RU2629514C1 - Device for damping shock and vibration impacts - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device for damping shock and vibration impacts contains bases, a stop, disc springs placed in a cup, and a damper. The stop is made in the form of a rod with a hinge and is equipped with a stop diaphragm. The cup has a male thread on which the adjusting cup with a lock nut is screwed. The disc springs are arranged in the cup on both sides of the resilient diaphragm. A second rod with a hinge resting on the base is attached to the cup bottom through the damper. Wherein the damper comprises a central plate with frictional coating on both sides and oval openings, through which, by means of high-strength bolts, external plates with cylindrical openings lined with polished stainless steel are pressed against it, between which a connecting plate rigidly connected to the second rod is arranged.

EFFECT: invention allows to increase the device reliability.

5 cl, 1 dwg

Description

The invention relates to construction, in particular to construction in seismic areas.

A device for damping shock and vibration is known - a shock absorber, comprising a housing with an emphasis on the inner surface, a rod with an ear mounted therein, spacer sleeves placed on the rod, elastic spoilers installed in the latter, thrust washers placed between them and a plug installed in the housing from the side of the free end of the rod, it is equipped with two sets of Belleville springs mounted on the rod, one of which is placed with a gap relative to the end of the housing between the last and the spacer one, with a gap relative to the end of the fork between the last and the spacer sleeve, and the large bases of the disk springs face the ends of the housing and fork, respectively (RU No. 2079020, F16F 3/10, 04.16.1990).

The disadvantage of this device is its low reliability due to the presence of gaps inside the device, the possibility of abrasion of the ends of the housing and the fork with the bases of Belleville springs during operation and use, along with metal parts, parts made of elastic materials.

A device for damping shock and vibration effects is a prefabricated rubber-metal shock absorber with an axial limiter, comprising a base, two supporting rubber bushings, a fluoroplastic gasket installed between the restriction rod and the supporting rubber bushings, persistent rubber bushings, steel plates, fluoroplastic gaskets installed between steel plates and between the upper and lower faces of the intermediate case or legs of the equipment, pressed into the leg of the equipment or in the hole between full-time housing, a protective polyurethane ring, a restrictive rod for increasing load capacities is rigidly fixed to the base (RU No. 2358167, F16F 7/00, F16F 1/36, F16F 13/04, F16F 15/08, B63H 21/30, 06/10/2009 )

The disadvantage of this device is its low reliability due to the use in it, along with metal elements of various synthetic materials with different physical and mechanical properties and different durability.

The closest in technical essence to the claimed invention is a universal disk shock absorber (RU No. 65055, D06B 3/18, 07.27.2007) containing a base, disk springs, support distance rings, an emphasis and a damper in the form of a set of rubber rings made of materials different hardness, decreasing from the base to the stop, and the material of the rings has a hardness of HS from 50 to 80 units. by Shore A.

The disadvantages of this device are the limited scope and lack of reliability and durability in connection with the use of rubber rings.

The objective of the invention is to increase the reliability of the device and to provide the possibility of using the device to absorb shock and vibration effects also for seismic protection of buildings and structures due to the elastic deformation of cup springs and by converting the kinetic energy of shock and vibration effects into thermal energy.

The technical result is achieved by the fact that in the device for damping shock and vibration effects, containing bases, emphasis, Belleville springs placed in the glass, and a damper, the emphasis is made in the form of a rod with a hinge and equipped with a stop diaphragm, and the glass has an external thread onto which an adjustment cup with a lock nut is screwed, cup springs are placed in the cup on both sides of the elastic diaphragm, and a second rod with a hinge resting on the base is attached to the bottom of the cup with the damper, and the damper contains a central a plate with a friction coating on both sides and oval holes through which, with the help of high-strength bolts, external plates with cylindrical holes are clad to it, lined with polished stainless steel, between which there is a connecting plate rigidly connected to the second rod.

Belleville springs on different sides of the elastic diaphragm can have different stiffness.

Belleville springs are prestressed.

Hinges can be made ball.

The connecting plate can be attached to the outer plates of the damper using a pin bolt-stud through the sleeve.

The invention is illustrated in the drawing, which shows a device for absorbing shock and vibration effects in the context.

A device for damping shock and vibration influences comprises a base 1, a stop in the form of a rod 2 with a hinge 3, equipped with a stop diaphragm 4, disk springs 5 placed on both sides of the elastic diaphragm 4 in a glass 6, equipped with an external thread 7, on which an adjusting glass is screwed 8 with a lock nut 9. The central plate 10 of the damper with a friction coating 11 on both sides and oval holes 12 is rigidly attached to the bottom of the glass 6. The damper contains external plates 13 with cylindrical holes lined with polished stainless steel, pressed to the Central plate 10 through the oval holes 12 using high-strength bolts 14. Between the outer plates 13 there is a connecting plate 15, rigidly attached to the second rod 16 with a hinge 17 resting against the base 18. The connecting plate 15 is attached to the outer plates 13 with the help of a tie bolt-pin 19 through the sleeve 20. The compression force of the central 10 and the outer plates 13 by high-strength bolts 14 is determined by the calculation, based on the prevention of excess load her abilities of Belleville springs 5. When the plates are mutually displaced, the kinetic energy of shock and vibration effects is converted into thermal energy. To ensure the operability of the friction-movable joint, the connecting plate 15 is installed between the external plates 13 with gaps, and the coupling bolt-pin 19 tightens the entire package through the sleeve 20.

A device for damping shock and vibration is as follows. The device is placed between the source of shock and vibration influences and the protected structure, to which the bases 1 and 18 are rigidly attached. Due to the presence of hinges 3 and 17 at the rods 2 and 16, the force, namely vibration and shock, the impacts are oriented along the device. If the impacts have a biaxial direction, the hinges 3 and 17 are made ball. Pre-placed in the cup 6, Belleville springs 5 with the help of the adjusting cup 8, screwed on the thread 7, is set to the calculated compression value of 0.1-0.8 bearing capacity of the Belleville springs. The pre-compression force is fixed by lock nut 8. The vibration and shock effects are suppressed in the elastic stage, and the disk springs 5 placed on both sides of the elastic diaphragm 4 operate in antiphase, depending on the direction of external influence. Under external influences, different in magnitude in opposite directions, the Belleville springs 5 on the left and right sides of the elastic diaphragm 4 can have different stiffness. In cases where the shock effects exceed the bearing capacity of the Belleville springs 5, a friction-movable joint is activated by slipping the central plate 10 between the outer plates 13. In this case, the kinetic energy of the shock and vibration effects is damped by converting it into thermal energy.

Thus, the device operates as a two-stage system: at the 1st stage, the damping of the effects is carried out in the elastic stage, at the 2nd - in the plastic mode, and separate operation of both stages is possible.

Compared with the prototype, this device has increased reliability due to the elastic deformation of the Belleville springs placed in the glass, and resting on the bottom of the glass and a persistent diaphragm. The location of the springs on both sides of the diaphragm allows you to avoid shock at the first moment of shock and vibration, and due to the friction-movable damper, the reliability of the device is increased and this device can be used to increase the seismic protection of buildings and structures.

Claims (5)

1. A device for damping shock and vibration, containing the base, emphasis, Belleville springs placed in the glass, and a damper, characterized in that the emphasis is made in the form of a rod with a hinge and equipped with a stop diaphragm, and the glass has an external thread that is screwed onto an adjustment cup with a lock nut, cup springs are placed in the cup on both sides of the elastic diaphragm, and a second rod with a hinge resting on the base is attached to the bottom of the cup through the damper, and the damper contains a central plate with a friction clutch th coated on two sides and oval holes, through which by means of high strength bolts therein to the outer plates are pressed with cylindrical holes, lined with a polished stainless steel, which is placed between the coupling plate rigidly connected to the second rod. 2. The device according to p. 1, characterized in that the disk springs on different sides of the diaphragm have different stiffness. 3. The device according to paragraphs. 1 and 2, characterized in that the disk springs are prestressed. 4. The device according to p. 1, characterized in that the hinges are made ball. 5. The device according to p. 1, characterized in that the connecting plate is attached to the outer plates of the damper using a coupling bolt-stud through the sleeve.

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