Arrangement for belt drive device

The invention relates to an arrangement for a belt drive device, which comprises two continuous drive belts, which arc arranged to be operated by means of drive rollers (2), and which are arranged to travel around stretching rollers as continuous loops spaced apart, and which are arranged to be pressed by means of press rolls against the opposite surfaces of a cable or the like (3) to be drawn. In order to provide a simple structure, the drive rollers (2) are arranged to be rotated by a single power source by driving two planetary gears (8) connected in parallel and provided with angular front transmission. The rotary motion generated by the power source is arranged to be transmitted in the same direction to primary axles (9) of both planetary gears (8) provided with angular front transmission in order to rotate secondary axles (10) and the drive rollers (2) connected thereto in opposite directions.

BACKGROUND OF THE INVENTION

The invention relates to an arrangement for a belt drive device, which comprises two continuous drive belts, which are arranged to be operated by means of drive rollers, and which are arranged to travel around stretching rollers as continuous loops spaced apart, and which are arranged to be pressed by means of press rolls against the opposite surfaces of a cable or the like to be drawn.

At present, belt drive devices mentioned above are commonly used in cable production lines, for instance. Flat transmission belts, i.e. belts whose both surfaces are smooth, are commonly used as cable driving belts, for example. Drive belts in which the surface that is being pressed against the cable is shaped in a suitable manner are also used in the field.

Drive belts are made to move by rotating the belt wheels of the drive device by means of a suitable power source, which is usually an electric motor. In several arrangements, the rotating force is transmitted from the power source by means of several separate gear systems connected in series, for example. The prior art also teaches arrangements where the power source consists of two separate electric motors and several belt drives. An example of the prior art arrangements is disclosed in Finnish Patent 103,613.

A drawback of the prior art arrangements is the complicated structure of the mechanism which transmits the force moving the drive belts from the power source to the belts. This has often resulted in a large and expensive transmission mechanism. The large size of the transmission mechanism is clearly disadvantageous and the high price thereof reduces its cost-effectiveness.

An object of the invention is to provide an arrangement eliminating the aforementioned drawback. This is achieved by the arrangement according to the invention, which is characterized in that the drive rollers are arranged to be rotated by a single power source by driving two planetary gears connected in parallel and provided with angular front transmission, and the rotary motion generated by the power source is arranged to be transmitted in the same direction to primary axles of both planetary gears with angular front transmission in order to rotate secondary axles and the drive rollers connected thereto in opposite directions.

An advantage of the invention over the prior art is that the transmission from the power source to the drive wheels can be implemented in a cost-effective and simple manner. Such a simple structure is also useful in view of maintenance and repair, since it is very easy to replace different components, for example.

FIG. 1shows schematically a belt drive device, which comprises two continuous drive belts1, which are operated by means of drive rollers2. The drive rollers are operated by means of a suitable power source, for example an electric motor. The drive belts1are arranged to travel at a distance from each other as continuous loops around stretching rollers6, whereby a cable or the like3is arranged to travel between the drive belts in such a manner that the drive belts are pressed against the cable or the like, drawing it along as they travel. The expression ‘cable or the like’ refers herein to any product that acts similarly as a cable during the operation of the drive device. Examples include ropes, wires, etc, in addition to cables. The drive belts1are made to press against the cable or the like3by means of press rolls4, which are pressed against the inner surfaces of the drive belts1at the point of the cable or the like3. In the situation ofFIG. 1, the direction of travel of the cable or the like is from the right to the left. The direction of travel is indicated inFIG. 1by means of an arrow.

The above matters are known per se to those skilled in the art, wherefore they will not be discussed in further detail herein. In this connection, reference is made for example to Finnish Patent 103,613 cited above as representing the background art.

FIGS. 2 to 6show schematically an arrangement according to the invention. InFIGS. 2 to 6, like reference numerals refer to like parts as inFIG. 1. For the sake of clarity, the drive belts are not shown inFIGS. 2 to 6.

According to a basic idea of the invention, the drive rollers2are arranged to be rotated by a single power source7, which can be for example an electric motor, as stated above. The arrangement utilizes two planetary gears8connected in parallel and provided with angular front transmission. The planetary gears8with angular front transmission are arranged such that their primary axles9are parallel. This is clearly visible for example inFIGS. 2 and 5. The rotary motion generated by the power source7is arranged to be transmitted in the same direction to the primary axles9of both planetary gears8with angular front transmission in order to rotate secondary axles10and the drive rollers2connected thereto in opposite directions.

Any suitable device can be used as a planetary gear8with angular front transmission. An example of an applicable planetary gear provided with angular front transmission is the device 303R manufactured by Transmital Bonfiglioli.

The use of two planetary gears8provided with angular front transmission and arranged opposite one another enables the rotation of the drive rollers2in opposite directions in an advantageous manner, since the structure is very simple compared to the prior art arrangements. It should be noted that in the invention a single power source7makes the drive rollers rotate in opposite directions without a need for the previously used complicated separate gear mechanisms or other complex structures, such as the use of two power sources or the like. It can be estimated that for example in heavy-duty drives, the costs of the arrangement according to the invention are about 60% lower than those of the prior art arrangements.

Since the primary axles of the planetary gears8provided with angular front transmission are arranged to be parallel, the rotary motion generated by the power source7can be transmitted to the primary axles9of the planetary gears8with angular front transmission by means of a suitable transmission, such as a belt transmission11, which advantagously makes the secondary axles rotate in opposite directions. In the example shown in the figures, the primary axles9are arranged to be parallel in such a manner that the symmetry axes thereof are on the same line. However, the primary axles can also be parallel for example such that their symmetry axes are spaced apart, if such an arrangement is considered necessary. The belt transmission11can be for example a transmission based on a toothed belt. In the example shown in the figures, the belt transmission consists of two parallel belts. The possibly rather great radial forces generated by the belt transmission11are distributed simultaneously to the primary axles9of both planetary gears8with angular front transmission. The belts are naturally designed suitably for each situation. The belt transmission can naturally be replaced with some other transmission mechanism known per se.

The radial loads of the secondary axles10of the planetary gears8provided with angular front transmission are in turn compensated by separate supporting bearings12arranged near the drive rollers2provided on the secondary axles10. The supporting bearings12can be of any suitable type, such as cone bearings.

The embodiments described above are by no means intended to restrict the invention, but the invention can be freely modified within the scope of the claims. It is thus obvious that the arrangement according to the invention or the details thereof do not have to be identical to those shown in the figures, but various other solutions are also feasible.