SU650142A1 - Current/collecting device - Google Patents

Description

This is achieved by the fact that the current collection device is equipped with a transition sleeve on which the current collector and switch of the recorded channels are placed, and the switch of the recorded channels is equipped with a separator with microswitches placed on the circumference, covered by the sleeve and can be fixed by balls, and on the surface of the transition sleeve a figure groove is made which includes a locking ball. FIG. 1 schematically shows a current collection device; in fig. 2 shows an embodiment of the sleeve; in fig. 3 — profiling groove for a ball; in fig. 4 - device diagrams. In this case, the current collection device consists of a mercury current collector 10 and the switch I. In the general case, instead of a mercury current collector, any transmitting device can be installed. The channel switch 11 consists of a separator 1 made of an electrically non-conductive material, in which microswitches 2 and two copper rings 3 electrically insulated from each other are mounted uniformly in diameter and at the same height. The outer sliding sleeve 4 is made of an electrically non-conducting material pairs of microswitches. The operating principle of the current collection device is as follows. In the static state — the shaft does not rotate — the left microswitch is in the “on” position. The signal from the sensor connected to this microswitch is transmitted to the copper rings 3, from them to the input of the mercury current collector, and then to the recording device. The remaining microswitches are in the "off" position. The position of the outer sliding sleeve corresponds to the position of the ball at point A in FIG. 3. To switch to recording the readings of the next sensor, it is necessary to rotate the outer sleeve to position the ball at point B. With this rotation, work is done against the elastic force of the spring nut. After removing the rotational force of the springs, the drive bush and ball are in position A. In this case, the next microswitch is triggered and the signal from the next sensor is sent to the registering device. The current collector works in the same way in the case of a rotating shaft. A braking moment is applied to the sleeve, by iodine action of which the ball moves from position A to position B, then, after the external force is removed, the spring will fix the external sleeve and ball at point A. Thus, they are alternately connected to the recording device through one mercury; a couple of all thermal or load cells. In order to ensure the reliability of the design, the sleeve 4 is fixedly mounted in the metal holder 5, in which the guide ball 6 and the gland screw 7 are located. The separator 1 and the current collector O are fixedly mounted on the transition sleeve 8, on which there is a figurine groove, the view is FIG. 3. A spring nut 9 is screwed onto the holder 5 and fixedly fixed. The connection circuit of the sensors and the output of the latter to the recording device is shown in FIG. 4. The current collector, which includes a one or two transmitting current collector and a rotary switch of the recorded channels, improves the accuracy and reliability of measurements, reduces the weight and size of the current collector, dramatically increases the number of recorded channels, and improves the reliability of the rotating current collectors. By changing the diametrical dimensions of the carrier sleeve, this current collection device can be mounted on shafts of various diameters. In the on-line version, the separator contains 12 pairs of microswitches, which allows operation with 12 thermal or 23 strain gauges. The microswitches are selected with the same ohmic resistance and are carefully tared before being installed in the separator. Without changing the essence of the invention, installing another mercury pair and another series of microswitches can double the number of channels recorded, etc. The form is invented and a current-collecting device containing a current collector channel and a switch of the channels to be recorded differs from that, in order to increase the reliability of operation and ensure ease of operation, it is equipped with an adapter sleeve on which the current collector and switch of the recorded channels are placed, and the switch of the recorded sleep channels A separator with microswitches placed on the circumference, covered by a bushing with a rotational magnitude and fixed by balls, and on the surface of the adapter bushing there is a figured groove, which includes a fixing ball. Sources of information taken into account in the examination 1. Zedginidze G. I. Measurement of the temperature of rotating parts. M., 1962. 2. Shushkevich V. А. Osnovy elektrentozenometrii. Minsk, 1975.

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