SU1350693A1 - Swift-response switching device - Google Patents

Description

The invention relates to electrical engineering, namely to electric appliance building, and can be used as a high-voltage switch in devices with arc-free switching of high currents.

The aim of the invention is to increase the electrical strength and wear resistance of the device.

The drawing shows the device, the overall appearance.

The device consists of a housing 1 and two flanges 2 and 3 of insulating material, through which current-conducting rods 4 and 5 pass, insulated by a gasket 6. 7, assembled into an outlet 8. Each contact bridge is pressed against the current-supplying rod springs 9. The contact bridges 7 have a double-sided conical boring, which includes the conical parts of the dielectric cylinders 10 and 11, covering, one day each current-carrying section Rod .. All contact bridges 7 sockets 8 are supplied with two rollers 12 and 13, and 30 are installed on the surfaces of the current-carrying rods

on axes J4 in such a way that the rollers come into contact with the conical surface of cylinders 10 and 11. In case 1, an induction drive is mounted, consisting of two inductors 5 and 16 and a core 17, to which dielectric cylinder 10 and M are rigidly attached 18 rods (M 5t 3). The cylinder 1 1 is connected to the rods 18 by means of a transmission link in the form of equal-shoulder rocker arms 19, the rotation axes of which are located on the traverse 20. The rocker arms 19 have eyelets at the ends, by means of which they are hingedly connected to the support bar through a neutral

18 and a bracket 21 mounted on cylinder 11. On the outer side (panca 2, a clamp 22 is installed, made in the form of a reversible spring device with an unstable neutral. One support (internal) of this device is rigidly fixed on the flange 2, and with lead ends of the rods 18. The elastic element of the retainer 22 can be made either in the form of a cup spring (as in the drawing), or in the form K (where K5-M) are coil springs installed in radial

planes between two concentric mandrels. Precompression of the elastic element provides

pressing the core 17 to one of the inductors. The socket 8 is fixed in the housing 1 on the insulating ribs 23, remotely located along the inner surface of the housing. Rods and 8 pass in the space between the ribs. Insulating bushes 24 are worn on the power supply rods 4 and 5.

The apparatus works as follows.

When a current pulse is supplied from the storage capacitor to the inductor 16 through the key element of the drive control circuit, the bore 17 moves towards the inductor 15 under the action of electrodynamic forces.

Together with the core, the dielectric cylinder 10 and the rods 8 move. Due to equal-shoulder rocker arms 19, the dielectric cylinder 11 moves synchronously towards the cylinder 10. At the same time, the rollers 12 and 13, rolling over the conical surface of the dielectric cylinders, tear the contact bridges 7 from 4 and 5. The conical parts of the dielectric cylinders enter the contact gap formed, thereby providing a high electrical strength of the contact gap. When the output ends of the rods 18 are moving, the plane in which the external support of the toggle spring device lies lies in the direction of the plane in which the internal support is located. The coincidence of these planes is an unstable state for a fixed device. Therefore, an insignificant transition of the plane to the external pump-like change in the shape of the elastic element. After the flip spring device has triggered, the measles 17 are pressed against the inductor 15

50 by the elastic element 22 and is fixed in this position.

To close the contacts of the switching apparatus, a current pulse is applied to the inductor 15. Anchor 17 under

55 by the action of electrodynamic forces is not shifted towards the inductor 16, and the process of movement of all elements connected with it occurs in reverse order. With this conical

portions of the dielectric tns are disengaged from the contact gap, and the contact bridges 7 are pressed against the current-carrying rods m 4 and 5 by the action of the springs 9, closing the circuit of the switched current.

Claims (1)

Invention Formula A high-speed switching device comprising a drive, a housing inside which a contact system is placed in the form of a current-carrying rod and outlet fingers, spring-loaded to the rod, and a cylinder made of dielectric material connected to the drive and having a conical surface of the side facing the contacts, t-2o or less, the rods are separated from each other insulating gasket. lichyuschis that Editor I.Egorova  Compiled by N.Glekler Tehred I.Veres - Order 5287/50 Circulation 697 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production-printing company, Uzhgorod, st. Project, 4 In order to increase the electrical strength and durability, the contact system is equipped with an installed axially with the main additional power supply rod with an additional cylinder located on it from a dielectric material, the outlets are made in the form of contact bridges assembled in a cage fixed in the case on insulators , and provided with rollers in contact with the conical surface of both of the above-mentioned cylinders made of dielectric material, the drive is built into the housing and connected to one of the cylinders and Directly, and on the other, through the rods and the transmission link, rfpH4eM, the main and additional current supply, more commonly rods, are separated by m insulating gasket. Proofreader A. Obruchar