SU1254118A1 - Vibration insulator for support - Google Patents

Description

The invention relates to the construction and implementation of vibration isolators for vibroisolation of foundations and foundations from equipment placed on them, and can be applied in all areas of technology that require vibroisolation.

The purpose of the invention is to increase the efficiency of vibration insulation by reducing the dynamic loads during the restructuring of the stiffener.

The drawing shows vibration isolator, longitudinal section.

The vibration isolator includes a housing 1 installed between the foundation 2 and the source of vibration 3. A rigid connection of the housing 1 with the foundation 2 is carried out through the slab 4. In the housing 1, a swivel 5 is movably mounted, connected by a top coppa to the source 3 of vibration. A spring 6 is installed between the rod 5 and the plate 4. On the rod 5 there is an annular slider 7, which interacts with a stiffener consisting of prismatic knives 8 and cantilever springs 9. The springs 9 are fixed with their lower ends on the body. In the inner cavity of the housing 1, a slide travel stop is movable relative to it and 5, consisting of the upper 10 and lower 11 annular stops, which are spring-loaded relative to the housing by springs 12 and 13 respectively. In the case and in the limiter 10 there are openings 14 and 15 for the knives 8. In addition, a damping cavity 16 is formed between the housing and the lower stop 11, in order to dampen, if necessary, the oscillation of the limiter. The mass of the limiter is chosen by the larger mass of the slider.

The vibration isolator works as follows.

At constant load, the oscillations of the source 3 vibrations are perceived by the rod

5 and a spring 6. The lower end of the rod 5 is connected to the stiffness compensator through the slider 7. When the slider 7 oscillates, together with the rod 5, the knives 8 perform knurling movements relative to the points of their contact with the springs 9. At the same time, the total vertical component of the knives 8 par springs 9 and through them to the housing 1 is always equal in magnitude, but opposite in sign of the dynamic component from the effect of spring 6 on the housing, since the rigidity of the stiffness compensator is chosen equal in magnitude but opposite in sign to the rigidity of spring 6. Su Marne support rigidity is close to zero, and consequently the total force on the foundation vozdeystvuyusch.a, remains constant and equal to the largest static load. Therefore, the dynamic loads associated with these oscillations are not transferred to the foundation.

When the load changes, the rod 5 either sags relative to the housing, or rises, depending on whether the load increases or decreases. Crawl 7 at this m periodically encounters movable spring-loaded ring lugs 10 and 11, which in total have a greater mass than the slider. Therefore, the slider 7 slips against the rod 5 while these collisions occur. Due to such displacement of the slider, the stiffener stiffener is adjusted to the new load, it is not turned off from work and maintains the total support stiffness close to zero.

The proposed vibration isolator allows, in order of magnitude, to reduce the dynamic loads on the foundation that arise when the stiffener is rebuilt, i.e. to implement a smoother restructuring of the support on the new load and, thus, noBbuNirij c-efficiency of vibration isolation.

Claims (2)

1. VIBRATION ISOLATOR, comprising a housing mounted between the foundation and the vibration source, a rod located vertically in the housing, a shock absorber located between its lower end and the base of the housing, a slider covering the stem and interacting with a stiffener made in the form of prismatic knives and cantilever springs , and a slider stroke limiter, characterized in that, in order to increase the vibration isolation efficiency by reducing dynamic loads during the adjustment of the stiffener, the stroke limiter the slider is in the form of upper and lower abutments and damping ring members, wherein the abutments are arranged on the rod movably thereon and adapted to mass exceeding massupolzuna and damping elements are arranged above the upper and below the lower annular abutments and cooperate with the housing. 2. Vibration isolator according to π. 1, characterized in that it is equipped with vibration dampers of the slider, placed between the housing and, respectively, between the upper and lower annular stops. SU ₍₁₁ , 1254118