DE1196905B - Flexible drive transmission element in the manner of a threaded cable - Google Patents

Description

Flexible drive transmission member in the manner of a threaded cable Die The invention relates to a flexible drive transmission member for remote transmission a driving force and relates in particular to such a drive transmission element in the manner of a threaded cable with a helical winding carried by a cable core for the engagement of a gear, in particular for the drive of sliding windows on motor vehicles.

Such a drive transmission element works, depending on whether it is arranged to be axially displaceable or rotatable, in the manner of a flexible toothed rack or in the manner of a flexible spindle. For the particular application of operating a sliding window on motor vehicles, the axially displaceable arrangement of the drive transmission member is preferably used to convert a rotating drive, for example by a motor or a hand crank, into a translational movement.

In known threaded cables, which are flexible drive transmission organs have proven themselves many times in practice, serves as a carrier for an external winding, the so-called labor winding, one of a more or less large number of Wires formed cable, the wires stranded in a known manner and often nor of pressure-transmitting, additional windings with tightly packed Turns are surrounded. These known threaded cables are therefore relatively expensive in of manufacture and have, especially when a long-distance transmission over long distances is required, a considerable dead weight. In addition, such drive transmission organs are relatively stiff and therefore when laid in curved guide tubes as a result considerable frictional losses result in an unfavorable degree of efficiency. Indeed the known threaded cables have a strength that is necessary for many areas of application in the drive transmission is not required, while on the other hand their relocation due to the relative stiffness must always be done so that the bending radius at curvatures does not fall below a given minimum.

According to the invention in a flexible drive transmission member in the manner of a threaded cable, the cable core consists of an essentially one-piece Profile length formed from flexible material that is only part of the length of the screw winding occupies limited cylindrical cavity. This is advantageous in this way achieved increased flexibility, i.e. the minimum radius of curvature when laying of the cable is appreciably reduced and at the same time the weight is reduced. aside from that Production is simplified with a corresponding reduction in production costs.

The profile length used as a cable core according to the invention is preferably formed with radial projections between individual turns grip the outer winding.

In the case of a drive transmission element according to the invention, the cable core essentially homogeneously made of any suitable material, for example metal, Made of plastic or rubber and, if necessary, longitudinal reinforcement, For example, an embedded wire, a thin wire rope or the like. Contain.

According to the invention, the cable core can expediently consist of a band-shaped insert which has projections formed at least on one edge by recesses and engaging radially between individual turns. Such a profile, as it is, for example, further below with reference to FIGS. 1 is particularly suitable for installations where curvatures are essentially only required in one plane, namely in the main plane lying perpendicular to the plane of the strip insert. The minimum dimension of the radius of curvature is only about a third of that of known threaded cables, and the friction ratio is significantly reduced. The band-shaped insert, however, also allows laying with curvatures in multiple planes, since the band-shaped insert has the tendency to adjust itself to the bending plane so that the broad side of the tape is somewhat perpendicular to the bending plane.

However, it is particularly expedient according to a further inventive concept to use a band-like insert that has a twist in itself. Through this particularly small bending radii are made possible because a bend over the high edge of the tape can easily be avoided.

In a continuation of the inventive concept, it is also possible as Drive transmission member for relatively small forces an empty helical winding without using a profile insert, as this may be due to the spring effect Occurring shortening of the winding by turning the drive wheel further by a few Teeth can be compensated. It is then on the output side, for example in the End positions of the part to be moved, in addition to those obtained by turning the Drive stored spring force of the transmission member available to the displaceable To hold part under spring action in its end position.

A drive transmission member according to the invention preferably consists from a helical winding made of steel wire with an insert made of strip steel. It can however, the winding and / or the profile can also be made of plastic.

Some exemplary embodiments of the invention are described below with reference to the drawing. It shows F i g. 1 shows a drive transmission element according to the invention with a simple insert, FIG. 2 shows a modified embodiment with a wound insert, FIG. 3 shows a further embodiment with an essentially triangular cross-section of the insert, FIG. 4 shows a simplified embodiment without insert, FIG. 5 shows a known threaded cable as prior art, and FIG . 6 and 7 schematically two examples for the arrangement of a drive transmission according to the invention for operating a sliding window in a motor vehicle for manual drive and electric drive.

In the drawing, a drive gear 1 is shown schematically in each case, which is fixedly arranged on an axis 2 which can be rotated by hand or by machine in both directions. The turns 4 of a helical winding 3 are in mesh with this gearwheel.

It was previously known, according to FIG. 5 to mount such a winding 3 over a flexible steel cable 5 of circular cross-section. Such threaded cable are compressively rigid mounted in slide guides, which extend from the drive to the waste powered by the cable and to prevent lateral deflection of the loaded cable. In many cases, however, both the weight, the unfavorable efficiency and the manufacturing costs for such threaded cables represent a significant disadvantage.

This deficiency is compensated by the in F i g. 1, 2, 3 and 4 according to the invention shown remedied. According to FIG. 1 is above a sheet steel strip 6, a winding 3 such that the turns 4 of the winding insert themselves into recesses 7 appropriately offset on the edges of the strip 6 , the remaining edge parts 8 protruding between adjacent turns. The winding 3 is, like the cross section on the right-hand side of FIG. 1 shows, designed as a cylindrical helical winding, so that a considerable depth of engagement for the teeth of the drive wheel 1 is available on both sides of the strip between the individual turns 4. In the drawing, the gear wheel 1 is placed in the plane of the strip 6 for the sake of simplicity of illustration, but in practice the strip 6 is expediently placed so that it forms an angle of 901 with the plane of the drive wheel.

It will be appreciated that the winding of FIG . 1 can be used with advantage wherever the laying takes place in bends of the transmission element in the plane perpendicular to the plane of the belt. However, it can also be used when laying in several levels, adapting the smallest bending radius according to the position of the levels.

In the modified form according to FIG. 2, a strip insert 9 is wound in itself and this gives a further possibility of bending in any planes. The smallest possible bending radius changes with the slope of the twisting of the strip 9. The lower the slope, the smaller the bending radii are made possible, so that in this respect a simple adaptation of the design of a transmission member according to the invention to the circumstances of the individual case is possible.

F i g. 3 shows a side view and section of a profile 10, the cross-section of which is essentially triangular, the two edges 11 and 12 of the triangle not exceeding the clear winding cross-section, while the third edge 13 has projections 14 which are formed by recesses 15 of the edge 13 and at such a distance from one another that each recess 15 receives several turns of the winding 3 before a projection 14 engages between two adjacent turns. The profile 10 consists of plastic with a longitudinal reinforcement in the form of an approximately axially inserted wire 24. It can optionally also be made from a relatively hard soft gunimi with or without a reinforcement insert 24.

F i g. 4 shows a particularly simple embodiment of a transmission with an empty helical winding 3, in which no insert is required. The winding 3 is guided axially displaceably in a tubular guide 16 , the guide having a recess 17 for the engagement of the gearwheel 1 . The winding 3 is connected via a connecting member (not shown) to a part 18 to be displaced, which can be, for example, the fitting of a sliding window. The guide 16 with the helical winding 3 lies behind the plane of the part 18 to be displaced and is provided with a slot 19 for the passage of the connecting link between the winding 3 and the part 18 to be displaced over the displacement path in a manner known per se.

Guides corresponding to the flexible tube 16 of FIG. 4 are, of course, also useful in a manner known per se during installation for the transmission elements according to FIG. 1, 2 and 3 provided.

F i g. 7 schematically shows the laying of such a guide 16 between the lower edge of a sliding window 20 and a manually operated crank drive 21, the crank axle carrying the gear 1 described above. In the area 22, the guide 16 is laid parallel to the displacement path of the window and is provided with a longitudinal slot 19 . F i g. 6 shows another way of laying the cable guide 16, with an electric motor 23 also being provided as a drive instead of a hand crank 21.

The tube 16 can be made entirely of metal or plastic, but can also be divided and made with elastic, sleeve-like bridges 24. This design is sometimes desirable to facilitate assembly, when it allows the tube to be collapsed, for example inserted into the cavity of the door.

Claims 8, 9 and 10 are genuine subclaims for which protection is only claimed in connection with the main claim.

Claims (2)

Claims: 1. Flexible drive transmission element in the manner of a threaded cable with a helical winding carried by a cable core for the engagement of a gear wheel, in particular for the drive of sliding windows on motor vehicles, characterized in that the cable core consists of a substantially one-piece profile length (6, 9, 10 ) consists of flexible material which only takes up part of the cylindrical cavity delimited by the helical winding (3). 2. Device according to spoke 1, characterized in that the profile (6, 9, 10 ) engages with radial projections (8, 14) between individual turns (4) of the winding (3). 3. Apparatus according to claim 1 or 2, characterized in that the profile consists of a band-shaped insert (6, 9) which has projections (8) on at least one edge which are formed by individual turns (4) engaging behind recesses (7) The depth of the recesses is only a fraction of the diameter of the winding material. 4. Apparatus according to claim 3, characterized in that there is a small radial play in the order of 0.1 to 0.2 mm between the recesses (7) and the associated turns (4). 5. Apparatus according to claim 3 or 4, characterized in that the band-shaped insert (9) is designed with a twist. 6. Device according to one of claims 3 to 5, characterized in that the insert (6, 9) consists of steel strip. 7. Apparatus according to claim 1 or 2, characterized in that the profile (10) has a substantially triangular cross-section. 8. Device according to one of the preceding claims, characterized in that the winding (3) and / or the profile (6, 9, 10) are made of plastic. 9. Device according to one of the preceding claims, characterized in that the profile consists of rubber. 10. Apparatus according to claim 8 and 9, characterized in that the profile (6, 9, 10) contains a reinforcement, for example an embedded wire (24). Documents considered: German Patent No. 610 081; French patents nos. 1190 600, 809914.