SU1820335A1 - Pickup of threshold accelerations - Google Patents

Description

The invention relates to the field of control and measuring equipment, namely: to sensors that register threshold accelerations in various zones of industrial units (generators, machine tools, etc.).

The aim of the present invention is to improve the accuracy of the threshold and simplify the design.

The specified goal is achieved by that. that in the known sensor, the magnetic system is made in the form of a tubular cylindrical magnet located outside the housing, and a ferromagnetic screw located inside the housing above the ferromagnetic ball. com in this case, the ball is installed in the middle section of the magnet within + 20% of its height, and the contact slats are installed at a distance of not more than the diameter of the ball from the lower end of the magnet.

It was experimentally established that for tubular cylindrical magnets, the maximum induction is observed inside in the middle section. Therefore, a ferromagnetic ball placed inside a tubular magnet will hang in the field of magnetic attraction and gravity. Using this property allows you to automatically return the ball after moving under the action of inertial forces to its original position.

Placing the ball in the center of the tubular magnet makes it easy to adjust to the required attractive force by using an additional ferromagnetic mass installed near the ball.

Finally . to eliminate the contact rod, you can use the contact closure by the surface of the ferromagnetic ball.

The drawing shows a diagram of the sensor maximum acceleration. The sensor consists of a housing 1 with a tubular cylindrical magnet 2 mounted on it, pinched by a sleeve 3 with contact slats 4. A ferromagnetic magnet 1820335 Ai is located inside the housing

1> IR 5. held by the force of magnetic attraction. In the axial hole of the housing above the ball, an adjusting screw 6 of ferromagnetic material is screwed. The conclusions from the lamellas are connected to a control or recording device. The screw has a through hole for monitoring the sensor settings, closed by a plug 7.

The operation of the sensor is as follows.

Screwing the screw 6. when screwing in during assembly ensures threshold adjustment of the sensor (the force necessary to move the ball until the contact slats are closed).

When axial acceleration acts on the sensor in the zone of its fastening, which exceeds the threshold level of adjustment, the ball goes down, closing the contacts of the electric circuit. After the disappearance of acceleration, the ball rises to its original position under the action of the magnet's magnetic attraction, breaking the electrical target. The contact lamellas bend slightly when closed, which increases the duration of contacting and, consequently. signal energy especially with short acceleration pulses.

Experimental studies have established the optimal placement of the ball and contact lamellas relative to the magnet.

As a result, it was found that the optimal placement of the ball in the middle section of the magnet is within Λ 20% of its height, and the placement of lamellas at a distance of not more than one diameter of the ball from the lower end of the magnet.

When this distance increases, the ability to return the ball to its original position is hindered.

An experimental batch of sensors was manufactured at the institute and tested with a positive result under the influence of the maximum acceleration of 6 d, while the error in the response threshold did not exceed 3-5%.

The proposed sensor can find application as a threshold accelerometer in mechanical engineering and instrumentation.

Claims (1)

Claim A threshold acceleration sensor comprising a housing, inside of which there is a ferromagnetic ball with a contact system. and a magnetic system, characterized in that, in order to improve the accuracy of the response threshold and simplify the design, the magnetic system is made in the form of a tubular cylindrical magnet located outside the housing, and a ferromagnetic screw located on the housing above the ferromagnetic ball, while the ball is installed in the middle section of the magnet within ± 20% of its height, and contact lamellas are installed at a distance of not more than the diameter of the ball from the lower end of the magnet. Compiled by T. Macaroaa Editor Tehred M. Morgenthal Corrector L. Pilipenko Order 2028 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035. Moscow. J-35. Raushskaya nab .. 4/5 Production 1 Patent Industrial Publishing House, Uzhgorod. Gagarin St. 101