SU94391A1 - Mechanical Straightener - Google Patents

Description

The present invention relates to mechanical rectifiers with an individual contact circuit.

The applied powerful mechanical insulators do not have an individual contact pattern, a. They are supplied with a General drive, as was liked, from a synchronous motor and a mechanism that transforms the rotational motion of the motor shaft into a reciprocating motor: 1: contact.

Such a drive device has the drawbacks of complexity: the expensive and relatively fast wear of the mechanism, the difficulty of adjusting the contact time of the rectifier and the breakdown of the mechanism due to the uneven heating of its individual parts in the process.

In the proposed mechanical lock, these disadvantages are eliminated due to the use of an individual contact action carried out with the help of magnetic motors, the stator windings of which are connected to magnetic generators (or one magnetic generator), synchronous in motion, synchronous motor, nitrating 1 ton mil same networks as rectifier contacts. Both motors of synchronous and asynchronous magnetic motors can be used as motors for contact drives.

In cases where the rectifier is used in a bridge circuit, the structure is filled in such a way that one box-to-two sets in motion two steps.

The regulative rectifier time is controlled by changing the length of the runner's stroke.

FIG. 1 shows a device for one contact of a rectifier driven by an asynchronous and synchronous magnetic drive motor. The runner (1) of the engine is directly connected to the moving contact (2), alternately closing and disconnecting the stationary KOHTiaiKTbi (3) and (4). The stator (5) of the magnetofugal motor has a myogophase winding (not shown in the figure) fed from a magnetically charged generator driven by a synchronous motor powered by the same network as the contacts of the generator.

The magnetic motor of each contact is supplied by a separate magnetic generator, or one magnetic generator can power the motors of all contacts, for which it is necessary to install the corresponding Phase alternation in the windings of the motor stator of individual contacts.

FIG. Figure 2 shows a device, in which one runner (6) actuates two moving contacts (7) and (8) (polar and negative), which serve one rectifier phase in a bridge circuit.

The design of the contact device can be designed so that the runner’s movement is not accompanied by friction. This may be, naimimer, carried out and in the design of the design with a spring and a suspension of the runner, in which there are no rubbing parts (Fig. 3).

Changing the contact time can be done electrically through the work of the solver by adjusting the stroke length of the runners: as the stroke length increases, the contact time increases, while the stroke decreases, it decreases.

PRIOR DIRECTORATION

1. Mechanical exponent with individual contact drive, which is so that, in order to simplify the construction and the possibility of 1) Rugul pOEa or contact time, in the process of operation, the rectifier for the drive of the contacts is equal to the hardboard. (synchronous or asynchronous) motors, the stator windings of which are connected to magnetic generators (or generators), driven by a synchronous motor, which is threaded from the same network as the contacts of the generator).

2. Above point 1, characterized in that for using it in a bridge circuit, one runner leads to the movement of two contacts.

3. In recipe iio paragraphs 1-2 control the contact time by and ;; change the length of the runner's stroke.

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