DE29816341U1 - Impact absorbers for furniture parts - Google Patents

Description

TER MEER STEINMEISTER & PARTNER GBR

PATENT ATTORNEYS - EUROPEAN PATENT ATTORNEYS

Dr. Nicolaus ter Meer, Dipl.-Chem. Helmut Steinmeister, Dipl.-Ing.

Peter Urner, Dipl.-Phys. Manfred Wiebusch

Gebhard Merkle, Dipl.-Ing. (FH)

Mauerkircherstrasse 45 Artur-Ladebeck-Strasse

D-81679 MUNICH D-33617 BIELEFELD

HENP06/98 3.09.1998

Wi/li

Paul Henke GmbH & Co. KG

Brückenstrasse 94 32584 Löhne-Gohfeld

IMPACT DAMPERS FOR FURNITURE PARTS

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DESCRIPTION

The invention relates to an impact damper for furniture parts, with a fastening part held in a recess in the furniture part and a buffer made of flexible material protruding from the recess. Such impact dampers serve, for example, as door buffers to dampen the impact of a door on the furniture body.

Conventional impact absorbers of this type are made from a single piece of plastic and are then inserted either by hand or by machine into a corresponding hole in the wall of the furniture body where the door hits.

However, especially when the impact absorber is assembled by machine, the material from which the impact absorber is made must not be too soft so that the fastening part can be pressed into the hole in the furniture part without any problems. Consequently, in conventional impact absorbers, the buffer also has a hardness that is not always optimal in terms of the damping properties.
20

The object of the invention is therefore to provide an impact absorber of the type mentioned at the outset which can be assembled easily and with a high degree of functional reliability - in particular by machine - and which nevertheless has good damping properties.
25

This object is achieved according to the invention in that the fastening part consists of a harder material than the buffer.

By choosing a harder material for the fastening part, it is possible to press it into the hole in the furniture part without deforming it. This reliably prevents the fastening part from tilting, bending or springing back during the mechanical pressing process. For the buffer, on the other hand, a material with an optimum hardness in terms of damping properties can be selected.
35

Advantageous embodiments of the invention emerge from the subclaims.

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Since the fastening part is harder than the buffer, a relative movement occurs between the fastening part and parts of the buffer during the impact. If the part of the buffer that is movable relative to the fastening part is in frictional contact with the fastening part, part of the impact energy can be absorbed by friction, resulting in largely inelastic damping and thus preventing the door from springing back in an undesirable manner.

The impact damper according to the invention can, for example, be injection-molded from plastic using a two-component process. Alternatively, it is also possible to produce the fastening part and the buffer as separate parts which are subsequently connected to one another, for example by locking. In this case, the fastening part preferably has the shape of a sleeve with a radially projecting collar which the pressing tool can engage, and the buffer has the shape of a piston which is slidably guided in the sleeve and can be locked into it. With this design, there is also the advantageous possibility of designing the buffer with a tapered foot which is supported on the bottom of the sleeve, so that the damping properties can be optimized by selecting the cross-section of the foot. The foot can be designed in such a way that its cross-sectional area decreases towards the free end, so that a non-linear spring characteristic curve is achieved which is particularly advantageous for the damping behavior.

In the following, embodiments of the invention are explained in more detail with reference to the drawing.

Show it:

Figure 1 shows a longitudinal section through an impact absorber

according to a first embodiment;

Figure 2 is a perspective view of a furniture part with a

an impact absorber mounted thereon;

Figures 2 and 3 Longitudinal sections through impact absorbers according to other

embodiments; and

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Figures 5 to 7 show an impact absorber according to a further embodiment in two longitudinal sections at right angles to each other and in plan view.

The impact damper 10 shown in Figure 1 consists of two parts, namely a fastening part 12 in the form of a pot-like sleeve and a piston-like buffer 14, which is slidably guided in the sleeve and has a projecting part 16 protruding from the open end of the damping part 12. The damping part 12 is provided with a radially projecting circumferential collar 18 at the open end.

Figure 2 shows part of a wall 20 of a furniture body, against whose front surface 22 a door 24 shown in dash-dot lines strikes. The impact absorber 10 is mounted in the front surface 22 of the wall 20 in such a way that it dampens the impact of the door 24.

The fastening part 12 of the impact absorber consists of a relatively hard plastic and is mechanically pressed into a hole 26 provided for this purpose in the wall 20 using a suitable tool until the collar 18 rests against the front surface 22.

In the example shown, the protruding part 16 of the buffer 14 has the shape of a solid cylinder and forms a slightly rounded stop surface 28 for the door 24. Within the fastening part 12, the buffer 14 forms a circumferential collar 30 which tapers conically towards the inner end of the buffer and forms a shoulder 32 on the back which engages behind a corresponding locking shoulder 34 on the inner surface of the fastening part. The buffer 14 can thus be pressed into the pot-shaped fastening part and locked into place with temporary elastic deformation of the collar 30. Since the tool used to press the fastening part 12 into the hole 26 can grip the collar 18, the buffer 14 can already be mounted in the fastening part 12 by the manufacturer before the impact absorber is attached to the wall 20 of the furniture body.

According to Figure 1, the inner end of the buffer 14 forms a foot 36 that tapers conically towards the free end and rests on the base 38 of the fastening part 12. When the door 24 impacts on the buffer 14,

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this is pressed deeper into the fastening part 12 and initially an elastic deformation of the tapered foot 36 occurs so that the impact is softly cushioned. Due to the conical shape of the foot 36, the deformation resistance increases progressively when the buffer is pressed deeper into the fastening part.

The collar 30 and/or the peripheral surface of the cylindrical part of the buffer is preferably in frictional contact with the inner surface of the fastening part 12. At least the radial play between the buffer 14 and the fastening part is so small that frictional contact occurs at the latest when the buffer is impacted by the door 24 and is thereby axially compressed and simultaneously radially expanded. During the subsequent inward movement of the buffer in the fastening part, a significant portion of the impact energy is thus absorbed by friction, so that effective damping is achieved and springing back of the buffer and the door 24 is avoided.

The damping behavior of the impact absorber 10 can be optimized as required by the choice of the material and the geometry of the buffer 14. Figures 3 to 7 show alternative design options for the buffer 14.

In the embodiment according to Figure 3, the foot 36 of the buffer has the shape of a tube, the wall thickness of which increases in the direction of the projecting part of the buffer and the interior of which continues in a cavity 40 in the projecting part of the buffer.

In the embodiment according to Figure 4, the foot 36 has the shape of a zigzag-folded wall which acts like a compression spring and is supported by its foot plate 42 on the bottom of the fastening part 12.

In the embodiment according to Figures 5 to 7, the base 36 is formed by four cylindrical columns 44 and 46, which are arranged in the shape of a square in plan view (Figure 7). The columns 44 are longer than the columns 46 and are supported on the floor of the fastening part 12 from the beginning, while the shorter columns 46 only come into contact with the floor when the columns 44 have already deformed to a certain degree.

Claims (11)

TERMEER STEINMEISTER &pAR3-NErt (Soft! . ''..j \"'m HEN P06/98 iTi&mdash;i-&Tgr;&idigr; WT « ·* ·* PROTECTION CLAIMS 1. Impact damper for furniture parts, with a fastening part (12) held in a recess (26) of the furniture part (20) and a buffer (14) made of flexible material projecting from the recess, characterized in that the fastening part (12) consists of a harder material than the buffer (14). 2. Impact absorber according to claim 1, characterized in that when the buffer (14) is elastically deformed, parts of this buffer which move relative to the fastening part (12) are in frictional contact with the fastening part. 3. Impact absorber according to claim 1 or 2, characterized in that the fastening part (12) has the shape of a pot-like sleeve and the buffer (14) has the shape of a piston which is slidably guided in the sleeve. 4. Impact absorber according to claim 3, characterized in that the pot-like fastening part (12) has an outwardly projecting collar (18) at the open end. 5. Impact absorber according to one of the preceding claims, characterized in that the fastening part (12) and the buffer (14) are designed as separate components. 6. Impact absorber according to claim 5, characterized in that the buffer (14) is locked in the fastening part (12). 7. Impact absorber according to one of the preceding claims, characterized in that the buffer (14) is supported on a base (38) of the fastening part (12) with a foot (36) which has a smaller cross-section than the main part of the buffer. 8. Impact absorber according to claim 7, characterized in that the foot (36) has the shape of a cone tapering towards the free end. 9. Impact absorber according to claim 7, characterized in that the foot TERMEER STEINMEISTER &:PARTTNEft &6«&iacgr; · *·« ·"*? HEN P06/98 '&mdash;-&mdash;&mdash; WM 9~9 0 # &igr; m ■■·. &igr; (36) has the shape of a hose. 10. Impact absorber according to claim 7, characterized in that the foot (36) has the shape of a zigzag folded wall. 11. Impact absorber according to claim 7, characterized in that the foot (36) is formed by at least two columns (44, 46) of different lengths, of which at least one (44) is constantly supported on the bottom of the fastening part, while at least one other (46) only comes into contact with the ground after deformation of the first columns.