DE829354C - Rotary body made of hard tissue - Google Patents

Description

Rotary body made of hard tissue The invention relates to rotating bodies made of hard cores, such as gearwheels, be Iwheels or disks, clutch and brake disks, Friction wheels and rollers, bushings, bearing bushings and the like, both to full Rotary body as well as split rotary body and parts thereof, such as. B.

Wheel or disc sectors, bearing shells and the like.

The known rotating bodies of this type are made of stacked, circular or circular segment-shaped fabric panels formed from a Wide fabrics are cut out or punched out. I) a in such a fabric the Warp and weft threads are crossed at right angles, the thread threads have in the rotating body a less favorable course, with the result that the bodies are in different places their scope have different mechanical properties. To at least one to achieve a nearly uniform quality so z. B to reach. that the cheaper and less favorable running threads on the circumference of the rotating body as possible are evenly distributed, one proceeds in the layering of the fabric panels as follows: that these are always slightly twisted against each other around the body axis, so that the Threads of the successive plates are offset at an angle to one another.

The invention is based on the object of the course of the fabric threads to improve in rotating bodies made of hard tissue. The aim is in essence according to the invention achieved in that the tissue layers of the hard tissue rotating body with partly in running essentially radially, partly essentially concentrically to the body axis Threads are woven, preferably by the turns of a helical woven tape are formed. Such tapes are already known for other purposes. They are won by the fact that the shot is not constantly over the whole range, but is entered in such a way that on each bandal> sclln itt or report successive Go shots of their gradually decreasing parts of the bandwidth. The number of shots takes therefore from one edge (inner edge) of the tape to the other edge (outer edge) gradually to with the consequence. (Latin: the band curves upright and has the shape of a Assumes a screw with turns lying flat on top of one another. For making a Rotary body according to the invention can each have a strap screw from one of the axial Extension of the body corresponding length or, in other words, a helical one Tape are used, the number of turns of the number required for the rotating body of fabric layers. The tape is made with a hardening binder, such as Synthetic resin, especially phenol-formaldehyde resin, impregnated and then with the application of heat perpendicular to the plane of the fabric layers, d. H. H. iii. \ chsrichtuiig the one formed by the tape Screw pressed into a solid body.

\ N'ie easily seen running out of a helical shape woven tape made rotating body all the warp threads of the fabric to the axis of the rotating body concentric circles between w. helical lines, while the weft threads all have a radial course. So it's a special one favorable thread arrangement achieved in the rotating body. with the special advantage consists that this favorable arrangement in all parts of the rotating body evenly is present, so that a consistently uniform strength of the body, in particular can also be achieved in terms of its scope. t) as for the production of the new hard tissue rotating body serving helical tape can be woven in any width and further so that the screw formed by him has an axial cavity of more as desired or less large clear width encloses. On the one hand, this can lead to roles Wheels, disks or rollers of any diameter can be produced, on the other hand can make the necessary axial bores for axes in these bodies o. The like. Be cut out without causing tissue waste. Can at all the helically woven tapes are completely processed into orbital bodies. Of the heim edging cutting out or punching out the fabric layers from wide fabrics Large waste is therefore avoided, which makes the production of the rotating body cheaper will. This also results in a reduction in price. that the hitherto necessary special Layering fabric panels on top of one another and twisting them in such a way. that the threads of the adjacent fabric panels are offset at an angle to one another. be saved. In the embodiment according to the invention, one smokes continuously helically woven tape only appropriate to the rotating body to be produced Separate length and then immediately has a layered, cylindrical tissue body. An essential advantage is that the layers of the @ Fabric into a coherent whole through the warp threads running through it are connected.

Because all warp threads are concentric in the new hard tissue body to the body ache and all weft threads run radially, the advantageous one offers itself Possibility of the strength properties of the body largely dcii occurring Adapt to stresses. Depending on whether centrifugal resp. radial forces or tangential or circumferential forces occur, optionally reinforce the weft threads or the warp threads by either for the weft stronger or thicker threads or threads made of stronger material, be it now fiber threads or even aluminum threads, takes as for the chain, or vice versa. If necessary, the helical tape can also be woven in by more or less strong metal wires are to be armored. Furthermore, one is iii capable of concentric Zones of different strength, that is to say, for example, on the circumference of the rotating body to create a zone of greater strength by having the helical band at various points along its width chain thread of interdependent strength l> betw. Contains thick or warp threads made of different materials, or thereby, that the warp thread density is chosen differently in different places. For the same purpose, the helical ban <l can optionally also under Use of two either in terms of their strength or thickness or their material different weft threads are woven in twos such that the groove over one the part of the tape width adjacent to the outer edge of the tape consist of the stronger thread. Or it can be on an adjacent one of the outer edge Part of the band the Sdoußdichtc can be chosen larger. of the possibility of concentric To create zones of different strength, it is preferable to use clutch disks, Make use of friction wheels and rollers.

Furthermore, the zone-wise reinforcement of the helical band be used for this. around projections that run around the rotating body, such as bulges or even to produce flanges or collars, i.e. to profile the rotating body.

When it comes to manufacturing ven clutch plates, friction rollers and wheels otlcr similar rotating bodies, which are aimed at achieving If there is a large amount of friction, the helical sand can either be on its galizen lreite or zonal, z. 14. near the outer edge, zenit fixed Rubbing materials iii flour or powder form encrusted, breaded, so to speak. be, or either the warp threads or the weft threads can be one of these Preserved encrustation.

Within the scope of the invention, it is also possible to I) manufacture deer bodies. tlie only partially, e.g. B. in their (outer) zone adjacent to the circumference, made of hard tissue bribe. their fabric layers with partly essentially radial, partly essentially threads concentric to the axis of the body are woven. iii their the Axial @ drilling adjacent (inner) zone, on the other hand, consists of unreinforced or only with a crushed one or powdered filler blended synthetic resin exist, so any required To facilitate machining of the inner cell. Furthermore, ini diameter can be offset Rotary bodies are produced, iiidein the body from several in the axial direction one behind the other Band screws of various diameters is formed. Finally the rotating body kanii in addition to the helical band, other flat deposits, e.g. B. from a wide fabric, from paper peeling wood o. The like. Contained between the Turns of the helical band are placed.

Instead of phenol-formaldehyde resin, another Synthetic resin or another hardenable plastic can be used.

\\ As mentioned at the beginning of the description, according to the invention not only complete or one-piece 1 rotating bodies, but also in several sectors subdivided 1 rotating body or sector-shaped rotating body parts are produced. Here, the sectors are made up of a reasonable number of sections of the helical Band formed, the arc length of which corresponds to the desired section of a rotating body. The tape sections are ciiifacli layered on top of one another with a binding agent soaked and then pressed perpendicular to the plane of the tissue with the application of heat. One can also where to proceed. that a screw formed by the woven tape is more suitable Cut lengthwise several times. Here you get the education of the sector-shaped body required tape sections in layered form, so that the special superimposing is saved.

The lengthwise cutting can also be used during manufacture complete rotating body can be applied. around the adjacent screw turns to separate from each other. If you cut a strap screw lengthwise, then Each turn forms an independent plate or Cillell independent ring. the When the tape body is pressed together, it lies in one plane, so that all ie original Screw shape is lost.

In this way one obtains a body made up of flat layers stacked one on top of the other There is circular disks or circular ring disks in which there is always a group of threads concentric, while the other group is radial. Instead of this by cutting it open of a helically woven band, therefore, once radially Slotted disks or ltinge can be used for the purposes of the invention if desired anelt fabric panels can be used. from the outset in the form of a circular disk or washer woven with partly concentric, partly radial threads or are followed and therefore do not contain a radial slot. but a Form closed circular fabric. so-called disc or plate fabric. In the production of these closed circular disks otler ring disks can optionally be done in this way. that a group of threads is arranged radially. during a Continuously the thread in spiral form, and thus essentially in to the center of the disk concentric circles, and crossed with the radial threads vet.

They are already rotating compacts, like wheels.

Discs, rings and the like made with a binder such as synthetic resin, impregnated fibrous materials known, the radially or approximately radially extending threads and possibly also contain threads running in a spiral shape. It will the rotating body is not made up of layers of tissue, but rather of loose threads, which are laid individually in the binder. Laying the threads individually is one laborious and time-consuming work, thus making the production of the pressed bodies considerably more expensive. Furthermore, there is no guarantee that the threads will be evenly distributed. Apart from that from the fact that irregularities can easily occur during laying the danger that the threads that are not secured in their mutual position will come into contact with each other Postpone pressing process undesirably. In the case of the subject matter of the invention Hard tissue rotating body with partly essentially radial, partly essentially concentric Threads running to the axis of the body have eliminated these defects, and at the same time it is allows simple and economical production because the radial and concentric Threads are interwoven by making either a helical ribbon fabric or form a so-called plate fabric.

It is known denier, a wheel rim for gears from a straight woven tape with weft threads arranged perpendicular to the longitudinal warp threads in such a way that the resin-soaked tape in the middle of it Cut in a zigzag or wavy line, folded lengthways and then wound upright to form a ring, what this ring is together with a pre-pressed part made of synthetic resin molding material for the wheel body will. I) This process also has significant defects and roof parts that l> ei of the invention are avoided. The upright winding of a straight woven ribbon is quite cumbersome and difficult. The resulting shortening of the interior The edge of the tape can be caused by the fact that when cutting according to a wavy or zigzag line Small gaps arise on the inner edge, which at most can only be partially compensated for. Consequently the surfaces on the inside edge of the tape are pressed together so that results in an uneven distribution of the threads in the ring. The possibility of upright winding is finally limited to narrow bands, so that according to the known method only ring-shaped pressed bodies with a small radial extent can be produced, so only wheel rims. but no whole wheels, disks ti. like

Claims (15)

PATENT CLAIMS: 1. Rotary body in one piece or divided into sectors made of Hargeeweb, thus characterized that draws its layers of tissue with partly radial, partly essentially concentric to the body axis running threads are woven. 2. rotating body according to claim I, characterized in that its Layers of fabric formed by the turns of a helically woven ribbon are. 3. Process for the production of rotors from hard tissue according to Claim 1 and 2, characterized in that a band woven in a helical shape, whose number of turns corresponds to the desired number of fabric layers, with a hardening one Binder, such as synthetic resin or the like, soaked and then with the application of heat in the direction the screw axis is pressed into a solid body. 4. rotating body according to claim I or 2, characterized in that in its fabric layers the concentric threads on the one hand and the radial threads on the other hand have different strengths or thicknesses. 5. rotating body according to claim 1 or 2, characterized in that in its fabric layers the concentric threads on the one hand and the radial threads on the other hand, consist of different materials. 6. rotating body according to claim 1 or 2, characterized in that its layers of fabric in different concentric zones threads, in particular concentric threads, of different strengths or thicknesses, or made of contain different materials. 7. rotating body according to claim 1 or 2, characterized in that its layers of tissue in different concentric zones are different Weft thread density or in particular have a different warp thread density. 8. rotating body according to claim 1 or 2, characterized in that it is reinforced by metal wires woven into its fabric layers. 9. Drebkörper according to \ tsl> i-uchr or 2, characterized in that that its fabric layers or their warp or weft threads with solid friction materials are encrusted in powder or powder form. 10. Rotary body according to claim I or 2, characterized. that it consists only partially, for example in an outer zone, of hard tissue, its tissue layers with partly essentially radial, partly essentially concentric to the body axis running threads are woven, on the other hand, for example in an inner zone, against it made of unreinforced or mixed with crushed or powdered fillers Synthetic resin or the like. Is made. II. Rotary body according to claim 1 or 2, characterized in that between the partly concentric and partly radial threads Fabric layers Layers of other fabrics or of non-woven materials such as paper, Peeling wood o. The like. Are arranged. 12. Rotary body according to claim 2, characterized in that its Fabric insert made up of several helical bands placed axially one behind the other consists of different outer diameters. 13. Rotary body according to claim 2, characterized in that the helical Ribbon fabric cut lengthwise and so into flat circular disks or circular ring disks is divided. 14. Rotary body according to claim I, characterized in that its Tissue layers consist of plates that are in the form of self-contained circular disks or circular ring disks with partly essentially radial, partly essentially concentric running threads are woven. 15. Subdivided into sectors rotary body according to claim I, characterized marked 'that each sector consists of a number of stacked Sections of a helically woven tape is formed.