SU742720A1 - Vibration shock pick-up - Google Patents

Description

The invention relates to a vibration measuring technique, namely to devices for protecting objects from high levels of vibration.

Known vibro-impact sensor comprising a housing mounted therein gai elastic element ⁵ in the form of membranes and absorbing element mounted thereon £ 1].

The disadvantage of this device is the inability to provide relay characteristics of the device.

The purpose of the invention is the provision of relay characteristics.

Ego is achieved in that the sensor is provided inside the housing unit regu- _($ feasting longitudinal compression of the elastic member acting on the cylindrical surface of the latter and interacting with the inertial element of a limit switch and a latch mechanism jq 'nism its cocking.

In FIG. 1 shows a diagram of a shockproof sensor; in FIG. 2 - dependence of the strength of the elastic element acting on the inertial element, from mixing the latter relative to the sensor housing.

The vibration-shock sensor contains a housing 1, an elastic element 2 fixed therein in the form of a membrane, and an inertial element 3 mounted therein. It is equipped with a longitudinal compression unit 4 for adjusting the longitudinal compression of the elastic element 2 acting on the cylindrical surface of the latter. It is also equipped with a limit switch 5 interacting with the inertia element 3 and a latch 6 with its platoon mechanism 7.

The vibration shock sensor is as follows.

The vibration-proof sensor is fixed on the protected object. When it vibrates below the level of adjustment, the inertial element 3 is pressed against the housing 1 by the initial transverse force R _o . When the vibration increases above the level of adjustment, the inertial element 3 lags behind the housing 1 during oscillations. If the mixing value 3 exceeds a certain critical value (at which the transverse force of the elastic element 2 changes its sign, the inertial element 3 moves until it is locked by the latch 6 in the extreme right position (d '.

If SG * is not exceeded, then the inertial element 3 returns to its original position. At the moment of its achievement, the inertial element Z. collides with the housing 1. By implementing a certain dependence of the transverse force acting on the inertial element 3 depending on the amount of mixing, it is possible to actuate the device when the vibration level is reached due to an increase in the speed of the inertial element 3 at the moment of its separation from the housing 1 after the previous impact.

When the inertial element 3 is moved from its initial position until it is fixed by the latch 6, it acts on the limit switch 5. To prevent the inertial element 3 from spontaneously returning to its initial position, a latch 6 is provided. The inertial element 3 is returned to its original position using the cocking mechanism 7.

Rough adjustment of the sensor is carried out by an inertial element 3, exact elastic element 2.

The advantage of the proposed sensor is that it provides a relay response.

Claims (2)

The invention relates to vibration measuring equipment, namely, devices for protecting objects from high levels of vibrating systems. Known vibro-impact sensor, comprising a housing, an elastic element fixed therein in the B1 of the membrane and an inertial element l mounted on it. The disadvantage of this device is the impossibility of ensuring the relay performance of the device. The purpose of the invention is to provide a relay characteristic. This is achieved by the fact that the sensor is provided with a unit for regulating the longitudinal compression of the elastic element located in the housing, acting on the cylindrical surface of the latter and interacting with the inertial element by a limit switch and a latch with its cocking mechanism. FIG. 1 shows a diagram of a vibration-proof sensor; in fig. 2 shows the dependence of the force of the elastic element acting on the inertial element on the displacement of the latter relative to the sensor body. The vibration-sensing sensor comprises a housing 1, an elastic element 2 in the form of a membrane fixed therein and an inertial element 3 installed therein. It is provided with an assembly 4 for adjusting the longitudinal compression of the elastic element 2 acting on the latter’s cylindrical surface. He is also equipped with interacting with the inertial element 3 limit switch 5 and the latch 6 with the mechanism 7 of its platoon. The operation of the vibration impact sensor is as follows. The vibration sensor is attached to the protected object. When it vibrates below the setting level, the inertial element 3 is pressed against the body 1 by the initial transverse force T o. As the vibration increases above the tuning level, the inertial element 3 lags behind the housing 1 when it oscillates. E1SRHL displacement exceeds a certain critical value (o) at which the transverse force of the elastic element 2 changes its sign, then the inertial element 3 moves until it is fixed by the hook 6 extreme right position {(Y). If the SG is not exceeded, then the inertial element 3 returns to its original position. At the moment of its achievement, the inertial element 3 collides with the body 1. By implementing a certain character of the dependence of the transverse force acting on the inertial element 3 depending on the displacement amount, the device can be operated at the reached level of vibration by increasing the speed of the inertial element 3 at the moment its detachment from housing 1 after the previous impact. When the inertial element 3 is moved from the initial position to the latch 6, it acts on the end switch 5, to prevent the inertial element 3 from returning spontaneously to the initial position, the latch 6 is provided. The inertial element 3 is returned to its initial position using the mechanism platoon 7. 7 04 Coarse adjustment of the sensor is carried out by the inertial element 3, the exact elastic element 2. The advantage of the proposed sensor is that it provides a relaying characteristic of the trigger. Invention Formula: Intrinsic sensor, enclosing body, fixed in whom an elastic element in the form of a membrane and an inertial element mounted on it, so that with the purpose of ensuring a relay characteristic, it is equipped with the body of the control unit for longitudinal compression of the elastic element acting on the cylindrical surface of the latter, and interacting with the inertial element end terminal and the latch with the mechanism of its platoon. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 113441, cl. G 01 H 3/12, 1956 (prototype). K {6) m Jf (s) 6-L-XfTi Tto / s. tal