RU2180059C1 - Impact-protecting platform - Google Patents

Abstract

FIELD: mechanical engineering, protecting against low-frequency and impact actions of large amplitude, protecting against vibration impact overloads of equipments working in conditions of transporting loads of different sizes. SUBSTANCE: impact-protecting platform contains external rectangular frame. The platform for mounting the protecting object is placed inside the frame. The external frame and the platform are interconnected through parts of flexible steel rope passing along each side of the external frame through bushing supports. The bushing supports are placed on the external frame and on the platform. Ends of the rope through angle supports are placed of the spring units. The spring units are placed outside the frame on the adjoining sides. EFFECT: enhanced protecting. 1 dwg

Description

 The invention relates to the field of engineering and is intended to protect racks and cabinets REA from powerful low-frequency and shock effects of large amplitude and duration transmitted through the base in horizontal and vertical planes. It can be used for protection against vibration-shock overloads of equipment operating on the go and during transportation of various kinds of overall cargo.

 To ensure effective quenching of the energy of the shock pulse and to reduce the acceleration amplitude to safe limits, it is necessary to ensure significant displacement of the shock-absorbing object at the time of impact both in the vertical and horizontal planes.

 One of the analogues of the shockproof platform is the system of the pendulum suspension of the platform to protect the equipment from a horizontal seismic wave, which is a platform hung on suspensions mounted on their hinges in the upper part, ensuring the swinging of the platform under external impact [1].

 The disadvantage of such a system is the need to ensure depreciation of the site in a vertical plane, i.e. suspensions themselves must be able to longitudinally elastic displacements sufficient for effective protection against impact in the vertical plane.

 The pendulum suspension system itself is very cumbersome, requires a specially equipped room, which in many cases is unacceptable.

 The closest prototype of the claimed shockproof platform is a cable shock absorber, consisting of a rectangular base with angular elements, on which, with the help of threaded bushings, segments of cables serving as elastic-damping elements are fixed. In the middle of these cable segments, connecting couplings are installed, through which a solid cable, forming a closed loop, is passed in a circle. In the middle of the closed loop sections, couplings with adjusting elements rigidly fixed at the corners of the base plate on which the test sample is mounted are installed. The required characteristics of the cable shock absorber are provided to a limited extent with the help of adjusting elements and threaded bushings [2].

 The specified cable shock absorber, designed for vibration protection of objects, has insufficient movement on horizontal and vertical planes, necessary for effective protection from powerful impacts. In addition, the cable shock absorber has significant dimensions, far exceeding the dimensions of the installed products.

 The technical result of the proposed shockproof platform is an increased degree of protection for cabinets and racks of REA and other objects from powerful alternating shock effects of large amplitude and duration of the shock pulse transmitted through the base in vertical and horizontal planes.

 The specified technical result is achieved due to the fact that the shockproof platform contains an external rectangular frame and a platform located inside it for the installation of the protected object, interconnected by pieces of flexible steel cable, passed along each side through the bushings available on the outer frame and inner platform, such so that the ends of these segments of cables are led through angular supports to spring blocks located outside the adjacent sides of the outer frame.

 This scheme of the shock-proof mechanism provides maximum transfer of impact energy to elastic elements (spring blocks) during transverse movements of the cable under the influence of a shock impulse from either side, i.e. The platform “sags” and its lateral movement under the influence of shock loads is completely transmitted due to the longitudinal tension of the cables to the spring blocks at the ends of these cables. In this case, the required value of the damping of the object’s vibrations is due to friction in the sleeve and angular supports having friction material pads.

 The drawing shows a diagram of a shockproof platform. On the outer rectangular support frame 1 there are sleeve supports 2 located around the perimeter of the frame in certain places. Similar supports 3 are placed on the outer side of the platform for installing the protected object 4. This platform is connected to the outer frame using segments of flexible steel cables 5, passed through the sleeve supports of the outer frame and platform, and the ends of these cables are led through the corner supports 6 to the spring blocks 7 located outside along the adjacent sides of the outer frame. The spring blocks are equipped with adjusting elements 8, and the spring blocks themselves are the same and are located in such a way as to prevent mutual contact of the cables. The system is compact, does not require special sites and bases.

 Preliminary tests of the layout showed positive results.

Sources of information
1. M. M. Gribov. Adjustable shock absorbers REA, Moscow, Sov.Radio, 1974, p / p 6.4.

 2. Cable shock absorber, and.with. USSR N 1670233, 04/10/91

Claims (1)

 A shock-proof platform containing an outer rectangular frame and a platform located inside it for the installation of the protected object, interconnected by segments of a flexible steel cable, characterized in that the segments are passed along each side of the outer frame through the sleeve supports available on the outer frame and platform, and the ends of these ropes are inserted through angular supports to spring blocks located externally on the adjacent sides of the outer frame.