CS257967B1 - Linear bi-directional hydraulic dynamometer - Google Patents

Abstract

The linear bidirectional hydraulic dynamometer is designed for sensing forces that cause alternating tension or pressure at different time intervals. The purpose of the solution is to enable measurements in heavy-duty operations, for example in deep mines. The essence of the solution is that an inner cover with a first handle is arranged around the chamber in which the piston is located, and an outer cover with a second handle is arranged around the inner cover, sliding relative to the inner cover. The chamber is firmly connected on one side to a first pin passing through grooves formed in the covers, across both covers, and on the opposite side of the chamber, a second pin is located opposite the first pin, which is connected to the piston and is located in recesses formed in the covers. The linear bidirectional hydraulic dynamometer can also be used to measure torques in both directions of rotation, to measure the adjusting forces of automatic transmission forks, and wherever tension or pressure is measured.

Description

The invention relates to a linear bidirectional hydraulic dynamometer by means of which it is possible to sense forces causing alternate thrust or pressure alternately at different time intervals, suitable for measurement in heavy duty operations, for example, underground mines.

Until now it is possible to measure the forces exerting alternately tension or pressure by means of strain gauges, but this requires expertise and a second measuring apparatus. These measurements are suitable for laboratories or lighter operations, but not for heavy operations such as underground mines. Here, minimum failure rates, simple, undemanding operation and maintenance are required even at longer measurements. A hydraulic bidirectional dynamometer - tensiometer / pressure gauge has been developed for use in underground mines. It consists of two working spaces with two pistons and two pressure gauges. The disadvantage of this device is a larger measurement error, poor venting and poor neutral center positioning.

From Czechoslovak Patent No. 144 192, a hydraulic tensometer is known, formed from a housing in which a housing is displaceably disposed including a piston which is connected to a caliper arranged transversely of the housing and connected to the housing. This device is intended for tension measurement only, but not pressure measurement.

The above drawbacks are overcome by a linear bidirectional hydraulic dynamometer consisting of a cylindrical chamber in which the piston is accommodated, according to the invention. It is an object of the present invention to provide an inner cover with a first grip around the chamber and an outer cover with a second grip displaceably disposed around the inner cover, the chamber being rigidly connected to a first pin extending transversely through the grooves formed in the covers. with the second housing and on the opposite side of the chamber, a second housing is located opposite the first housing, which is connected to the piston and is received in recesses formed in the housing.

The main advantage of the linear bi-directional hydraulic dynamometer according to the invention is only one working space and thus one calibrated pressure gauge for both loading directions, thus reducing the measurement error and the possibility of damage. The device according to the invention is not difficult to manufacture, can withstand rough handling, easier to fill and deaerate.

An exemplary embodiment of a linear bidirectional hydraulic dynamometer is shown in simplified form in the accompanying drawing in axial section.

The linear bi-directional hydraulic dynamometer consists of a cylindrical chamber 6 in which a piston 11 is mounted. An inner housing 2 with a replaceable first grip 21 is arranged around the chamber 7 and an outer housing 8 with a replaceable second grip 31 is displaceable around the inner housing 2. On one side, the chamber 6 is firmly connected to a first pin 8 passing through grooves 22, 32 formed in the housings 2, 6 across the two housings 2, 6. The first pin 5 is locked against falling out, for example by means of a screw 41. On the opposite side of the chamber 8, a second pin 5 is positioned opposite the first pin 5, which is connected to the piston 11. In this embodiment. pins 61 of the second pin 5, thereby preventing it from falling out. The second pin 5 is received in recesses 23, 33 formed in the covers 2, 6. The chamber 4 of the chamber 4 is filled with hydraulic fluid.

When applying tension to the first grip 21 and the second grip 31, the action of the outer cover 5 is transferred via the second pin 5 to the piston. The reaction is brought about by the inner casing 2 through which the chamber 6 is applied via the first pin 6. The resulting hydrostatic pressure of the working medium in the space 6 is sensed by a calibrated pressure gauge, not shown, which is connected to the sleeve 13.

When applying pressure to the first grip 21 and the second grip 31, the action of the outer cover 8 is transmitted through the first pin 6 to the chamber 6. The reaction is brought about by the inner casing 2, the action of which is transferred via the second pin 6 to the piston. The resulting hydrostatic pressure of the working medium in the space 6 is sensed by a calibrated pressure gauge (not shown).

The linear bidirectional hydraulic dynamometer according to the invention can also be used to measure torque in both directions of rotation, to measure the adjusting forces of the forks of automatic transmissions and wherever tension or pressure is measured.

Claims (1)

Linear bidirectional hydraulic dynamometer consisting of a cylindrical chamber in which a piston is mounted, characterized in that an inner housing (2) with a first grip (21) is arranged around the chamber (1) and is displaceable relative to the inner housing around the inner housing (2). (2) an outer cover (3) is provided with a second grip (31), the chamber (1) being firmly connected on one side to a first pin (4) housed in grooves (22, 32) formed in the covers (2, 3) across the two covers (2, 3) and on the opposite side of the chamber (1) a second pin (5) is located opposite the first pin (4), which is connected to the piston (11) and housed in recesses (23, 33) formed in the covers (2, 3). 1 drawing