DE4007862A1 - Bellows material - is an uncut double pile weave - Google Patents

Abstract

The bellows, to shroud the links between vehicles or machine sections, is formed by a fabric (5) of uncut double-pile material of synthetic or mixed fibre yarns, with an upper (7) and lower (8) layer with piles (9) through the space (12) between them. The length and density of the piles (9) are structured to give an elastic bond between the layers (7,8). The upper and lower layers (7,8) are composed of intersecting warps (10) and wefts (11) of man made yarns with different stregths and/or stiffness. The warps (10) are of a monofilament yarn or high tensile multifilament yarn and the wefts (11) are of a spun fibre of multifilament yarn, or vice versa. The pile yarns (9) are of the same material as the warps (10) and/or wefts (11). The pref. synthetic fibres are of polyester, polyamide, polypropylene, polyethylene, polyacryl nitril or vinylate. The high tensile multifilament yarns are pref. of aramide, glass, carbon or high tensile polyethylene. The upper (7) and lower (8) layers can be knitted. The piles (9) are bonded in a V or W structure and their neighbouring bonding points are displaced. The pile (9) length is 0.1-12 mm and pref. 0.1-4 mm in a density of 300-25 piles/cm2. A number of fabric layers (5) can be assembled above each other. At least one additional folding bellows layer can be applied to the fabric (5). A web (6) of an elastic polymer is applied to both sides of the material (5). ADVANTAGE - The bellows material is simply produced and gives a durable component.

Description

The invention relates to a bellows for installation between movable Vehicle or machine parts consisting of at least one shaft mig or in the manner of an accordion arranged web of egg nem with a polymer-coated textile fabric.

Such bellows are an enveloping and slidable transition device between moving parts from the rail, road ver kehr and known to mechanical engineering. In addition to the shape and volume elasticity training by folding the connecting part is from the Bahnma material of the bellows among other things strength, rigidity and a good sound and heat insulation expected. However, this is too important ten that the requirements for the property profile of these bellows are different for the different bellows areas. For the Side walls are required to have a high degree of rigidity in the vertical direction, so that the bellows height is guaranteed. In contrast, the Bellows roof and possibly the bellows floor in the ho a certain flexural elastic behavior is expected at the horizontal level to be able to follow the lateral offset of the bridged parts.  

In particular, rubber or fabric is used as the material for the bellows reinforced polymer use, the above requirements being met by additional folds or ridges in the transition areas between the fall bellows side walls and bellows roof should be sufficient.

From DE-OS 37 11 032 a bellows of the type mentioned is known in which is due to the resilience of a material web made of polymer compounds appropriately dosed irradiation is influenced. So the pages walls irradiated in such a way that the polymer layer covering the fabric ver is stiffened by increasing the number of molecular bonds. The on the This way the stiffness is achieved even without a frame hold in an upright position. On the other hand, the coating is in the roof and given if necessary, the bottom area of the bellows by reducing the molecular weight made so soft that the deformability of the fabric through the loading stratification must not be hindered. These bellows are not just that complex to manufacture, but also require special use polymer compounds, which also pose a risk of aging and the environment subject to change. Furthermore, if there is too much variation the polymer matrix compared to the reinforcing component at an early stage Wear favors.

The object of the invention is therefore a bellows according to the Oberbe handle of claim 1 to create the simple and functional structure is.

This object is achieved according to the characterizing part of claim 1.

This creates a bellows, the textile fabric has a three-dimensional structure, the mechanical properties properties, in particular strength and rigidity, starting from a special textile construction by choosing and adjusting the thread ver crossing, thread interlacing, density and length of the pile chains as well as one Set and combination of different yarns regarding fiber type, e.g. B. spinning fa stars, multifilaments, monofilaments and fiber material, e.g. B. mixed fibers,  Chemical fibers, high-strength fibers, according to a desired property Shaft profile are variable for the respective bellows area.

The two fabric layers of the double pile fabric can lie on top of each other or depending on the length of the pile threads, which is preferably between 0.1 and 4 mm lies at a distance from each other. The preferably dense Integration of the pile threads creates a secure anchoring of the fabric layers, the pile threads under compression and tensile stress a reset compo Build up the structure and thus flexibly connect the upper and lower goods to each other the. With the still comparatively thin textile layer one does not open cut double pole fabric will also provide good heat and sound insulation achieved. The numerous pole chains, which are straight or inclined Cross threads that connect the upper and lower fabric also create a gu te distribution of the insulating air.

The uncut double pole fabric allows a combination of ver stiffness and / or bending elasticity in various fiber yarns agreed to interpret directions differently. When training the unauf cut double polar as double pile fabric can be used by the of monofilaments as warp threads the stiffness in the longitudinal direction be increased while weaving multifilaments as wefts improves transverse bendability. Is also a combination possible in which the stiffness in the transverse direction by using Monofilament as weft threads is increased while weaving Mul tifilaments as warp threads improve the flexibility in the longitudinal direction. With the side walls of a bellows, which ensure the height should have a higher rigidity in the vertical direction consequently the threads running in the vertical direction as monofilaments and the threads running in the horizontal direction as multifilaments educated. For the bellows roof and, if necessary, the bellows The threads that make up the textile fabric can also be used according to the desired stiffness and flexibility.

Other physical properties of the bellows, such as tempera Resistance to fatigue, weathering and aging, insensitive against the effects of chemicals, flame resistance, type of  Combustion gases etc. can be selected by the choice of materials for the cooking ne the warp, weft, stitch and pile threads meet the special requirements of the area of application. The coating with a Polymer compound can therefore only on one side instead of on both sides consequences.

The bellows can by a wave-shaped arrangement of a textile surface or formed into individual, zigzag-shaped arranged material webs in the form of an accordion be brought. However, a plurality of strip-shaped ones can also be used Material webs on their long sides by sewing, gluing, clamping, etc. Kind of an accordion or connected in the form of a corrugated sheet be.

Synthetic fibers made of buttocks can preferably be used as the fiber material lyamide, acrylonitrile, polyester, polyvinyl chloride, etc. Furthermore Mixed fibers, e.g. B. made of polyester and cotton or polyamide and rayon, applicable. The same applies to high-strength fibers, such as. B. aramid, glass fa water, carbon fiber, whereby these high-strength fibers can also be combined as Fiber material for the pile chains and / or weft threads or warp threads with conventional synthetic fibers.

Finally, several layers of fabric can be cut from an uncut Double pole fabric adjacent and at a distance one above the other and in the longitudinal direction device to be arranged running, with one or more double poles alternate with a flat weave or knitted fabric or from this be included on the outside and / or inside.

Further embodiments of the invention are the dependent claims and the see the following description.

The invention is illustrated below in the accompanying figures illustrated embodiments explained in more detail.

Fig. 1 is a side view schematically showing a bellows,

FIGS. 2a and 2b show in part a longitudinal section of a first example of execution from a web of material of the bellows,

Fig. 3 shows partly a longitudinal section of a second example of execution of a web of material of the bellows,

Fig. 4 partially shows a longitudinal section of a third execution example of a web of material of the bellows,

Fig. 5 shows partially a longitudinal section of a fourth embodiment example of a material web of the bellows.

Fig. 1 shows a side wall of a bellows 1 , which is arranged as a transition device between two movable parts 2 and 3 and in addition to two side walls has a roof and optionally a bottom portion. The bellows 1 comprises several on their long sides miteinan the connected strip-shaped material webs 4 , which are attached to each other in the manner of a accordion. The connection can be achieved by gluing, sewing and / or clamping using circumferential profiles. The bellows 1 can, however, also have only one material web 4 made of a textile material which extends in a wave-like or permanently deformed manner in the manner of an accordion between the two parts 2 and 3 . Length and width of the bellows are in the range of a few cm or m, depending on the area of application.

FIGS. 2a and 2b show a section of a longitudinal section of a first embodiment of a material web 4 of the bellows. 1 This Mate rialbahn 4 consists of a textile fabric 5 , which is coated with a plastic sheet 6 . The textile fabric 5 is formed from a layer of a three-dimensional textile construction in the form of an uncut double fabric, here double pile fabric, with the upper and lower fabrics.

The uncut double pile fabric comprises an upper fabric 7 and a lower fabric 8 and between the upper and lower fabric back and forth changing pole chains 9th Warp threads 10 and weft threads 11 each crossed in plain weave form the upper fabric 7 and lower fabric 8 . The polket ten 9 hold as cross threads the upper fabric 7 and lower fabric 8 with each other from forming a pile space 12 (see. Fig. 2a). Before preferably the pile warp 9 are arranged substantially perpendicularly to the warp and weft directions, but may also as inclined transverse threads be located between the upper fabric 7 and bottom fabric 8, which in particular sondere at a formation of the upper and lower goods are considered Grundgewirke, as follows is still running. The pole chains 9 are integrated by means of a 2 V weft pole connection. Depending on the desired density of the pole chains 9 between the upper fabric 7 and the lower fabric 8 , the pole chains 9 can also be integrated by means of a 2/4 V weft pole or 3/6 W pole binding. In the weft direction, adjacent pile chains 9 can each be tied or tied to the same weft threads 11 or to different weft threads 11 , the latter alternative being able to produce a more uniform distribution of attacking forces. The length of the pole chains 9 is approximately 5 mm, but can preferably vary between 0.1 and 12 mm. Speaking accordingly, the upper and lower goods can also be connected directly to one another via the pile threads (cf. FIG. 2b). The density of the pole chains 9 can vary between very dense and dense and is preferably between 300 pole chains / cm ² and 25 pole chains / cm ² . The length and density of the pole chains 9 must be coordinated with one another in such a way that a change in shape can occur as a result of external loading, but this does not occur after relief due to regression. With increasing density of the pole chains 9 , these can have a greater length and thus provide the double goods with good elasticity.

Are the side walls of the bellows 1 , as shown in Fig. 1, composed of several vertical webs 4 , the warp threads 10 of the textile fabric of 5 extend in the vertical direction, while the weft threads 11 in the horizontal direction of the bellows 1 run. In contrast, if the side walls of the bellows 1 are made up of only one material web or are composed of several material webs running in the vertical direction, the warp threads extend in the horizontal direction, ie the width of the individual material web or the total width of the several material webs corresponds to the height of the bellows 1st The weft threads then run vertically here. In the area of the roof and possibly bottom portion of the bellows 1 not shown, he stretch either the warp threads or the weft threads between the side walls of the bellows 1 , which depends on the course of the material web or webs in the textile fabric. Finally, the bellows 1 can be made tubular from the double-pile fabric with the integration of the side walls and roof section and bottom section. The thickness of a material web 4 of the bellows 1 is determined by the height of the three-dimensional textile structure, in particular the length of the pole chains 9 , and the thickness of the plastic web 6 . As can be seen from FIGS. 2a and 2b, the plastic web 6 is only provided on one side of the material web 4 , so it is the outside and thus the weather side.

Spun fibers, multifilaments and / or mono are used as textile fiber yarns filament yarns used. The staple fiber and multifilament yarns are made in the directions in which a certain bendability is desired is. In the directions of the highest possible rigidity, Mo nofilaments used. The thread size is between 10 and 600 tex, preferably 100-180 tex. As for the wasting of warp and As far as weft threads are concerned, there are also weaves in addition to the plain weave with thread floats, such as B. Panama weave, satin weave or twill dung, applicable. Especially when interweaving a high number of shots a binding with thread floats is preferred.

Polyester is used as the fiber material. Other synthetic fibers such as B. polyamide, polypropylene, acrylonitrile, etc., and mixed fibers are just as useful. The same applies to the high-strength fibers, such as. B. Ara mid, high-strength polyethylene, glass fibers, carbon fiber. In addition, different fiber types and materials can be combined to adapt to the desired profile of properties of the bellows to build up the textile fabric of the 5 . For example, the threads running in the direction of high rigidity to be achieved are designed as monofilaments and / or high-strength fibers, while the threads running in the direction of good bendability are designed as multifilaments. For example, for the side walls of the bellows 1 , as shown in FIG. 1, the warp threads 10 running in the vertical direction are formed from monofilaments or high-strength fibers in the form of multi-filaments or monofilaments so that the side surfaces have a high degree of rigidity in their vertical extension. To support the pile chains 9 can consist of monofilament yarns or high-strength fibers. The weft threads 11 consist of conventional synthetic fibers or mixed fibers. Furthermore, it is possible to use 9 monofilaments or high-strength fibers only for the pile chains. Correspondingly, the weft threads and / or the pile chains are configured as monofilaments and / or high-strength fibers if the longitudinal direction of the fabric is not vertical, as shown in FIG. 1, but horizontal, in which case the warp threads consist of conventional or particularly flexible synthetic fibers.

For the bellows roof and, if applicable, the bellows floor, there may be e.g. B. extend the warp threads from one side wall to the other, so that here the warp threads preferably as multifilaments and the weft threads as Monofilaments are formed.

Furthermore, the double-pole fabric can also be designed as a double-pole knitted fabric be, with an upper knit and a lower knit with mesh Ver Loops are provided, between which the pole chains back and forth are inserted alternately. The above statements apply accordingly chend for the preferably designed as an uncut knitted plush Double-pile fabrics.

Fig. 3 shows a partial section in the longitudinal direction of a second example Ausfüh approximately a web of material 4 with a textile fabric 5 in the form of an uncut double pile fabric, which, except for the binding of the pile chains 9 corresponds to the first embodiment described above. The pole chains 9 are integrated here by means of a 3/6 weft pole binding. But here, too, the pole chains 9, depending on the desired density, can also connect the upper fabric 7 and lower fabric 8 by a V-bond or 3/8 W weft pile connection.

Fig. 4 shows a portion of a longitudinal section of a third example of a guide from the material web 4 of the bellows. 1 The textile fabric 5 is here coated on both sides with a plastic sheet 6 . The top and bottom layers of the plastic sheet 6 are of the same thickness, but can also be of different thicknesses. Rubber or another elastomeric plastic can be used as the plastic material.

Fig. 5 shows a partial section in the longitudinal direction of a fourth embodiment of an exporting approximately material web 4 of the bellows. 1 The textile surface 5 in the form of an uncut double pile fabric, here double pile fabric (the same applies to the double pile knitted fabric) is arranged between two flat fabric webs 13 and 14 , which sandwich the textile fabric 5 . The textile fabric 5 can be designed as described before. The flat fabrics 13 , 14 are conventional flat fabrics, but are interchangeable by warp knits. Between the textile fabric 5 and the flat fabrics 13 , 14 or knitted an additional plastic web 15 is arranged.

The exemplary embodiments described can have several superimposed textile surface structures 5 , the respective thickness and / or density of which may vary by changing the length and / or the number of pole chains, in accordance with further configurations not shown.

Claims (16)

1. Parts bellows for installation between moving vehicles or machines, consisting of a wave-shaped or in the manner of an accordion assembled, textile fabric with a polymer coating, characterized in that as a textile fabric ( 5 ) an uncut double pile fabric made of chemical or mixed fiber yarns Upper goods ( 7 ) and lower goods ( 8 ) and interposed pole pile ( 9 ) forming a pile space ( 12 ) is provided, the length and density of the pole chains ( 9 ) being selected such that these elastic connecting webs between the upper goods ( 7 ) and Form the bottom fabric ( 8 ). 2. Bellows according to claim 1, characterized in that the unaufge cut Doppelpolware is formed by a double pile fabric, the crossed warp threads ( 10 ) and weft threads ( 11 ) each consist of a chemical yarn of different strength and / or rigidity. 3. Bellows according to claim 2, characterized in that the warp threads ( 10 ) consist of a monofilament or high-strength multifilament yarn and the weft threads ( 11 ) consist of a spun fiber or multifilament yarn. 4. Bellows according to claim 2, characterized in that the weft threads ( 11 ) consist of a monofilament yarn or high-strength multifilament yarn and the warp threads ( 10 ) consist of a spun fiber or multifilament yarn. 5. Bellows according to one of claims 1 to 4, characterized in that the pile chains ( 9 ) consist of the same yarn as the warp threads ( 10 ) and / or the weft threads ( 11 ). 6. Bellows according to one of claims 1 to 5, characterized in that the chemical fibers consist of polyester, polyamide, polypropylene, Po polyethylene, polyacrylonitrile or vinylate. 7. Bellows according to one of claims 3 to 5, characterized in that the high-strength multifilament yarns consist of synthetic fibers like macaw mid, glass, carbon or high-strength polyethylene.   8. Bellows according to claim 1, characterized in that the upper fabric ( 7 ) and lower fabric ( 8 ) are formed by a knitted fabric. 9. Bellows according to one of claims 1 to 8, characterized in that the integration of the pole chains ( 9 ) is carried out by a V or W bond. 10. Bellows according to one of claims 1 to 9, characterized in that adjacent pole chains ( 9 ) are incorporated offset. 11. Bellows according to one of claims 1 to 10, characterized in that the length of the pole chains ( 9 ) is between 0.1 and 12 mm, preferably before between 0.1 to 4 mm. 12. Bellows according to one of claims 1 to 11, characterized in that the density of the pole chains ( 9 ) is between 300 pole chains / cm ² and 25 pole chains / cm ² . 13. Bellows according to one of claims 1 to 12, characterized in that a plurality of spaced textile fabrics ( 5 ) are arranged one above the other. 14. Bellows according to one of claims 1 to 13, characterized in that at least one additional flat fabric layer ( 13 , 14 ) is arranged adjacent to the textile fabric ( 5 ). 15. Bellows according to one of claims 1 to 14, characterized in that the textile fabric ( 5 ) is coated on both sides with a polymer web ( 6 ). 16. Bellows according to one of claims 1 to 15, characterized in net that an elastomeric plastic is provided as a polymer.