SU845024A1 - Device for measuring force at pressing contacts - Google Patents

Description

The invention relates to instrument engineering and can be used for measuring the force pressing the finger contacts electrical circuit breakers, complete switching devices and other electrical devices as in the unit, and a weight control in the laboratory ^5-valued, factory and field conditions.

A device for measuring the force of pressing contacts, containing a spring gramometer, measuring contacts. a logic circuit that is electrically connected with the measuring contacts and an indicator made in the form of three signaling devices [1] · This device has limited capabilities and does not allow direct measurement of the contact pressing force, since 15 signaling devices indicate only the pressure value area, and not the value itself the pressing force that you need to know when setting up electrical devices.

The closest in technical essence is a device for measuring ²⁰ contact pressing forces, containing levers transmitting force, elastic elements and transducers of a controlled parameter placed on elastic elements [2].

A disadvantage of the known device is the limited functionality, the instability of the measured magnitude of the pulling force and the lack of accuracy in determining the force of contact pressing, due to the indirect method of determining it.

The purpose of the invention is the expansion of functionality, increasing accuracy and stability.

This is achieved by the fact that the device for measuring the contact pressing force, containing the transmitting force levers, elastic elements and controlled parameter transducers placed on the elastic elements, is equipped with cams with hinges rigidly mounted on the transmitting force levers, and arranged to interact via hinges with elastic elements made in the form of consoles.

The drawing shows a kinematic diagram of the proposed device.

The device contains two power transmitting levers 1, with cams 2 rigidly fixed on them, interacting by means of hinges 3 with elastic elements 4, on which the transducers 5 are placed, for which, for example, resistance strain gauges connected to the input of amplifier 6 are used. Force transmitting levers 1 are installed pivotally in the housing 7 of the device. The elastic elements 4 are made in the form of a console.

The stops 7 are made in the housing 7. The finger contacts 9 transmit the force from the contact springs 10 to the levers 1.

The operation of the device is as follows.

In the initial position, the force-transmitting levers 1 under the action of the forces of the elastic elements 4 are in a horizontal position and freely rest on the stops 8. The bridge is assembled on the active load cells. resistance, in this position it is balanced and the signal at the output of amplifier 6 is absent. When measuring the pressure forces of the finger contacts 9, the force from the contact springs 10 is transmitted through the finger contacts 9, the power transmitting levers 1 and the cams 2 to the elastic elements 4, which are deformed under the action of these forces, while the strain gauge bridge is unbalanced and a signal proportional to the output of the amplifier 6 appears the magnitude of the force generated by the spring 10 of the finger contact 9. The signal from the amplifier 6 can be detected by any device.

The introduction of force-transmitting levers into the device allows using cams to convert the measured contact pressing force into the deformation of the elastic elements and, accordingly, the strain gauges glued to the elastic elements, which in turn cause a signal proportional to the measured contact pressing force in the electric circuit of ten5 amplifiers. By appropriate selection of the geometrical dimensions of the power transmitting levers and elastic cantilever beams, it is possible within a wide range • to change the sensitivity of the device and ¹⁰ measurement limits.

Claims (2)

these are by cams 2 interacting by means of hinges 3 with elastic elements 4, on which alternators 5 are placed, for which, for example, resistance strain gages connected to the input of amplifier 6 are used. Silo arm 1 is hinged in the housing 7 of the device . The elastic elements 4 are made in the form of a console. The supports 8 are made in the housing 7. The finger contacts 9 transfer force from the contact springs 10 to the levers 1. The device operates as follows. In the initial position, the transmitting levers 1 under the action of the forces of the elastic elements 4 are in a horizontal position and freely rest on the stops 8. The bridge is assembled on strain gauges active. resistance in this position is balanced and there is no signal at the output of amplifier 6. When measuring the force of finger contacts 9, the force from the contact springs 10 is transmitted through the finger contacts 9, the force-giving levers 1 and the cams 2 to the elastic elements 4, which, under the action of these forces, deform | {)) UUJ. IlCrlCiDii iTJ ..in / x v,, ij .. - j СЯ while the bridge load cells are unbalanced. A signal is generated at the output of amplifier 6, which is proportional to the magnitude of the force generated by the spring 10 of the finger contact 9. The signal from amplifier 6 can be registered with any device. The introduction of force-transfer levers into the device allows, through cams, to transform the measured pressing force of ontacts into the deformation of elastic elements, respectively, glued on the elastic elements of strain gauges, which in their turn cause a signal proportional to the measured force of the contacts in the electrical circuit of the strain amplifiers. By appropriate selection of the geometrical dimensions of the power-transmitting levers and elastic cantilever beams, it is possible to change the sensitivity of the device and the limits of measurement within wide limits. The invention The device for measuring the force of contact pressing, containing levers, transmitting force, elastic. Elements and transducers of a controlled parameter, placed on elastic elements, characterized in that, in order to enhance functionality, it increases accuracy and stability, it is rigid fixed on the levers, transmitting forces and arranged to interact by means of joints with elastic elements made in the form of consoles. г-, л.тт11 / -11тигг11лиОШ ГЮ1 / Л14 / Г Г and Sources of information taken into account during the examination 1 USSR Author's Certificate No. 574635, cl. G 01 L 1/04, 1977. 2. USSR author's certificate No. 466409, cl. G 01 L 1/04, 1975 (prototype). fs