SU143872A1 - Impact Resistant Maximum DC Solenoid Valve Relay - Google Patents

Description

The task of ensuring the shock resistance of control relays operating, in particular, in electric drives of ships, is very complicated, since, apart from the need to ensure the absence of mechanical damage during high-intensity shocks, it is also necessary to ensure the absence of false positives of the relay, i.e. and contacts at blows. With respect to the overcurrent relay, this task is further complicated by its characteristic mode of operation, when the relay's measles are not pulled in and the coil flows around the normal operating current.

Accordingly, the aim of the invention is to increase the shock resistance of maximum valve-type electromagnetic relays consisting of an electromagnet, a balanced lightweight core, a return spring, and a spring stop.

The task is solved by positioning said spring stop on the same side of the axis of rotation of the core as the return spring, and using it simultaneously as a part on which this spring rests, so that mixing the stop under the action of the spring does not reduce the force of the return spring .

The proposed implementation of the relay achieves not only an increase in its shock resistance, but also a reduction in the labor intensity of its manufacture. The presence of a diamagnetic gasket at the pole of an electromagnet eliminates the pickup of the core during its short-term approach to the electromagnetic 1т.

FIG. 1 schematically depicts the proposed relay; in fig. 2 is an enlarged thrust relay assembly.

FIG. 1 and 2, the following notation is used; / - measles, 2 - electromagnet core, 3 - diamagnetic gasket, 4 - contact block, 5 - return spring, 6 - setpoint holder, 7 - its upper plane, 8 - adjusting nut.

№ 143872

The relay, in which the spring-loaded damping stop is made of several | de. Tons, increases the complexity of the manufacture of the relay and somewhat reduces the force of the return spring at the moment of pressing the stop. In the proposed relay, the depreciation is carried out without the use of a specially manufactured shock absorber, which is used as the holder 5 of the setpoint scale, more precisely, its upper plane 7 (Fig. 2). Such an embodiment of the shock absorber does not increase, but reduces the laboriousness of manufacturing the relay, since there is no need to use even the usual screw of the abutment and the part on which it is attached. The shock absorber and the return spring 5 of the relay are located on one side of the axis of rotation of the core n are aligned in such a way that the damping plane is on the other side the plane of the return spring support. Consequently, when the damping plane is displaced by the action of the core by an amount b, the distance between the stop of the adjusting nut 8 and the plane of the return spring support, as shown in FIG. 2, does not change), therefore, the built-in length of the return spring does not change and its force does not decrease.

A diamagnetic gasket 3 of a non-magnetic material installed over the core-.2, with appropriate selection of its thickness, as well as the stiffness values of the return spring 5 of the core and the opposing force of the block-contact 4, provides such a mutual arrangement of the characteristics of the opposing moments and the tractive characteristic corresponding to the normal operating current is 2.5 times less than the relay operation current, which ensures the return of the core, which is in the normal operating state under the action of external sludge in a position pressed to the core, in the released state after the disappearance of these external forces.

To reduce the vibrations of the core to a minimum, the proposed relay reduces the cross section of the core, thereby reducing its mass and inertial forces arising during shocks.

The anchor is balanced with its axis of rotation in two mutually perpendicular directions with the help of special weights, the location and mass of which are chosen so that the moments of inertial forces developed during the impacts with bark and weights are mutually compensated for in any direction of impact.

A possible imbalance of the core due to its displacement in the guides is minimized by reducing the amount of play in the node of rotation of the core.

To eliminate the vibrations of the contact system, a shock-resistant block-contact 4 with torque switching at the end of the graver stroke was used. The design of this block-contact and its location on the relay are such that measles affects it only immediately before approaching the core.

Subject invention

Claims (2)

1. A shock-resistant maximum DC solenoid valve, consisting of an electromagnet, a balanced lightweight core, a return spring, and a spring of the stop, characterized in that, in order to increase the shock resistance of the relay while reducing the complexity of its manufacture, the stop is located on the same side from the axis of rotation of the core, as the return spring is at the same time the part on which this spring rests. 2. The relay according to claim 1, so that, in order to eliminate the pickup of the core during a short-term approach to the electromagnet, the latter carries a diamagnetic gasket at its pole.