DE3625032A1 - Flexible driving cable - Google Patents

Abstract

Flexible driving cable for torque transmission, used for driving speedometers (tachometers) of motor vehicles or the like. To improve its tensile strength in the longitudinal direction of the cable, the flexible driving cable has a cylindrical body which consists of a spiral of iron wire through which is drawn a flexible rotatable shaft, and an elongate reinforcing element is arranged on the outer circumference of the cylindrical body and a flexible protective tube is provided, this being composed of a synthetic resin sleeve which is arranged on the outer circumference of the reinforcing element.

Description

The invention relates to a flexible drive cable as it for example for driving a measuring instrument, such as a tachometer is used for a motor vehicle, and more specifically has the improvement in strength of the flexible protective tube for this drive shaft for Object.

A flexible drive cable generally consists of a flexible, rotating shaft to transmit the Torque and from a flexible protective tube, through which the rotatable shaft is passed through, so that this shaft can rotate in the flexible tube. Since that Transfer torque even when the shaft is bent are such flexible shafts for the drive of the speedometer for a motor vehicle spread.

There is a flexible protective tube for such a flexible one Drive shaft, which uses an inner tube made of synthetic resin, and another embodiment using an iron wire coil used. In particular, the embodiment with the Steel wire helix is widely used because it has a sufficient Breaking resistance, high tensile strength and has a high length stability.  

There are two types of different construction of the flexible protective tube with iron wire helix. One has a design as shown in Fig. 1, in which a steel wire coil 1 with a semicircular cross section and a coil 2 made of soft iron wire with a triangular cross section are wound close together to form a cylinder which is coated with a synthetic resin for protection and for watertightness is.

The other embodiment has a construction, as shown in Fig. 2, in which a helically wound steel wire 4 with an approximately elliptical cross section forms a single helix with turns spaced apart, the screw body for protection and to achieve watertightness with a Resin is coated. The steel wire coil consisting of a single wire, as shown in FIG. 2, is particularly widespread because it is simple in design and can be easily manufactured.

However, even with a flexible protective tube made of a helical shape bent iron wire that is so special Has characteristics, as explained above, was in the last Time better strength, especially better tensile strength required. This is because, firstly, during assembly of the flexible drive cable this is handled more roughly will, e.g. B. by pulling the cable with great force will to reduce the efficiency of work Improve working hours, and secondly because of the cable wire works has become less easy, which leads to the fact that Cables have higher tension forces due to the expansion the space of the motor vehicle, the complexity of the machine and the increase in the number of auxiliary parts, etc., and third, because you tend to use the flexible cable even as a result of the reduction in available space in tense form.  

Fig. 3 shows a diagram which compares the tensile strengths of the known flexible protective tubes made of iron wire coils and the flexible protective tube made of synthetic resin. As can be seen from the diagram, the flexible protective tubes made of iron wire windings have a lower tensile strength than the protective tubes made of plastic.

In addition, the flexible protective tube made of iron wire twists in the event of temperature changes or due to shrinkage when Applying the resin coating its entire length. This change in length has the consequence that the drawn into the interior of the tube Part in both ends of the flexible pipe in this slips in or protrudes from the ends.

The object of the invention is to avoid these disadvantages and a flexible drive cable with a flexible protective tube  to create with iron wire helix that has a high resistance against tension, torsion or temperature changes.

This object is achieved with the invention by a flexible drive cable solved, in which the flexible protective tube a cylindrical, has a body consisting of an iron wire coil, inside which a flexible, rotatable shaft is arranged and is at least one on its outer circumference Reinforcing element and a resin coating that on the outer periphery of the reinforcing element is arranged.

This configuration has the advantage that the resin coating caused size changes can not occur and that the penetration of plastic material of the cover into the spaces between the turns of the helical Wire spirals when applying the resin cover is prevented.  

With the construction according to the invention it is possible to Strength, especially tensile strength, in the direction of pull increase thanks to the reinforcement element that is on the outer The circumference of the cylindrical body is arranged.

Further features and advantages of the invention result from the following description and the drawings in which known embodiments and preferred embodiments the invention are explained in more detail using examples. It shows:

Fig. 1 a flexible drive cable according to the prior art in a side view and partially in longitudinal section, with parts cut away,

Fig. 2 a flexible drive cable according to the prior art in a side view and partially in longitudinal section, with parts broken away,

Fig. 3 is a graph illustrating the strengths of various types of flexible protective tubes in the comparison,

Fig. 4 shows an embodiment of a flexible drive cable according to the invention in a side view and partially in longitudinal section, with parts cut away.

Fig. 5 shows a second embodiment of a flexible drive cable according to the invention in a lateral view and partially in longitudinal section, with parts broken away,

Fig. 6 shows a third embodiment of a flexible drive cable according to the invention in a lateral view and partially in longitudinal section, partially broken away parts,

Fig. 7 shows a fourth embodiment of the invention in a representation corresponding to Figs. 4 to 6 and

Fig. 8 shows a fifth embodiment of the flexible shaft assembly according to the invention in a of Fig. 7 corresponding representation.

In the embodiment shown in Fig. 4, 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 turns of which in the 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 produced by inserting the actual flexible, rotatable drive shaft 15 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 generate a resistance to tension or temperature changes in the plastic covering and prevent changes in the overall length of the flexible protective tube.

Fig. 5 shows another embodiment of the flexible drive cable according to the invention. In this embodiment, on the outside of a cylindrical body 22 , which consists of a single iron wire coil 21 , the helical winding of which is arranged at a distance from one another, reinforcement or reinforcement elements 23 are applied, which consist of helically wound elements in the opposite direction on the iron wire coil 21 and a synthetic resin cover is arranged on its outside. The flexible drive cable is formed by rotatably inserting a flexible, rotatable shaft 25 into the interior of the cylindrical body. With this construction, it is possible to prevent changes in the total length of the flexible protective tube caused by torsional forces, tensile forces or temperature changes by means of the opposing effects of iron wire coil 21 and elongated reinforcing elements 23 which are wound in opposite directions.

Fig. 6 shows another embodiment of the flexible drive cable according to the invention. In this embodiment, a braid 33 is arranged as a reinforcing element on the outside of a cylindrical body 32 , which consists of a single iron wire helix 31 , the turns of which are formed at a distance from one another, while a synthetic resin cover 34 is attached on the outside. The braid 33 consists of reinforcing elements, for example wires 33 a , which are wound approximately in the same direction as the iron wire coil 31 , and of a reinforcing element 33 b , which is wound in the opposite direction. The flexible drive cable is formed in that the flexible, rotatable drive shaft 35 is rotatably arranged inside the cylindrical body.

With this construction, the braid 33 itself develops a high resistance to expansion and contraction of the resin coating caused by tensile forces, torsion or temperature changes that can act on the flexible protective tube, thereby effectively preventing a change in the overall length of the flexible protective tube. In addition, the bending resistance of the protective tube is increased by using the braid 33 , so that a bend of the flexible drive cable with a small radius of curvature R can occur less easily and a permanent deformation does not occur, which would also affect the flexible, rotatable shaft itself.

As is apparent from Fig. 7, it is also possible to design the braid so that the reinforcing element 33 a runs parallel to the axis of the cable. This makes it possible to further increase the tensile strength of the cable in the axial direction.

As shown in Fig. 8, it is also possible to form the braid in the form of a fabric. This makes it possible to manufacture a portion in which the outer periphery of the cylindrical body 32 is wrapped. This makes it possible to prevent the penetration of covering material into the spaces between the iron wire windings 31 .

As the reinforcing member 13, 23 or 33 used in each embodiment, a metal wire such as an iron wire or an aluminum wire, a ribbon-shaped reinforcing member or a stranded wire is preferably used. However, thin threads or fibers made of 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 can also be used.

Furthermore, 14, 24 or 34 polypropylene (PP), polyvinyl chloride (PVC) or the like can be used as the synthetic resin for the resin covering. Here, PVC is advantageous from the point of view of resizing, but it has a low heat resistance. Newer motor vehicles have suffered thermal damage caused by the limited space available and the use of catalytic converters and turbochargers, so that there are sometimes cases where PVC casings cannot 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 these reinforcing elements directly onto the iron wire helix to wrap like this for each of the illustrated and described embodiments happens before a Resin cover reapplied to the outer circumference becomes.

As explained above, the flexible drive cable resists according to the invention, also in the embodiment with an iron wire coil, changes in its overall length. Consequently difficulties are avoided, such as the disappearance or protrusion of the real ones  flexible shaft or the sections connected at both ends from the flexible protective tube. It also adds durability of the flexible drive cable improved as a result of Reinforcement of the bending tube resisting bending Force.

Claims (9)

1. Flexible drive cable with a flexible protective tube, which has a cylindrical part, which consists of an iron spiral, inside which a flexible, rotatable shaft is inserted, characterized in that on the outer circumference of the cylindrical body ( 12, 22, 32 ) a reinforcing member ( 13, 23, 33 ) and a sleeve ( 14, 24, 34 ) made of resin are arranged, which is arranged over the outer periphery of the reinforcing member ( 13, 23, 33 ). 2. Flexible drive cable according to claim 1, wherein the cylindrical body ( 12 ) is formed by a single iron wire coil. 3. Flexible drive cable according to claim 2, wherein the reinforcing element ( 13 ) is formed by a plurality of linear bodies, which are arranged parallel to the axis of the cable. 4. Flexible drive cable according to one of claims 1 to 3, characterized in that the Reinforcing element of an iron wire spiral and one Wire is formed which is helical in opposite Wrapped towards the iron wire spiral is. 5. Flexible drive cable according to one of claims 1 to 4, characterized in that the reinforcing element is formed by a braid ( 33 ) which consists of an elongated body wound in approximately the same direction as the iron wire spiral body ( 33 a ) and an elongated body ( 33 b ), which is wound in the opposite direction. 6. Flexible drive cable according to one of claims 1 to 5, characterized in that one ( 33 a ) of the elongated body ( 33 a and 33 b ), which form the braid ( 33 ), is arranged parallel to the axis of the cable. 7. Flexible drive cable according to one of claims 1 to 6, characterized in that the braid ( 33 ) consists of a woven material. 8. Flexible drive cable according to one of claims 1 to 6, characterized in that the Resin cover made of polypropylene. 9. Flexible drive cable according to one of claims 1 to 8, characterized in that the Reinforcing element on a thin layer of resin is arranged, which covers the cylindrical body, and that another resin coating as well on the outer circumference of the cylindrical body is arranged.