SU712145A1 - Electrodynamic vibrator - Google Patents

Description

The invention relates to vibration technology and may find application in vibration test and vibration resistance test benches and other systems where mechanical vibration is required. An electrodynamic vibrator 1 is known, comprising a magnetic core with an annular working gap between the central core and the lid, a movable (sonic) coil installed in the working gap, and a cooling system through which the compressed gas cools the moving coil is blown. However, this device has disadvantages, which consist in the complex design of vibrators and the need for continuous consumption of coolant, the means of its production and transmission. The closest to the invention in its technical essence is an electrodynamic vibrator 2 comprising a magnetic core, sound windings, a bias winding placed on the frame, and a radiator. However, this electrodynamic vibrator has a complicated structure due to the presence of a cryogenic cooling system. The aim of the invention is to improve the vibrator cooling system. The goal is achieved by introducing a heat pipe into the vibrator, installed in the central axial hole made in the magnetic core, in the middle part of which a part of the heat pipe connected to the bias winding core is fixed, and the opposite part of the heat pipe is connected to the radiator. Radial heat pipelines, the frame and the part of the pipe connected to them are made of a highly heat-resistant material. The drawing shows an electrodynamic vibrator. The vibrator consists of a magnetic circuit made of two parts, an internal non-base 1 and a top-notch 2, connected by elements 3, sound windings 4 placed on mushroom-shaped projections of the base part 1 of the magnetic circuit, a bias winding 5 placed on the frame 6 and heat pipe 7. In the inner stationary part 1 of the magnetic circuit there is a central opening 8, in the middle part of which the lower part 9 of the heat pipe 7 is fixed and connected by radial thermal guides 10 to the frame 6. Moreover, the lower part 9 is a thermal pipe 7, the radial heat pipes 10 and the frame 6 are made of a highly heat-conducting material, for example copper. To improve the heat transfer from the heat pipe 7 to the environment, a radiator 11 is installed at its upper end. The working fluid 12 is placed in the heat pipe.

The vibrator works as follows.

A constant current is supplied to the bias winding 5, and an alternating current to the sonic windings 4. As a result of the interaction of the alternating electric field of the sonic windings 4 with a constant magnetic field created by the bias winding 5, the movable part of the magnet oscillates equal to the frequency of the alternating current. The heat generated by the winding of the secondary winding 5, which is the main source of heat (the heat generated by the sonic windings is relatively small), is transferred to the frame 6 and then through the heat pipes 10 to the lower part 9 of the heat pipe. In the latter, vapors of the working fluid 12 heat are transferred to the upper part of the heat pipe 7 and through the radiator 11 to the external environment.

In this way, the bias winding and sonic windings are cooled without any supply or flow.

cooling; the environment and the vibrator do not introduce significant complications, which increase the cost of its construction.

Claims (2)

1. Electrodynamic vibrator comprising a magnetic core, sonic windings, a bias winding placed on the frame, and a radiator different By the fact that, in order to simplify the cooling of the vibrator, a heat pipe is inserted into it, which is installed in the central axial bore made in the magnetic core, in the middle part of which a part is fixed heat pipe connected to the winding frame of the biasing radial heat lines, and the opposite part of the heat pipe connected to the radiator. 2. Vibrator according to claim 1, characterized in that the radial heat pipes, frame and the part of the pipe connected to them is made of highly heat-conducting material. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 389843, cl. B 06B 1/04, 1972. 2. Genkin I. L. et al. Electrodynamic vibrators. M., “Mechanical Engineering, 1975, p. 24