SU679746A1 - Shock absorber - Google Patents

Description

I

The invention relates to instrumentation, in particular, to shock absorbers used to protect electronic equipment from the effects of shocks and vibrations in the presence of linear overloads.

 A shock absorber is known comprising a base plate, a flange associated with a depreciable object, a main elastic element, an additional elastic element made in the form of a spring bushing and located between the flange and the base plate, a copier mounted along the axis of the main elastic element connected with the flange, having an average cylindrical section and extreme sections in the form of truncated cones with curvilinear generators, with smaller bases facing Hbix to the middle section of a copier, a collet mounted inside a spring hub, stki which interact with the copier, the copier and the large base are provided with flanges with conical surfaces which taper smaller than the taper collet petals ij.i

However, this device does not provide a sufficiently effective vibration insulation under linear overload conditions, and also does not limit the ultimate deformation of the collet and spring hub, which is especially important under the conditions of the spatial nature of the force effect on any carrier.

The aim of the invention is to improve the vibration isolation under the conditions of linear overloads.

This is achieved by the fact that it is provided with a guide rod fixed on the base plate, and the copier is made hollow, inside of which is located the main elastic element, one end of which rests on the end of the copier and the other is fixed on the rod.

In addition, in order to limit the ultimate deformation of the collet and spring bushing, the flange is made in the form of a cup that encloses the spring bushing, the inner surface of which at the free end is made in the form of one and a half ps surface with a convexity inward, and on the outer surface of the spring bushing as well end face, vypapiena. polutorov surface with a convex outward.

The drawing shows the proposed shock absorber in the section, a General view.

The shock absorber contains a support plate 1, the main elastic element, made in the form of a spring 2, and an additional elastic element, which is a split spring sleeve 3. On the outer surface of the sleeve, at its free end, there is a torus papui. surface 4 bulge. Inside the spring bushing, a collet 5 is installed, the petals 6 of which are inserted through the elements of the head 7 with a hollow copier 8. The hollow copier starts from the middle cylindrical section, 9, the extreme sections 10 and 11 in the form of truncated cones with curvilinear generators and flanges 12 and 13 on large bases of cones. In the upper part, the hollow copier is connected to a flange, made in the form of a cup 14, which encompasses the outside of the spring sleeve 3 and has a 1.5-sided surface 15 with a bulge inward at the free end. The main elastic element-spring 2 is installed inside the hollow copier on the guide rod 16 ,. mounted on the support plate 1. Between the mother-in-laws of the hollow copier 8 and the spring 2 there is an adjustable washer 17.

To facilitate the assembly of the shock absorber, the complete copier 8 may be made composite in the middle cylindrical section 9, in which both parts of the copier are either screwed together or pressed on one another.

At the top is the cylindrical section of the copier & flared, that ° provides its connection with the glass 14. To eliminate the rotation of the copier 8 relative to the glass 14 when securing the depreciable object in the upper end of the copier, holes are drilled into which the leaves are cut into the glass.

The shock absorber works as follows. ..

Under the action of mechanical vibrations, the copier 8, together with the cup 14, receives the maximum movements upwards or downwards relative to the backplate 1. In

In this case, the flange 12 or 13 with its conical surface acts on the contact elements of the head 7 and further deforms the petals 6 of the collet 5 and the spring sleeve 3. The deformation of the elastic elements is limited when the copier 8 moves up due to the interaction of the half-surface 4 of the spring sleeve 3 with the inner cylindrical the surface of the glass 14 and the piero surface 15 at the free end of the glass, and when moving the copier 8 down - with the inner cylindrical surface of the glass 14 and its end. Consequently, the impact of significant mechanical loads, close to emergency ones, in a shock absorber does not lead to breakage of the petals 6 of the collet 5 and the spring bushing 3. At the same time,

The separation of a depreciable object (apparatus) from the shock absorber® and the carrier.

one

With the side movement of the copier within the gaps (up to 1 mm) between the contact elements; Gopsdak 7 and cylindrical; The surface of the middle section 9 of the copier 8 is working (deformed) only the spring 2.

Upon further movement of the copier 8, caused by a shock or linear overload, the contact elements of the head are activated.

7tsang 5.

The contact elements of the head 7 can be seen along their own; arc of a circle whose diameter is equal to the diameter of the middle cylindrical section 9 of copier 8, and the petals 6 of the collet 5 are deformed. Along with the elastic deformation of the petal collet 5 And spring, the sleeves 3, friction occurs between the contact elements of the head 7 of the collet 5 and the section 9 of the copier 8. The middle cylindrical section 9 plays the same role as the extreme sections 10 and 11 when the vertical moving the copier 8.

With increasing copier movement

8, the total force characteristic of the shock absorber increases the proportion of the friction force between its contact elements and decreases the proportion of the elastic force contraction of the deformation of the petals 6 of the collet 5 and the spring sleeve 3.

Thus, an optimal force characteristic in all directions of its deformation has been achieved in the shock absorber.