism, which automatically turns on when the module is mounted. This device allows the user to perform multiple tests with several configurations using one mechanical device and replaceable modules and accessories.

The disadvantage of this device is its limited or inability to study the tribological properties of the surfaces of the operated objects. To check the properties of the surfaces of real objects using this device, the manufacture of special samples is required.

The technical result of this utility model is the expansion of the scope and the absence of special requirements for the shape of the samples of the studied materials. This device is a universal device and allows you to measure tribological parameters of the working surfaces at the place of their operation or using samples of these surfaces in laboratory conditions.

The specified technical result is ensured by the fact that a universal device designed to measure the sliding friction coefficient of polymer and metal materials, consisting of an electronic module connected to a personal computer, a strain gauge sensor mounted on a precision guide of a universal device, moved by an electric motor through a gearbox and connected by a leash to the subject sample, can occupy an arbitrary position in space relative to the test machine and and sample determined leash length.

This design feature expands the scope of the device and allows the measurement of tribological parameters of samples of various shapes and sizes, as well as the parameters of the rubbing surfaces of machines and mechanisms without preliminary disassembly.

A device for measuring the coefficient of friction is illustrated in FIG. one.

Accepted designations:

1. Sensor Leash

2. Strain gauge

3. Precision guide

4. Electric motor system

5. Sensor connector.

A device for measuring the coefficient of friction consists of a strain gauge sensor pos. 2, connected by a leash pos. 1 with the test specimen and cantilever mounted in the precision guide pos. 3, moved by the electric motor pos. 4. The system is equipped with an end chopper that prevents damage to the system when the precision guide is moved to a non-working area. The engine control unit allows the movement of the sample at different speeds. The signal from the sensor is transmitted through the connector pos. 5 and is digitized by a strain gauge electronic module using software compatible with a personal computer and can be recorded on electronic media.

The device is based on a tensometric method for determining the coefficient of friction.

Friction arising from the motion of a pair of contacting samples during their relative displacement is estimated by a coefficient of friction equal to the ratio of the weight of the movable sample to the friction force.

where k _Tr is the coefficient of friction, P is the weight of the movable sample, F _Tr is the friction force.

The essence of the strain gauge method is to change the electrical resistance of the conductor during its deformation and measure the potential difference of the strain gauge bridge arising from the strain effect, i.e.

where k _Tr is the coefficient of friction, P is the weight of the movable sample, U is the electrical voltage that occurs in the strain gauge during deformation.

The friction coefficient is calculated using real-time software.

Claims (1)

A device for measuring the coefficient of friction, consisting of a strain gauge sensor mounted cantilever in a precision guide moving with an electric motor that allows you to vary the speed of movement, moreover, the strain gauge sensor contains a leash configured to connect to the sample, and a connector configured to transmit a signal from the sensor .

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