FR2606473A1 - Sliding support allowing the applied load to be lightened - Google Patents

Abstract

The present invention relates to a sliding support made up of a movable piece 2 and of a fixed or elastically and vertically suspended piece 1, these two pieces being separated by at least one thin bearing bush 3 with a low coefficient of friction secured to one or the other piece, characterised in that the space 4 left free between the two pieces is filled with a viscous fluid product, under pressure, working in shear with low thickness. Application to all sliding supports.

Description

Sliding support allowing a reduction of the applied load.

 The present invention relates to a sliding support consisting of a movable part and a fixed part or suspended vertically and elastically, these two parts being separated by at least one thin cushion with a low coefficient of friction.

 In known sliding supports, the pad is generally fixed to one of the support parts by gluing and embedding, and the space left free between the two parts is not filled with any product. At very low travel speeds, the dry friction forces applied to the bearing are then significant.

 The object of the present invention is to reduce the load applied to the pad and this object is achieved by filling the space left free between the two parts with a fluid product which supports part of the load thanks to internal pressure.

 The fluid chosen is preferably viscous and it works in shear, in thin thickness, to absorb energy.

 The present invention relates to a sliding support consisting of a movable part and a fixed part or suspended vertically and elastically, these two parts being separated by at least one thin pad with low coefficient of friction secured to one or the other. 'other part, characterized in that the space left free between the two parts is filled with a viscous fluid p-oduct, under pressure, working in shearing in thin thickness.

 Preferably, this support is provided with a means making it possible to maintain the pressure of the viscous product.

 According to a first embodiment, the means for maintaining the pressure is a pressure accumulator.

 According to a second embodiment, the means for maintaining the pressure is a chamber of variable volume placed under the piece suspended vertically and elastically, and consisting of an elastomer ring closed by our plate, the chamber being in communication with the space. left free via a channel of the piece suspended vertically and elastically.

 It is described below, by way of example and with reference to the accompanying drawings, the two embodiments of the invention as well as variants.

 Figure 1 shows the first embodiment in which the pressure accumulator is external to the sliding support.

 FIG. 2 also shows the first embodiment in which the pressure accumulator is internal to the sliding support.

 Figure 3 shows the second embodiment with a variable volume chamber.

 FIG. 4 shows, in a single view, several variant embodiments which can be applied together or separately to one or the other of the embodiments.

 In FIG. 1, the sliding support consists of a fixed part 1 secured to any fixed assembly, a moving part 2 secured to any movable assembly, a thin annular bearing 3, with a low coefficient of friction, secured to the fixed part 1 by embedding and gluing.

 This support is provided with an external pressure accumulator 10 connected to the space 4 left free between the fixed part 1 and the moving part 2, by a channel 11.

 In FIG. 2, the sliding support is provided with an internal pressure accumulator 10, housed in the fixed part 1. To allow integration of the accumulator, the part 1 is of course composed of two half-parts 1A , 1B. The internal pressure accumulator 10 connected to the space 4 by a channel 12.

A support made according to the embodiment of Figures 1 and 2, operates as follows
When the mobile structure moves, causing the part 2 which rubs on the pad 3, the viscous product contained in the space 4 is sheared thus creating a force opposing the displacement.

 This force is proportional to the speed of movement, and it is also a function of the viscosity of the viscous product and the thickness of the film represented in space 4. At low speeds this force is very low, the friction of the support is therefore reduced compared to a sliding support without viscous product. On the other hand at higher speeds, the shearing force increases and is strongly opposed to displacement.

 In FIG. 3, the means for maintaining the pressure is a chamber 24 of variable volume obtained by the addition of an elastomer ring 22 closed by a plate 20. This ring is molded on a metallic annular plate 25 and on the part. 1, so as to constitute a sealed volume when the plate 25 is fixed on the plate 20. The part 1 is guided vertically in a ring 21 fixed on the plate 25. The chamber 24 communicates with the space 4 by an orifice 23 of room 1.

A support, produced according to the embodiment of this figure 3, operates in the following manner
When a load is placed on the moving part 2, there is deformation of the elastomer ring 22 and a static pressure is then established within the viscous product which thus comes to support part of the load applied to the part 2.

 When the mobile structure moves, driving the part 2 which rubs on the pad 3, the viscous product-contained in the space 4 is sheared thus creating a force opposing the displacement.

 This force is proportional to the speed of movement, and it is also a function of the viscosity of the viscous product and the thickness of the film represented by the space 4. At low speeds this force is very low, the friction of the support is therefore reduced compared to a sliding support without viscous product. On the other hand at higher speeds, the shearing force increases and is strongly opposed to displacement.

 In FIG. 4, the part 1 contains a pressure accumulator 10 according to FIG. 2, but of course this support could receive an external pressure accumulator according to FIG. 1, or a variable volume chamber according to FIG. 3.

 According to a first variant, in order to avoid detachment of the part 2, the latter allows a part 31 to pass through its center R which extends beyond the central passage and bears on the upper face of the part 2 via a pad 33.

 Of course, in order to secure the part 2 and the mobile structure, this part 2 is extended by a part 42 which serves as a support for the mobile structure.

 The two spaces left free by the pads 3 and 33 are filled with a viscous product via orifices 32A, 32B.

 According to another variant, totally. independent of the first, the part 1 is suspended vertically and elastically with respect to a part 51 which it will be secured to the fixed structure.

 The two parts 1 and 51 are isolated from each other vertically by bearings 53 and guided laterally by bearings 52.

 In all embodiments or their variants, seals can be provided to complete the seal provided by the bearing.

Claims (4)

CLAIMS: 1 / Sliding support consisting of a movable part (2) and a fixed or suspended part (1) vertically and elastically, these two parts being separated by at least one thin pad (3) with low coefficient of friction secured to the 'one or the other part, characterized in that the space left free (4) between the two parts is filled with a viscous fluid product, under pressure, working in shearing in thin thickness.  2 / Support according to claim 1, characterized in that it is provided with a means for maintaining the pressure of the viscous product. 3 / Support according to claim 2, characterized in that the pressure maintenance means is a pressure accumulator (10). 4 / Support according to claim 2, characterized in that the means for maintaining the pressure is a chamber (24) of variable volume placed under the part (1) suspended vertically and elastically, and consisting of an elastomer ring (22) closed by a plate (20).