RU206169U1 - Rebound pressure control device - Google Patents

Abstract

The device refers to testing equipment for the express method of measuring the pressure in tires of wheels, tanks and other containers, when other methods are difficult due to bad weather, wind, frost, etc. phenomena. The technical result consists in the fact that the body of the device is made of a ferromagnetic material, and the striker, rod, scale and handle are made as one piece, the rod has a ferromagnetic cover that fits tightly to the ends of the coil and magnet with the ability to move and break the magnetic circuit of the magnetic circuit when the striker rebounds from the tested capacitance, and one of the terminals of the coil going to the recording device passes through the diode. The pressure control device by the elastic impact method consists of a ferromagnetic body; a striker made in one piece with a rod cover, a handle and a scale; a spring worn on the rod, one end abutting the firing pin, and the other into the body; a ring magnet rigidly connected to the body and a coil, the turns of the wires of which have leads to the recording device, and one of the leads passes through the diode.

Description

The device refers to testing equipment for the express method of measuring the pressure in tires of wheels, tanks and other containers, when other methods are difficult due to bad weather, wind, frost, etc. phenomena.

Known device for determining cavities and defects in materials, based, like the proposed technical solution, on the method of elastic rebound [1]. However, this device requires a separate AC source to operate the solenoid motor, which accelerates and interacts with the striker, which is not suitable for the express method in the field.

The closest prototype to the proposed utility model is the invention "A device for the study of materials by the method of elastic rebound" [2].

The disadvantage of this invention is that the fixation of the rebound by the amount of compression of the spring depends on the inclination of the tube: horizontal, vertical or at an angle to the horizon, i.e. the amount of spring compression during rebound is summed up from the kinetic energy of the striker velocity after rebound and the potential energy when the striker falls from a height h, which noticeably affects the measurement accuracy.

To eliminate this drawback, the body (figure) is made of ferromagnetic material, and the striker, rod, scale and knob are made as one piece, the rod has a ferromagnetic cover that fits tightly to the ends of the coil and magnet with the ability to move and break the magnetic circuit of the magnetic circuit when the striker rebounds from of the tested capacitance, and one of the terminals of the coil going to the recording device passes through the diode.

The proposed technical solution for pressure control by the method of elastic rebound (figure) has a ferromagnetic housing 1, which is at the same time a guide tube with a scale, one end of which is intended to be supplied to the tested container; striker 2; made in one piece with a 3-rod cover; handle 4 and scale 5 as a single piece (2-5); the spring 6, put on the rod, rests against the firing pin 2 with one end, and against the body 1 with the other; parts 2,3,4,6 are the device's cocking mechanism; the ring magnet 7 is rigidly connected to the housing 1 and the coil 8, the turns of the wires of which have leads to the recording device 9, one of the leads passes through the diode 10. The inner diameter of the ring of the magnet 7 has a gap (sliding fit) with the surface of the rod.

The device (figure) works as follows: using the handle 4, the firing pin 2 compresses the spring 6 to the stop on the scale 5. When the operator releases the handle, 4 the spring 6 accelerates the firing pin 2, which hits the test container with its outlet end. After the impact, the firing pin 2 bounces off the surface of the vessel wall, while the ferromagnetic cover 3 opens the magnetic flux of the ferromagnetic body-rod-cover, causing an electric pulse in the coil 8, which is recorded by a pulse voltmeter 9, when the magnetic circuit breaks. closing of the magnetic circuit at the moment of impact of striker 2 on the tested surface, i.e. The voltmeter registers only a signal proportional to the rebound velocity u, and does not pass the impact velocity v signal through the diode.

At different pressures in the tested container, we have different rebound rates, which makes it possible to calibrate the device, i.e. on the scale of the device, along with the voltage, it has a corresponding pressure scale in the tested container.

Considering that the rupture of the magnetic circuit occurs at the moment of rebound of the striker 2 from the tested surface, the measurement does not depend on the position of the device: horizontal, vertical or inclined, i.e. we have a noticeably smaller measurement error than in the nearest prototype. In addition, the device consists of a small number of parts and is easy to manufacture and operate.

Literature:

1. USSR author's certificate No. 1262341, 601, No. 3/52. Bull. No. 37 dated 10/07/1986

2. USSR author's certificate No. 1270654, 601, No. 19/08. Bull. No. 42 dated 11/15/1986

Claims (1)

A pressure control device by the method of elastic rebound, containing a guide tube with a scale, one end of which is designed to be brought to the surface of the tested container, a striker and a spring cocking mechanism, located with the possibility of movement in the guide tube, and a handle at the other end of the guide tube, the cocking mechanism is made in the form of a spring-loaded rod located in the guide tube, characterized in that the body is made of a ferromagnetic material, and the firing pin, rod, scale and handle are made as one piece, the rod has a ferromagnetic cover that fits tightly to the ends of the coil and magnet with the ability to move and break the magnetic circuit the magnetic circuit when the striker rebounds from the tested capacitance, and one of the terminals of the coil going to the recording device passes through the diode.

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