DE2406360A1 - Worm and chain drive - has link chain on which teeth are cut to engage with worm - Google Patents

Abstract

The link chain used in this drive system is made up of links on which teeth are cut on both sides and of connecting links. The teeth on one side of the chain engage with the worm and are kept in engagement with the worm by a guide block. The teeth on the other side of the chain engage with two gearswheels over which the endless chain runs. Further guides can be provided for the chain if it is necessary to guide the chain over gear wheels located at different positions. The gear cut on the chain can be straight and the worm mounted at an angle or alternatively the teeth can be cut at an angle and have the same shape as those on a conventional worm wheel.

Description

Worm gear with inverted tooth chain envelope drive The invention relates to a worm gear with a conventionally designed worm on a rack aligned essentially in the longitudinal direction of the screw axis acts that drives one or more spur gears or affects one or more Supports support wheels.

Normal worm gear, consisting of worm and worm wheel, have the disadvantage that significant changes in the mutual spatial position of input and output shaft can only be achieved by at least the worm wheel redesigned. But even then there are the possibilities for variation low and the effort for the redesign high.

Worm rack and pinion gears are due to the limited length of the rack Not suitable for continuous power transmission and require a large amount of space for the rack.

The object of the present invention is to specify a transmission design, On the one hand the high gear reductions and - if desired - the self-locking the worm gear implemented, but on the other hand greater variability the mutual spatial position of the input and output shaft to each other with little Effort granted.

The object on which the invention is based is achieved as follows: The worm of the gear is used as a threaded spindle z. B.

executed with trapezoidal profile. The counterpart to the worm, the worm rack, is flexibly designed with a corresponding counter profile either as a toothed belt or by dividing them into individual links with corresponding connections to one Chain dissolved.

It is possible to convert the flexible rack into several chain links to form these so that each chain link has one or more carries whole teeth and the separation points between the chain links in the tooth gaps get lost.

When the flexible rack is designed as a toothed belt, there are no Separation points required, the tooth gaps are inherently flexible.

In the area of engagement with the worm, the inverted tooth chain or the toothed belt is supported in guides so that the on the chain or the toothed belt acting reaction forces are absorbed. The flexibility of the chain or the Toothed belt allows multiple diversions, which create space for suitable guide devices, so that difficulties in the design of the screw and its bearings avoided will. So z. B. in that the inverted tooth chain from its tangential to the circumference the support rollers directed path is derived by a "Schut-", room for the attachment of suitable strong bearings must be created.

On the back of the tWorm rack and pinion chain facing away from the worm is this provided with teeth. The teeth stand, as is known from inverted tooth chain sleeve drives, meshed with the teeth of spur gears.

Such a gear, in the simplest case consisting of a worm, Rack chain, gear and a guide wheel, is used for continuous power transmission suitable. In addition, such a transmission can be designed to be self-locking. It can also be used as a shell drive with a skewed arrangement of the input and output shafts be considered. The skewed arrangement of the input and output shafts in one Shell drive allows saving a second gear stage in many cases.

The advantage of the worm gear according to the invention is given by that by replacing the easy and cheap to manufacture gear and / or guide wheel against such other diameter and Change of their axis positions relative to the worm and the number of links in the chain the spatial mutual Arrangement of the input and output shaft within wide limits in a less expensive manner can be changed. In addition, gears can be used in a simple manner produce variable center distance by eccentric or support bearings of the shafts.

In the drawings, an embodiment of the invention is shown.

Fig. 1 shows a rack and pinion chain transmission with two Iiettenrifte in side view.

Fig. 2 shows a section from another toothed chain drive with a guide of the inverted tooth chain, deviating from the tangential path for training larger radial bearing of the worm.

Fig. 3 shows a side view of a chain link with helical teeth for meshing with worm and straight teeth for meshing with sprocket.

Fig. 4 shows a side view of a connecting strap for Chain links.

FIG. 5 shows the top view of FIG. 3.

FIG. 6 shows the top view of FIG. 4.

Fig. 7 shows the side view of a differently designed, for Transmission of greater forces and thus the services of a suitable chain link.

FIG. 8 shows a cross section of the chain link from FIG. 7 in the direction of the section according to FIG. 9 seen.

FIG. 9 shows the top view of a chain link according to FIG. 7 In the figures is denoted by 1, the screw in the radial bearings 2 'and the Axial bearing 3 is mounted. The screw 1 engages with its screw threads 7 in the helical teeth 8 of the rack 4, while the opposite Side of the chain with its teeth 9 in the corresponding teeth of the gears 6 engages and the local engagement with the worm 1 opposite to catch the reaction forces on the guide 5 is supported.

The rack chain 4 consists of the individual chain links 10, which are united by means of the tabs 11 to form a chain.

In Fig. 2, the rack chain 4 is before running into the gears 7 of the screw 1 and after running out of this through two additional guides 10 guided away from the screw, so that its radial bearing 2 'compared to FIG. 1 is stronger can be trained. The guides 10 can also be made in one piece with the bearings 2 ' be executed.

The chain link according to FIGS. 7 and 8 has compared to that according to FIG. 3 for the engagement with the worm no simple straight helical teeth, but designed in such a way, as it is done by pressing the worm into a chain link material that is imagined to be soft would arise. Because the part of the chain which is in engagement with the worm is guided in a straight line, there is an intimate nestling and planar contact the worm gears reached with the teeth of the rack chain.

Claims (9)

P a t e n-t a n s p r ü c h e 1. Worm gear with a worm, which is essentially on one gear rack aligned in the longitudinal direction of the screw axis engages, which in turn acts on other elements, characterized in that the rack (4) as flexible pulling or pushing means is formed. 2. worm gear according to claim 1, characterized in that the flexible rack (4) is endless. 3. worm gear according to claim 1 and 2, characterized in that that the rack (4) is designed as a link chain with a toothed profile (8). 4. worm gear according to claim 1 and 2, characterized in that that the rack (4) is designed as a belt with a toothed profile (8). 5. worm gear according to claim 1 to 3; characterized, that the side of the rack (4) facing away from the worm has a toothing (9) is provided, which engages in the teeth of one or more gears (6). 6. worm gear according to claim 1 to 4, characterized in that that the rack (4) is supported in one or more guides (5, 10). 7. worm gear according to claim 1 and one or more of the preceding claims, characterized in that the guide (5, 10) a or has several turning points. 8. worm gear according to claim 1 and one or more of the preceding Claims, characterized in that they come into engagement with the worm (1, 7) Teeth (8) of the racks (4) are designed as straight teeth, with the axis (s) the snail is (are) arranged crookedly. 9. worm gear according to claim 1 and one or more of the claims 2 to 6, characterized in that the coming into engagement with the worm Teeth of the rack chain in an intimately hugging shape and with a flat surface Touching the worm threads are designed. L e r s e i t e