SU473897A1 - Device for remote measurement of small movements - Google Patents

Description

I

The invention relates to the field of measuring technology and can be widely used for measuring small mechanical movements in laboratory and industrial conditions.

In the known devices for dietary measurement of small interferences during the measurements of deformation and thickness, the electronic memory blocks and subtraction are irimeiene, which reduces the accuracy of measurements.

To improve the accuracy of the measurements, the proposed device is equipped with a double-sided circular reichord, on both sides of which spring-loaded arrows are located. For the period of measurement, they are successively pressed against the solenoid by electromagnets through the ring of lee rings, and to ensure the zero position during the measurement of each field, one of the arms has a stop.

FIG. 1 shows a general view of the proposal; in fig. 2 - the scheme of his work.

The device consists of a 1-hour indicator head, on which case 2 is installed, made, for example, of plastic. In the grooves of the case, three electromagnet 3 are fixed, angled 120 relative to each other on one side, and three electromagnet 4 arranged similarly on the other side

displaced relative to electromagnet 3. In the middle part of the body there is a ring, an evoy rheochord 5. A bushing 6 is pressed on the indicator axis, on which the measuring arrow 7 is fixed.

On the same bushing, the base arrow 8 is spring-mounted relative to the arrow 7 by a spiral spring 9, which is mounted on a sliding fit. To tighten the arrows 7–8 to the chooser, annular collector rings are respectively 10 and 11.

Each ring 10 and 11 is made with three poles 12 and 13, which are located in the grooves of the housing for electromagnets 3 and 4, respectively. Feet 12 and 13 should be made of soft magnetic materials to provide electromagnets 3 and 4 to the cores and fasteners to the rings 10 and 11.

To clamp the ring 11 to the reichord 5 through the arrow 8, use lamellar springs 14 placed between the poles 13 and electromagnets 4. Similar elastic springs 15 to depress the ring 10 from the reichord and release the arrow 7.

Structurally, each arrow 7 and 8 consists of two parts bonded to each other through an insulation. In this case, the end parts of these arrows 16 and 17 are made of metal with a strapped collector. On

Arrow 7 has a protrusion 18 that serves as a stop for arrow 8 when the device is installed before each measurement to zero, corresponding to zero potential difference between the current-collecting rings.

The front wall 19 of the device is transparent and provides observation of the measurement process. On the periphery of the body is closed by a ring 20.

The device works as follows.

At the beginning of the work, when the indenter 21 takes the position “a” (FIG. 1), the arrows 7 and 8 are aligned (FIG. 2, a). Under the action of the plate 14, through the three tabs 13, the collector ring 11 presses the arrow 8 against the reichord 5. The arrow 7 at this time is in a free state. In this case, both arrows are positioned against each other in such a way that the voltage drop, removed from the rail by means of current collector rings 10-I, is zero.

When the indenter is moved to the position "b" by the value Xi, the arrow 7, which is rigidly connected with the axis of the indicator head 1, is deflected by the angle φ (Fig. 2, b). After the electromagnets of the 3-tabs 12 and the associated collector ring 10 are turned on after a predetermined time, they are pressed against the reichord 5. The resistance of the reichord is measured along the length corresponding to the angle Φ1 and proportional to the XL value. bridge type NSM-4.

After measuring, for example, electromagnets 4 are turned on for 0.5-1 sec, attracting legs 13 and pressing out ring 10, after which the released arrow 8 under the action of spring 9 turns to touch protrusion 18 on arrow 7.

The electromagnets 4 are turned off, and the arrow 8 is pressed by the springs 14 to the reichord. The electromagnets 3 are turned off, and the arrow 7 is again freely moving relative to the arrow 8, which is the starting point, but now proportional to the distance X2 by the angle Φ2 (Fig. 2, at).

Subject invention

Device for remote measurement of small movements, comprising a housing with a sight glass embedded in the housing

The indicator of hour tina, ring reohord connected to the measuring circuit, and pamdti and subtraction units, characterized in that, in order to increase the measurement accuracy, the indicator of the hour type is equipped with two

arrows with current collector tips, one of which is rigidly fixed on the indicator axis, and the other on the same axis is installed freely and spring-loaded relative to the first arrow, and the current collector tips interact with the resistor through rings made of ferromagnetic material, controlled by electromagnets located circumferentially in the housing and connected to the measuring circuit.

Fig

Fig 2