PL162266B2 - Elastomer shock-absorber - Google Patents

Abstract

1. Elastomeric shock absorber, consisting of a container filled with fluid elastomer compressed by means of a piston, and having a ball valve, characterized in that the ball (8) of the non-return valve is prevented from falling into the inside of the container (1) by means of a securing element (9) situated inside the container next to the bottom (2).<IMAGE>

Description

The present invention relates to an elastomeric damper with a flow-through elastomer.

A spring, bumper or stop is known from Polish patent specification No. 51 488, consisting of a sealed cover filled with an elastomer compressed by a piston, characterized by the fact that its cover is connected by a flow controlled by an automatic shut-off valve with a pump whose auxiliary piston forces the elastomer into this shell under a certain overpressure. The connection between the cover and the piston is closed when the required overpressure for the spring operation is reached. In this solution, a ball check valve is used, which is fully screwed into the wall of the container.

The disadvantage of this solution is the difficulty in maintaining the tightness of the shock absorber, as there are often leaks of elastomer along the thread between the valve and the container wall, despite the use of various types of seals. In the case of using a valve screwed into the wall of the container, the strength of the container is additionally significantly reduced.

The present invention aims to eliminate the above drawbacks and simplify the structure and increase the reliability of the elastomeric damper.

In the solution according to the invention, the ball of the non-return valve is prevented from falling into the interior of the container by a safety element located inside the container next to the bottom.

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It is advantageous here to provide the safety element with through-holes and to fit it on the inner cylindrical surface of the container. Additional advantages are obtained by making the safety element in the form of a resilient cup. The protective element may also be in the form of a plate which is secured inside the container by means of an expandable ring or sleeve pressed into the interior of the container.

In another embodiment of the invention the safety element is located in the chamber of the inner guide which is seated on the inner cylindrical surface of the container. It is then advantageous to provide the inner guide chamber and / or the container bottom with radial slots. The safety element may be supported by the face of an inner guide seated on the inner cylindrical surface of the container.

The invention allows the use of solid bottom containers and thus eliminates the source of leakage in elastomeric dampers. This solution is completely leak-proof in every operating phase and at any pressure inside the shock absorber.

The subject of the invention is illustrated in the examples of the drawing, in which fig. 1 shows a longitudinal section of a shock absorber with a securing element in the form of an elastic cup, fig. 2 - a fragment of a section of a shock absorber equipped with a securing element in the form of a plate fixed inside the container by means of an expanded ring , fig. 3 - a fragment of a cross-section of a shock absorber equipped with a securing element, which is fixed inside the container by means of a sleeve, fig. 4 - a cross-section of a shock absorber with a securing element embedded in the chamber of an internal guide, fig. 5 a fragment of a cross-section of a shock absorber equipped with a securing element, which is supported is in the container through the front of the guide, and Fig. 6 shows the location of the elements of the shock absorber when filling the container with fluid elastomer.

The container 1 has the shape of a cylinder and on one side it ends with a bottom 2, and on the other side it is closed with an external guide 3 in which the piston 4 is slidably mounted. The piston ends with a head 5 placed in the container. The tightness of the container on the side of the outer guide is ensured by seals 6. In the bottom of the container there is a chamber 7 in which the ball 8 is placed. The safety element 9 adhering to the bottom of the container prevents the ball from falling into the container. The securing element is in the form of a cup provided with through holes 10 and adjoins with its rim to the inner cylindrical surface 11 of the container. The chamber ends with a conical contact surface 12, which is connected by a channel 13 with the outer surface of the container. The channel from the outside of the container is closed with a screw 14 protecting the ball.

In another embodiment of the invention, shown in Fig. 2, the securing element 9 is in the form of a plate provided with through holes 10 and is fixed inside the container by an expanded ring 15, and in the embodiment shown in Fig. 3, the securing element 9 is fixed. by means of the sleeve 16 pressed into the interior of the container.

The invention also applies to a shock absorber, which is additionally provided with an inner guide 17 having flow holes 18, which guide is mounted by means of an expandable element 19 on the inner cylindrical surface 11 of the container. The inner guide ends then with a slot 20 in which a disc-shaped protective element 9 with through holes is placed.

10. In a further embodiment of the invention, the seat 20 and / or the bottom 2 is provided with radial slots 21.

In another embodiment of the invention, and shown in Fig. 5, the safety element 9 is supported by the face 22 of the inner guide 17 mounted on the inner cylindrical surface 11 of the container 1.

In order to fill the shock absorber with flow elastomer, 1 screw 14 is unscrewed from the bottom 2 of the container. Then, the elastomer is forced through the channel 13, which flows around the ball in the chamber 7. The ball at this time rests against the securing element 9. The elastomer flows into the container through the holes 10 of the security element. In the case of a shock absorber

162 266 having an internal guide 17 and a protective element 9 provided with through holes 10, the flow of elastomer into the depth of the container 1 takes place through the through holes of the protective element and the flow holes 18 of the internal guide.

In a further embodiment of the invention, in a damper with an inner guide 17, the flow of the elastomer into the container 1 is facilitated by radial slots 21 made in the seat 20 of the inner guide and / or the bottom 2.

Upon completion of filling of the container 1, the compressible elastomer expands and pushes the ball 8 outwards, pressing it against the interface 12 and effectively sealing the container.

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Fig 5

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Fig 1

Publishing Department of the UP RP. Circulation of 90 copies

Price: PLN 10,000

Claims (9)

Patent claims 1.Elastomeric damper, consisting of a container filled with a flow elastomer compressed by a piston, having a ball valve, characterized in that the ball (8) of the non-return valve is prevented from falling into the container (1) by means of a safety element (9) located inside the container next to the bottom (2). 2. A shock absorber according to claim Device according to claim 1, characterized in that the securing element (9) has through holes (10) and is positioned on the inner cylindrical surface (11) of the container (1). 3. A shock absorber according to claim The method of claim 1, characterized in that the securing element (9) is disposed in a seat (20) of the inner guide (17) seated on the inner cylindrical surface (11) of the container (1). 4. A shock absorber according to claim The method of claim 1, characterized in that the securing element (9) is supported by the face (22) of the inner guide (17) mounted on the inner cylindrical surface (11) of the container (1). 5. A shock absorber according to claim A device according to claim 2, characterized in that the securing element (9) is in the form of a resilient cup. 6. A damper according to claim Device according to claim 1, characterized in that the securing element (9) is plate-shaped and supported by an expandable ring (15) mounted on the inner cylindrical surface (11) of the container (1). 7. A damper according to claim The device according to claim 2, characterized in that the securing element (9) is plate-shaped, which is supported by a sleeve (16) pressed into the interior of the container (1). 8. A shock absorber according to claim The slider as claimed in claim 3, characterized in that the seat (20) of the inner guide (17) is provided with radial slots (21). 9. A shock absorber according to claim A device as claimed in claim 1, characterized in that the bottom (2) is provided with radial slots (21).