DE4439887A1 - Longer-lasting fibre-based plain bearing piece which accepts higher loads - Google Patents

Abstract

A plain bearing piece (4) formed as a textile prod. is partially furnished with a slippy material having a lower coefficient of friction than the remaining portion of the piece. Here, the bearing piece has at least one base element (5) which holds at least one bearing element (6) including or comprising slippy material where the base and bearing are formed as felts.Also claimed is a process for mfg. the bearing piece which entails building up and needle punching the base from bonded fibre fabrics, repeating this for at least one bearing element where the fabric is the slippy material and joining base and bearing.

Description

The invention relates to a slide designed as a textile product bearing body, which is partially provided with a sliding material, which has a lower coefficient of friction than the rest of the Has plain bearing body. It also relates to a procedure for producing a plain bearing body by producing a Textile product.

Plain bearing bodies designed as textile products are made of EP-A-0 608 601 known. The plain bearing body is made of fabric Multifilament threads are formed, the multifilament threads being made of a sliding material such as polytetrafluoroethylene (PTFE) exist or contain fibers made of this sliding material. Due to the sliding material PTFE, the fabric-like Gleitla body self-lubricating properties. So that the plain bearing body stability, it is stretched over a support plate and mechanically attached to their sides. The carrier plate is like in turn connected to a larger base plate that is attached to the previous can be screwed into the place of use.

Such a camp is characterized in that it is easy to mon animals and disassemble and that it has its sliding properties without the use of lubricants even in adverse environmental conditions maintains conditions. Another advantage is the elasti surface of the plain bearing body.  

However, it has been shown that the mechanical strength of the be known plain bearing body is limited. With high loads Thread and subsequent fabric tears occur that completely result in loss of function of the plain bearing. Depending on the one this can lead to considerable damage.

The invention has for its object a plain bearing body of the type mentioned with improved resilience and with increased service life and a method for producing a to provide such a plain bearing body.

The first part of the task is solved according to the invention by that the plain bearing body is a base element and at least one of this held sliding element that the sliding material contains, with the base element and sliding element (s) as felts, in particular special needle felts are formed.

The plain bearing body according to the invention thus represents a felt product represents - as far as the arrangement of the sliding material is concerned - two is built up in layers. It is a basic element without glide fabric and in addition at least one of these sliding elements ment with sliding material available, which a uniform felt pro product with a low coefficient of friction on the surface of the Form sliding element (s). The plain bearing body is otherwise in dimensions can be designed freely, so it can also have a web shape which only become sections in a further processing process is shared. It has been shown that such a structure ter plain bearing body is highly resilient without being inherent Cohesion is lost. Its elasticity can be matched Set the requirements within wide limits. Even at strong deformations keep its plain bearing properties in get essential. A warehouse equipped with it draws thus compared to the known plain bearing with fabric-like Plain bearing body thanks to high load reserves and long life duration and the possibility of an optimal adaptation to the respective circumstances.  

Another advantage of the plain bearing body according to the invention be is that the sliding material is limited to the sliding element is and therefore fibers can be used for the base element nen that can be easily glued to a carrier. On in this way a flat and firm connection between glide bearing body and carrier achieved. Such an adhesive is with the Fabrics according to the prior art because of the contained therein PTFE portion not possible or only with considerable effort.

Finally, the plain bearing body according to the invention can be in produce lovely shapes and can adapt to the respective shape the carrier can be easily adjusted.

The storage of the sliding material in the plain bearing body can happen in different ways. It has proven to be expedient sen, part or all of the fibers of the sliding element or the sliding to manufacture elements from the sliding material. Alternatively or in The sliding element or the sliding elements can be combined with this elements impregnated with or a sliding material.

As a sliding material, everything comes into question Friction coefficient reduced compared to that of the base element and incorporate into the sliding element or elements leaves that its elasticity is not lost. So far for that The sliding materials used in plastics are the best Results with polytetrafluoroethylene or an analog work fabric, also with polyethylene. It is understood that also such materials come into question, the mixtures and alloy representations of the aforementioned plastics.

In addition to the sliding material, the sliding element can be made of synthetic fibers polymers such as polyamide, polyimide, polyether ketone, Polyetheretherketone etc. included. These fibers are too suitable for the base element because it is glued to the glide allow body.  

For higher and higher loads, it is appropriate that the base element and / or the sliding element with at least one reinforcement position is provided. This can be thread structures such as woven fabric, knitted fabric ke, scrim or the like, but also spunbonded. Any further solidification can thereby be achieved be that at least the base element verse with an adhesive hen will, z. B. is soaked in whole or in part.

For the connection of the base element and sliding element, this is an option their mutual needling. Alternatively, can be provided be that the sliding element or several sliding elements in each a recess are held in the base element. It can Base element have a first base element layer that with at least one continuous recess is provided, the Recess (es) on one side through a second continuous base element layer is or are covered with the first verbun which, in particular, is needled. Doing so on the other hand a continuous sliding element layer can be provided, which Contains sliding material.

In order to be able to attach the plain bearing body to a carrier, it should be covered with an adhesive layer on its free side hen. However, it can already be attached directly to a support be who then attach himself to the intended location, e.g. B. ver can screw. Plastic or metal bodies come in as carriers Question on which the plain bearing body is glued. In addition or alternatively, the slide bearing body can also be attached mechanically be held to the wearer.

According to the invention, the second part of the problem is solved by that a basic element made of non-woven fabrics and needled is that at least one sliding element with the sliding material Fiber fleece is expanded and needled and that basic element and Sliding element (s) are connected to one another such that the or the sliding element (s) is held by the base element.  

There is the possibility of ge base element and sliding element separate to manufacture and then needling both together. It However, it can also be provided that the plain bearing body afterwards other by successively needling the nonwoven layers of the base element and the sliding element or the sliding elements is constructed. For higher and higher loads, it is appropriate that the fleece were the base element and / or the sliding element or the slide elements on one or more reinforcement layers mentioned above th kind are needled.

In a further embodiment of the method according to the invention seen that the or at least one nonwoven fabric of the sliding element or the sliding elements partially or entirely from the sliding material existing fibers is produced. Alternatively or in Kombina tion is also an impregnation of the sliding element or little least a non-woven fabric of the sliding element with the sliding material possible.

A strengthening of the plain bearing body can do little by soaking least the base element or a part thereof with the adhesive can be effected. A corresponding solidification can also by means of a pressure and / or heat treatment and / or a sinter tion. By means of pressure and heat treatment the plain bearing body also deform in many ways and attached to a carrier to adjust.

To enable the mounting of the plain bearing body on a carrier lichen, there should be an adhesive on the free side of the base element Layer can be applied. It can be used for transportation purposes with a removable protective film are covered.

However, it can also produce a complete plain bearing be that the plain bearing body on a carrier, for example a plastic or metal plate, attached, in particular up sticks.  

In a further embodiment of the invention it is proposed that next a base element is completed and then at least one off saving is molded, in particular punched out and that subsequently A sliding element is inserted into the recess (es). The recess (es) can each be designed as a through hole the, wherein the base element layer on one side with at least another, continuous base element layer is needled and then the sliding element (s) with the other Base element layer is or will be needled. Preferably should be after inserting the sliding element or the sliding elements needled at least one continuous sliding element layer the.

In the drawing, the invention is based on exemplary embodiments len illustrated in more detail. Show it:

FIG. 1 is a plain bearing with the erfindungsge MAESSEN plain bearing body;

Figures 2a to 2d different forms of plain bearing bodies;

Fig. 3 is a slide bearing body having an adhesive layer;

Fig. 4 another plain bearing with plain bearing body;

Figure 5 is a plain bearing with a plain bearing body on the leg of a piece of furniture.

Fig. 6 base element layers with Gleitelemen th;

Fig. 7 is a plain bearing body by using the base element layers in FIG. 6.

Below are diesel for identical or functionally identical parts ben reference numbers used.

In Fig. 1, a sliding bearing 1 is shown, which in a gap between a first component 2 and a is disposed on this movable second component 3 above it. A slide bearing body 4 is glued to the first component 2 and is made up of two layers, namely a lower base element 5 and a slide element 6 lying above it. The second component 3 can slide in all horizontal directions on the upper side of the sliding element 6 .

The base element 5 takes up about 3/4 of the height of the slide bearing body 4 and is designed as a needle felt. Its fibers consist of polyimide and are needled with each other and with two spaced-apart carrier fabrics 7 , 8 . The carrier fabrics 7 , 8 consist of polyimide threads. The sliding element 6 is also designed as a needle felt and is needled onto the base element 5 . It has a carrier fabric 9 made of PTFE, with which the fibers are knitted. The fibers of the sliding element are built up in layers, with PTFE fibers on the top and polyimide fibers on the bottom.

FIGS. 2a to 2d show examples of various Formgebun gene of plain bearing bodies 4. In the example of Fig. 2a has the plain bearing body 4 while a U-shape has an oval shape in the case of game in accordance with Fig. 2b. In the embodiment according to FIG. 2c, the slide bearing body 4 has an arc shape with a constant thickness, while the embodiment according to FIG. 2d is similar to that according to FIG. 2b. In all cases, the base element 5 forms the lower region of the slide bearing body 4 and the slide element 6 runs on the upper or outer side. Here, the exporting 2b are approximate shape shown in FIGS. 2c and 2d in particular for the assembly carrier heads.

In Fig. 3, a strip-shaped plain bearing body 4 is Darge, which is wound towards one end. On the base element 5 , a thin layer of the sliding element 6 is needled. On the side facing away from the sliding element 6 , the base element 5 is provided with an adhesive layer 10 , which is covered with a protective film 11 . To attach the plain bearing body 4 to a component, the protective film 11 is removed and then the plain bearing body 4 with the adhesive layer 10 is pressed onto the component.

In the embodiment shown in FIG. 4, a movable vehicle window 12 is provided, on which a sliding bearing 1 rests. The plain bearing 1 has a carrier 13 made of rubber material, on the side of which facing the vehicle window 12 a plain bearing body 4 is attached. The slide bearing body 4 is designed in an arc shape and has a base element 5 adjacent to the carrier 13 and a slide element 6 applied on the outside, which bears against the vehicle window 12 . The carrier 13 is adapted with the side facing the slide bearing body 4 to its arc shape.

Fig. 5 shows schematically the lower part of a chair leg 14 , on the underside of which a slide bearing body 4 is attached such that the underside is formed by the sliding element 6 . This makes moving the chair easier.

FIGS. 6 and 7 show a particular embodiment of a sliding bearing body 4. Its base element 5 consists of an upper base element layer 16 and a lower base element layer 17 . As can be seen in particular from FIG. 6, a plurality of rectangular recesses 18 are punched out of the base element layer 16 . The dimensions of the cutouts 18 correspond to those of sliding elements 6 which are inserted into the cutouts 18 . The cutouts 18 are covered by the lower base element layer 17 . On the top of the upper base element layer 16 , a sliding element layer 19 is applied, which has the same construction as the sliding elements 6 in the embodiments shown above.

The lower base element layer 17 is needled to the upper base element layer 16 . Likewise, the sliding elements 6 and the sliding element layer 19 are needled to the base element 5 .

Claims (33)

1. As a textile product trained plain bearing body ( 4 ), which is partially provided with a sliding material that has a lower coefficient of friction than the rest of the plain bearing body ( 4 ), characterized in that the plain bearing body ( 4 ) is a base element ( 5 , 16 , 17 ) and at least one of these held sliding element ( 6 , 19 ) which contains or consists of the sliding material, wherein the base element ( 5 , 16 , 17 ) and sliding element (s) ( 6 , 19 ) are designed as felts . 2. plain bearing body according to claim 1, characterized in that the base element ( 5 , 16 , 17 ) and sliding element (s) ( 6 , 19 ) are designed as needle felts. 3. plain bearing body according to claim 1 or 2, characterized in that the or the sliding element (s) ( 6 , 19 ) contains or contain fibers from the sliding material or consists or consist thereof. 4. plain bearing body according to one of claims 1 to 3, characterized in that the sliding element (s) ( 6 , 19 ) is or are impregnated with the or a sliding material. 5. plain bearing body according to one of claims 1 to 4, characterized in that the sliding material is polyethylene and / or PTFE and / or an analog material is or ent  holds. 6. plain bearing body according to one of claims 1 to 5, characterized in that the or the sliding element (s) ( 6 , 19 ) fibers of polyamide, polyimide, polyether ketone and / or polyether ether ketone contains or contain. 7. plain bearing body according to one of claims 1 to 6, characterized in that the base element ( 5 , 16 , 17 ) and / or the or the sliding element (s) ( 6 , 19 ) with at least one reinforcing layer ( 7 , 8 , 9 ) is or are provided. 8. plain bearing body according to one of claims 1 to 7, characterized in that at least the base element ( 5 , 16 , 17 ) is solidified with an adhesive. 9. plain bearing body according to one of claims 1 to 8, characterized in that the base element ( 5 , 16 , 17 ) and sliding element (s) ( 6 , 19 ) are needled together. 10. plain bearing body according to one of claims 1 to 9, characterized in that the base element ( 5 , 16 , 17 ) fibers of polyamide, polyimide, polyether ketone and / or poly ether ether ketone contains or consists thereof. 11. plain bearing body according to one of claims 1 to 10, characterized in that the or the sliding element (s) ( 6 , 19 ) in each case in a recess ( 18 ) in the base element ( 16 ) is or are. 12. plain bearing body according to claim 11, characterized in that the base element ( 5 ) has a first base element layer ( 17 ) which is provided with at least one continuous recess ( 18 ), and that the recess (s) ( 18 ) on one side is or are covered by a second continuous base element layer ( 16 ) which is connected to the first. 13. plain bearing body according to claim 12, characterized in that the first base element layer ( 17 ) on the other side with a continuous sliding element layer ( 19 ) is provided. 14. plain bearing body according to one of claims 1 to 13, characterized in that the base element ( 5 , 16 , 17 ) on its free side with an adhesive layer ( 10 ) is hen. 15. plain bearing body according to one of claims 1 to 14, characterized in that the plain bearing body ( 4 ) is fixed to a carrier ( 13 ). 16. plain bearing body according to claim 15, characterized in that the carrier as a plastic or Metal body is formed. 17. A plain bearing body according to claim 15 or 16, characterized in that the plain bearing body ( 4 ) is glued to the carrier. 18. Slide bearing body according to one of claims 15 to 17, characterized in that the slide bearing body ( 4 ) is mechanically held on the carrier. 19. A method for producing a plain bearing body ( 4 ) by producing a textile product, the plain bearing body being partially provided with ( 4 ) with a sliding material which has a lower coefficient of friction than the rest of the plain bearing body, characterized in that a base element ( 5 , 16 , 17 ) is built up of needled nonwovens and needled and that at least one sliding element ( 6 , 19 ) is built up and needled with the sliding material made of nonwoven fibers and that base element ( 5 , 16 , 17 ) and sliding element (s) ( 6 , 19th ) are connected to one another in such a way that the sliding element (s) ( 6 , 19 ) is or are held by the base element ( 5 , 16 , 17 ). 20. The method according to claim 19, characterized in that first the base element ( 5 , 16 , 18 ) and sliding element (s) ( 6 , 19 ) are finished separately and then both are needled together. 21. The method according to claim 19 or 20, characterized in that the slide bearing body ( 4 ) is successively built up by successively needling the nonwoven layers of the base element ( 5 , 16 , 17 ) and the sliding element ( 6 , 19 ) or the sliding elements. 22. The method according to any one of claims 19 to 22, characterized in that fleece layers of the base element ( 5 , 16 , 17 ) and / or the sliding element ( 6 , 19 ) or the sliding elements on one or more reinforcing layers ( 7 , 8 , 9 ) needled. 23. The method according to any one of claims 19 to 22, characterized in that the or at least one non-woven fiber of the sliding element ( 6 , 19 ) or the sliding elements is partly or entirely made of Fa existing from the sliding material Fa. 24. The method according to any one of claims 19 to 23, characterized in that the or at least one nonwoven fabric of the sliding element ( 6 , 19 ) is impregnated with the sliding material. 25. The method according to any one of claims 19 to 24, characterized in that at least the base element ( 5 , 16 , 17 ) is impregnated with an adhesive. 26. The method according to any one of claims 19 to 25, characterized in that the sliding bearing body ( 4 ) is subjected to a pressure and / or heat treatment. 27. The method according to any one of claims 19 to 26, characterized in that the plain bearing body ( 4 ) is subjected to sintering. 28. The method according to any one of claims 19 to 27, characterized in that an adhesive layer ( 10 ) is applied to the free side of the base elements ( 5 , 16 , 17 ). 29. The method according to claim 28, characterized in that a removable protective film ( 11 ) is applied to the adhesive layer ( 10 ). 30. The method according to any one of claims 19 to 29, characterized in that the slide bearing body ( 4 ) is fastened to a carrier ( 13 ), in particular is glued to this ver. 31. The method according to any one of claims 19 to 30, characterized in that first a base element layer ( 17 ) is completed and then at least one recess ( 18 ) is molded, in particular punched out, and that subsequently in the recess (s) ( 18 ) each a sliding element ( 6 ) is used. 32. The method according to claim 31, characterized in that the recess (s) ( 18 ) is in each case formed as a through hole and the base element layer ( 17 ) is needled on one side with at least one further, continuous base element layer ( 16 ) and that the sliding element (s) ( 6 ) is then needled with the further base element layer ( 16 ). 33. The method according to claim 31 or 32, characterized in that after insertion of the sliding element or the sliding elements ( 6 ) at least one continuous de sliding element layer ( 19 ) is needled.