DE3625032C2 - - Google Patents

Description

The invention relates to a flexible drive cable a flexible protective tube that has a cylindrical part has, which consists of an iron wire coil, in the inside of which introduced a flexible, rotatable shaft is, with one on the outer circumference of the cylindrical Part of the protective tube arranged reinforcing element and with a plastic cover over the outside Scope of the reinforcing element is arranged as it for example for driving a measuring instrument, like a speedometer for a motor vehicle will, and has more in detail the improvement of the train strength of the flexible protective tube for this drive wave to object.

From the registered documents of DE-GM 68 10 416 a flexible drive cable known, in which a rotatable Drive shaft consisting of a flexible protective tube from a single iron wire coil, one as a metal structure braided reinforcing element and a cover is surrounded by a plastic material. The metal braid consists of interwoven steel wire strands, which are interwoven in groups. This well known and the starting point of the present invention flexible drive cable is disadvantageous because of the manufacture both of the interwoven steel wire strands as  also when applying the outer shell because of the requ wedging between the braid and the sheath very is complex.

GB-PS 4 20 443 describes a flexible drive cable with a drive cable similar to that described above Structure, wherein the reinforcing element is not made of one Wire mesh, but from several, opposite screw metal wires arranged ben-shaped around the iron wire helix consists. The disadvantage here is that, due to the helical arrangement of the protective tube on the one hand and of the reinforcing element, on the other hand, the tensile strength of the drive cable essentially from the tensile strength of the the envelope surrounding the reinforcing element is dependent. About that also touch in this known drive cable neighboring ties of the iron wire coil, so that the bend speed of the drive cable is reduced and that an un wishes high noise transmission along the shaft det.

It is also known to use a Bowden cable with an iron wire coil, to provide a wire mesh and an outer shell. This emerges from JP 56-70 117 (A), in which also the outer shell must be applied so that the intermediate spaces in the area of the cable mesh completely filled will.

The US-PS 32 38 808 also discloses a Bowden cable, at but the reinforcing element is not made of wire braid, but from several, closely fitting and spirally winding wires around the protective tube stands. This version is very expensive connected.

After all, this is in the registered documents of the DE-GM 19 38 945 described flexible drive cable in the we  substantial from a metal wire coil with an elastic Plastic protective cover, in which a metal wire mesh is embedded. The manufacture of this well-known flexible Drive cable is particularly expensive because of the metal wire coil first applied a plastic tube which is then surrounded by the metal wire mesh becomes. The shell to be finally sprayed on must Penetrate metal wire mesh in a liquid state and at least partially with the material of the hose Establish connection. This "double" plastic tubing cover is primarily used for noise reduction.

The problem mentioned at the beginning, a flexible drive cable with a sufficiently high tensile strength not as old as this drive cable itself Demand for better tensile strength itself came a lot more recently. This is because firstly when assembling the flexible drive cable this rough is handled, e.g. B. in that the cable with large Force is drawn in to work through the efficiency Reduce working hours and improve because two at least the cable wire works has become less light, which leads to higher tension forces being exerted on the cable due to the expansion of the space of the motor vehicle total, the complexity of the machine and the growth of the Number of auxiliary parts etc. and thirdly because one the flexible cable tends to itself as a result of the rings the available space in a tense form.

In the known flexible drive cables are always both screw the protective tube and the reinforcing element arranged in a line around the drive shaft. It is very important to achieve sufficient flexibility, however, this increases the tensile strength of the known drive cable very limited. Rather, this becomes essentially  on the material properties and thickness of the outer shell certainly.

Proceeding from this, the object of the invention is the known and initially described flexible drive cable To design and further develop the tensile strength of the drive cable with simple manufacture ver is improved. Furthermore there is a high resistance against Torro sion or temperature changes desired.

This object is achieved with a flexible by the invention Drive cable solved, in which the reinforcing element we at least has a rectilinear body, and this ge straight bodies parallel to the axis of the drive cable is ordered.

Due to the construction according to the invention, according to which the reinforcement Kungselement at least one parallel to the axis of the cable arranged rectilinear body, it is possible to provide the drive cable with sufficient tensile strength hen. Surprisingly, it has been shown that the Flexibi lity of a flexible drive shaft through the arrangement of rectilinear bodies in the manner previously described is not restricted, but the tensile strength is increased Lich can be increased. It is particularly advantageous for this one or more straight lines arranged parallel to the cable axis lined body with helical in opposite Direction to the iron wire coil arranged in line To combine bodies.

In a further embodiment of the invention, it is possible to Ver strengthening elements made of different materials hen. The straight line and / or the screws can be used linear in the opposite direction to the iron wire coil-wound body made of metal wire, of thread or Fa  from polyamide resin or synthetic resin, from inorganic or consist of natural fibers.

According to a further teaching of the invention it is provided that the reinforcing member over a thin layer of resin train is arranged, which covers the cylindrical body, and that another resin coating also on the outer surface catch of the reinforcing element is arranged. Such Design has the advantage that the resin coating ago called size changes can not occur and that the penetration of plastic material into the cover Spaces between the turns of the helical wire spirals when applying the resin cover is prevented.

In contrast, the only one in the prior art is written way to achieve sufficient tensile strength speed in a positive connection between the reinforcing element and to provide the outer shell. However, there is always an expense for this to provide extrusion process, and the material choice for the outer shell is severely restricted. On the other hand is the manufacture of the flexible drive according to the invention cables have been greatly simplified because of special manufacturing Machines can be omitted and the application of the parallel straight to the cable axis on the protective tube body at the same time as the shell is extruded around it Protective tube can be made.

Further features and advantages of the invention result from the following description and the drawings in which preferred embodiments of the invention with reference to play are explained in more detail. It shows

Fig. 1 shows an embodiment of a flexible drive cable according to the invention in a side view and partially in longitudinal section, with parts are cut away and

Fig. 2 shows a second embodiment of the invention in a representation corresponding to FIG. 1.

In the embodiment shown in Fig. 1, the flexible protective tube 10 consists of a plastic or synthetic resin sleeve 14 , which is applied to the outside of a cylindrical body 12, which is formed by a single, helically wound iron or steel wire coil 11 , the Windings are spaced from each other. On the outside of the cylindrical body 12 , a reinforcing element 13 is arranged, which consists of several elongated bodies, which are arranged parallel to the cable axis.

The flexible drive cable is manufactured in that the actual flexible, rotatable drive shaft 15 is inserted into the interior of the cylindrical body of the flexible protective tube 10 . Both ends of the flexible drive cable are then attached to the drive or speedometer or the like (not shown) such that the other end of the shaft rotates when one end of the rotatable flexible shaft is rotated.

As a result of the construction according to the invention, the reinforcing elements 13 extending in the axial direction produce a resistance to tensile or temperature changes in the plastic casing and prevent changes in the overall length of the flexible protective tube.

Fig. 2 shows another embodiment of the flexible drive cable to the invention. In this embodiment, reinforcement or reinforcement elements 33 are applied to the outside of a cylindrical body 32 , which consists of a single iron wire helix 31 , the screw ben-shaped windings are arranged at a distance from each other, which consist of axially extending rectilinear bodies 33 a and helical in opposite direction on the iron wire coil 31 wound bodies 33 b and with a synthetic resin cover is arranged on its outside. The flexible drive cable is formed in that a flexible, rotatable shaft 35 is rotatably inserted into the interior of the cylindrical body. With this construction, it is the oppositely directed effects of iron wire coil 31 by means and helically pern in the opposite direction to the iron wire coil 31 wound Kör 33 b and in particular with the aid of the running parallel to the axis of the cable the reinforcement member 33 a possible. To prevent changes in the total length of the flexible protective tube 30 , which are caused by torsional forces, tensile forces or temperature changes.

As a reinforcing member 13, 33 a or 33 b, which is used in each embodiment, a metal wire, such as an iron wire or an aluminum wire, a band-shaped reinforcing member or a stranded wire is preferably used. However, thin threads or fibers can also be used, polyamide resin or a synthetic resin such as polyester, inorganic fibers such as glass fibers, carbon fibers and metal fibers, or natural fibers such as hemp and cotton.

Furthermore, 14 or 34 polypropylene (PP), polyvinyl chloride (PVC) or the like can be used as the synthetic resin for the resin covering. Here, PVC is geous from the standpoint of resizing, but it has low thermal resistance. Newer motor vehicles have suffered thermal damage caused by the limited space available in the use of catalytic converters and turbochargers, so that there are sometimes cases where PVC casings are not allowed to be used. In the case where a flexible protective tube is used which has reinforcing elements according to the invention, it becomes possible to both suppress the changes in shape and to ensure the heat-resistant properties, even when using polypropylene or the like.

In addition, the reinforcing elements can also be on a thin-layer resin cover to be wound up initially is applied to the cylindrical body instead of this Reinforcing elements directly on the iron wire helix to wrap as described and described for each of the The above embodiments occur before a synthetic resin cover is again applied to the outer circumference.

As explained above, the flexible drive cap resists bel according to the invention, also in the embodiment with a Iron wire coil, changes in its overall length. As a result of difficulties, such as that, are avoided Disappearance or protrusion of the actual flexible world le or the sections closed at both ends the flexible protective tube. In addition, the durability of the flexible drive cable due to the reinforcement of one Bending of the flexible protective tube resisting force ver improves.

Claims (7)

1. Flexible drive cable with a flexible protective tube which has a cylindrical part, which consists of an iron wire coil, inside which a flexible, rotatable shaft is inserted, with a reinforcing element arranged on the outer circumference of the cylindrical part of the protective tube and with a sheath made of plastic, which is arranged over the outer circumference of the reinforcing element, characterized in that the reinforcing element ( 13, 33 ) has at least one rectilinear body ( 13, 33 a), and this rectilinear body ( 13, 33 a) in parallel to the axis of the cable ( 10, 30 ) is arranged. 2. Flexible drive cable according to claim 1, characterized in that the reinforcing element ( 33 ) has at least one further body ( 33 b) which is helically wound in the opposite direction to the iron wire coil and forms a braid with the rectilinear body ( 33 a) . 3. Flexible drive cable according to claim 1 or 2, characterized in that the body ( 13, 33 a, 33 b) consist of a metal wire. 4. Flexible drive cable according to one of claims 1 to 3, characterized in that the body ( 13, 33 a, 33 b) consist of threads or fibers made of polyamide resin or synthetic resin. 5. Flexible drive cable according to one of claims 1 to 4, characterized in that the body ( 13, 33 a, 33 b) consist of inorganic fibers. 6. Flexible drive cable according to one of claims 1 to 5, characterized in that the body ( 13, 33 a, 33 b) consist of natural fibers. 7. Flexible drive cable according to one of claims 1 to 6, characterized in that the reinforcing element a thin layer resin coating is arranged, the covered the cylindrical body, and that another Resin coating also on the outer circumference of the reinforcement Kungselementes is arranged.