SU1198587A1 - Contact system for electric device - Google Patents

Description

The invention relates to electrical engineering, in particular to the contact systems of electrical devices and can be used in high-current compact contactors.

The purpose of the invention is to improve the accuracy and manufacturability of the regulation of contact pressing.

FIG. 1 schematically shows the contact system of the electrical apparatus, a general view; in fig. 2 - the same, side view; in fig. 3 - kinematic control scheme.

The contact system of the electrical apparatus contains a yoke 1, movable contacts 2, an insulating element 3, a spring 4, a supporting element 5, crackers 6 and 7, guide elements 8, an adjusting screw 9.

In the cage 1, at least one movable contact 2, an adjusting screw 9, a supporting element 5, an insulating element 3 and a spring 4 are installed, which through the insulating element 3 resiliently contacts one end with the movable contact 2 and the other with a supporting element 5.

On the supporting element 5 and the yoke 1, the bevels are made which are the guiding elements 8. The crackers 6 and 7 are located between the guiding elements 8 and have the ability to move (slide) along the bevels of the yoke 1 and the supporting element 5. The crackers 6 and 7 are interconnected by an adjusting screw 9.

The contact system of the electrical apparatus may contain several movable contacts 2 arranged in series one after the other along the axis of the cage 1. Rusks 6 and 7 can be made, for example, of a cylindrical shape.

Adjusting the magnitude of the contact pressing as follows.

When the adjusting screw 9 is screwed in, one moves toward each other of the crackers 6 and 7, which slide along the guiding elements 8, which leads to raising of the supporting element 5 and compressing the spring 4. The contact pressure increases smoothly. When loosening the adjusting screw 9, there is a gradual decrease in contact pressing.

Improving the accuracy of the regulation of contact pressing can be seen from consideration of the kinematic control scheme (Fig. 3).

The main lines (Fig. 3) show some initial position of the guide elements 8 and crackers 6 and 7, the dotted lines show their position after adjustment. The change in the distance between the breadcrumbs 6 and 7 in the process of regulation Δ is equal to two segments BL. In this case, the supporting element 5 rises (i.e., compresses the spring 4) by an amount of 6 (segment N0).

From the similarity of ASB and CMC triangles we get

6 = Δ · ί £ - ^,

where a is the angle between the guides.

Analysis of the formula shows that in the proposed device with the same thread pitch as the prototype, the angle of rotation of the adjusting screw 9 and the angle a is less than 90 °, the compression of the spring 4 is less. For example, when a = 28 ° to ensure the same compression of the spring 4, the angle of rotation of the adjusting screw in the proposed device is 4 times larger, therefore, the accuracy of regulation of the contact pressing increases.

Three forces are applied to rusk 6: the force P from the spring 4 acts with the force Pn = ^ - so5- ^; reaction of the holder 1 P _p , equal in magnitude to Pn, and the force Pb from the adjusting screw 9, which holds the cracker. From the equilibrium condition of these forces we get

Ρβ = 2Ρπ · 5ΪΠ- ^ ·

or

P == P4§ ^.

From the formula it follows that the tensile force P (P = –Pv) of the adjusting screw 9 (at a <90 °) is less than in the prototype, and at a = 28 ° the force P is 4 times less. This allows you to select the adjustment screw with a smaller thread pitch, which also increases the control accuracy.

The direction of movement of the adjusting screw 9 is perpendicular to the axis of the spring 4, which improves the manufacturability of the regulation. In a multi-contact bridge system with a series arrangement of moving contacts, the regulation process is carried out with standard tools in a comfortable position and does not require an increase in the distance between the contacts, in that it does not require an increase in size, thus improving the manufacturability of contact pressure control.

1198587

FIG. 2

Claims (2)

CONTACT SYSTEM OF ELECTRICAL APPARATUS, containing the clip and at least one movable contact located in it, an adjusting screw, a supporting element and a spring located between the moving contact and a supporting element, characterized in that, in order to improve the accuracy and manufacturability of the control of contact pressing, it is equipped with two breadcrumbs to each other, the surfaces of the cage and the support element are made bevels, which are the guiding elements for crackers, the crackers are located between the guiding elements with the possibility of sliding along their surfaces and interconnected by an adjusting screw. FIG. one 1198587 one 2