DE1500372C - Infinitely adjustable V-belt drive - Google Patents

Description

The invention relates to a continuously adjustable V-belt drive with an axially displaceable one and a non-displaceable conical disk half, the hub of the non-displaceable Conical pulley half can be connected at one end to a shaft, on its outer circumference second conical disk half axially displaceable, but guided non-rotatably and at its other end one The threaded spindle is rotatably but axially immovable, the outwardly protruding threaded part of which with the internal thread of a non-rotatable, but axially displaceable from the outside supported bell meshes, in the axially immovable, but rotatable, the displaceable conical pulley half is mounted and with a hand wheel attached to the outer end of the threaded spindle, which is operated by a spring-loaded latched between the handwheel and a component secured against rotation effective ball lock can be.

The object on which the invention is based is to provide a continuously adjustable conical disk to create a V-belt drive that is undisturbed by vibrations and despite being closed and compact design is easy to maintain, with all parts easy to replace and assemble. This object is to be achieved in that

a) the handwheel is cap-shaped and sealing a coaxial cylindrical end of the Covered bell freely rotatable, the inner diameter of which is greater than the outer diameter is the hub of the non-displaceable conical pulley half and

b) that the cylindrical end of the bell serves as a non-rotatable component for the ball lock, which in a radial bore of the bell or the hand wheel is arranged and with several Longitudinal grooves on the cap-shaped hand wheel or on the bell is adjustable.

It is already known to provide an adjusting device in adjustable V-belt drives, which has a cap-shaped hand wheel which covers a coaxial cylindrical end of a bell. In this known device, however, the cap does not cover the attachment of the bell freely rotatable, but both parts interlock with a thread. Furthermore, both halves of the conical pulley are axial can be moved in opposite directions, for which two threaded spindles are required.

There are also ball locks in which one or more are acted upon by springs in the radial direction Balls interact with axially directed grooves provided on a cylindrical surface, known for various purposes to two relatively rotatable parts in different To lock positions together. Such a ball lock is also part of the subject matter of the invention used. Compared to the prior art, the subject matter of the invention has a significant effect simpler and more compact design and the omission of a fixed part inside the Arrangement an easy assembly and dismantling of parts combined in assemblies as well Easier maintenance due to the elimination of bearings.

In an advantageous further development of the subject matter of the invention it is provided that in per se known Way in both ends of the hub of the axially displaceable conical pulley half one on each Hub of the non-displaceable conical pulley half sliding bearing bush is arranged and that between the facing ends of the bearing bushes the feather key is held, which in a known manner in one groove in the hub of the axially displaceable conical pulley half and one groove in the hub of the non-displaceable one The conical pulley half engages.

A simple storage for the bell results from the fact that the inner race is one in the bell arranged rolling bearing on the hub of the displaceable conical pulley half between a shoulder and a snap ring engaging in an annular groove of the hub and the outer race of the rolling bearing is held between a shoulder and a snap ring engaging in an annular groove of the bell.

In a further advantageous embodiment, the invention provides that the threaded spindle is a cylindrical Has the end with two axially spaced bearings in the bore of the Hub of the non-displaceable conical pulley half is mounted.

An exemplary embodiment of the subject matter of the invention is shown in the figures. It shows

F i g. 1 is an end view of an adjustable V-belt transmission,

F ϊ g. 2 shows a longitudinal section of the FIG. 1 V-belt drive shown along the line 2-2 of FIG. 1,

F i g. 3 shows a section along line 3-3 of FIG. 2 and

F i g. 4 shows a section along line 4-4 in FIG. 2.

The adjustable V-belt drive has an axially immovable conical pulley half 18 with a hub 10 in which an axial bore 12 is provided. As shown in FIG. 2, a flange 14 is provided at the left end of the hub which has a frustoconical inner surface 16 which cooperates with a V-belt. A fastening device 20 is provided on the outside of the conical disk half 18. A conical disk half 22 with a hub 24 is mounted on the hub 10 so as to be axially displaceable but non-rotatable. The conical pulley half 22, like the non-displaceable conical pulley half 18, is provided with a conical flange 28, the inner surface 26 of which interacts with the V-belt. The hub 24 is rotatably supported to the hub 10 by a wedge 30, which surface in an axially directed groove 32 in the outer surface of the hub 10 and into a groove 34 in the interior _'of the hub 24 engages. In order to facilitate the displacement of the hub 24 on the hub 10, bearing rings 36 and 38 made of graphite or another material are preferably arranged in the hub 24 at both ends, the bearing ring 36 in a bore 40 and the bearing ring 38 in a bore 42 is depressed. A V-belt 50 resting on the inner surfaces 16, 26 wraps around the conical pulley halves 18 and 22 and can be derived from the process shown in FIG. 2 move to a position near the circumference of the two conical flanges 14 and 28 when the conical pulley half 22 from the in F i g. 2 is moved into a position which is close to the conical pulley half 14.

For the axial displacement of the conical pulley half 22, there is an adjusting device 60 between the conical pulley halves 18 and 22 provided, which is arranged on the right at the ends of the hubs 10 and 24. the

Claims (4)

3 4 The adjusting device has a bell 62 with a diameter in the outer cylindrical end 64 of the bell 62 Radially extending bore 136 to 64, seen from the smaller coaxial cylindrical end which is arranged at the end of the hub 24. has, in which a spring-loaded ball 138 angeord-Der larger in diameter part 66 of the bell 62 is net, with several longitudinal grooves 140 on the is through a radially directed wall 68 with the 5 inner wall of the cap designed as a handwheel cylindrical end 64 connected. In part 66 is a. 120 cooperates. Ball bearing 70 arranged with which the bell 62 When making an adjustment must be on the is rotatably mounted on the hub 24. The outer ball 138 is overcome by spring tension Race 72 of the ball bearing 70 is in an open, whereby a backup of the set Bore 76 of part 66 by a snap ring 78, io position is guaranteed. The immovable Kegelder into an annular groove 80 in the inner surface of the washer half 18 is through a fastening device bore 76 engages, held. The inner race is connected to the shaft, which is tight against the 74 of the ball bearing 70 is snugly at the end of the hub 24 on the conical flange 14, so that for the safe a section 82 with a smaller diameter with fastening of the conical disk half 18 is not essential a snap ring 84 held, which annut into an annular protrusion of the shaft from an adjacent one 86 bearing arranged in the outer surface of section 82 is required. The one in the fig. The bell 62 is provided with a fastening device shown radially extending arm 90 is provided which has a forked split bushing 150 on which has a conical outer surface End 92 for receiving a rod 152, not shown, which has a correspondingly conical hole. In this manner, rotation of the portion 154 of the bore 12 of the hub 10 becomes a bell 62 prevents, but engages axial movement, the slot 156 in the bushing in enables. The cylindrical end 64 has a longitudinal direction extending through the entire sleeve 150, radial wall 94 with a coaxial thread- In the larger diameter outer end of the Bore 96 into which the threaded bushing is provided an annular groove 158 into which a The end 98 of a threaded spindle 100 engages, the snap ring 160 engages. A mother 162 with one rotatable in a pair of ball bearings 102 and 104 ge inwardly projecting flange 164 is on the is supported, which is screwed onto the diameter 106 or 108 end of the hub 10. The flange 164 smaller cylindrical sections of the thread is provided with an inner annular groove 166 into which Spindle 100 is arranged and the outer part of the snap ring 160 engages in annular grooves. One gripping snap rings 110 and 112 is held. The 30 rotation of the nut 162 in which it is in the direction of both bearings sit in an enlarged section to the conical flange 14 is moved, causes the of the bore 12 of the hub 10, wherein the one bearing bush 150 is pressed inwards, whereby the 102 firmly attached to a shoulder 114 at the inner end of the two conical surfaces extended portion of the bore 12 is applied. Both between the shaft and the conical pulley half 18 Bearings are held in place by a snap ring 116, 35 make. When the V-belt drive is in operation, a section of the bore engages in an annular groove in the inner wall of the enlarged. Speed adjustment made by the fact that the sealing cap, designed as a handwheel, is at the end of the threaded spindle 100 on a half 22 and the non-displaceable wedge disk square 122, which is changed by a corresponding 40 half 18. This is extended through a Dre-Lochl24 in the bottom of the cap 120, by means of the cap 120, which is designed as a hand-adjusting wheel, is fastened to a screw 126, which brings about a thread that turns the threaded spindle 100, whereby a bore 128 in the end of the threaded spindle 100 is the bell 62 is screwed through the threaded hole 96. The cap 120 is non-rotatably connected to the engaging thread of the spindle 100 to the right threaded spindle 100. A rotation of 45 or left moves and at the same time the hub 24 and da-cap 120, which is displaced with an outer corrugation 121 in relation to the conical disk half 22, causes a rotation of the threaded spindle. When the adjustment is finished, the ball is held 138 100, which is held in the and 104 axially immovable position for so long in the and 104 axially immovable position by the cap 120 and thus the bearing 102 of the snap rings 110, 112, 112 fixed by means of the ball lock 134 and thus the bearings 102 until a readjustment is bar and causes the bell 62 to take place depending on. When the conical pulley halves 22 and 18 are brought closer to the left or closer to the direction of rotation of the cap 120, the right (FIG. 2) moves, with the hub 24 and thus V-belt 50 moving radially outward and thereby changing the conical pulley half 22 to the left or right through the translation. Moved when the adjustment is reversed. When the V-belt drive 55 is in operation, the V-belt moves inwards,
the hubs 10 and 24 and the two rotate
Flanges 14 and 28 common while the bell 62, the threaded spindle 100 and the cap 120 not claims:
take part in this rotation. The cap is on the cylindrical end 64 of the bell 62 by 60 1. Infinitely adjustable V-belt transmission a sealing ring 130 is sealed, which is in one with an axially displaceable and an un- Annular groove 132 is seated in the inner surface of the cap. To slidable conical pulley half, with the hub the setting of the displaceable conical pulley half of the non-displaceable conical pulley half half 22 opposite the non-displaceable cone one end can be connected to a shaft, disk half 18, after the second cone with 65 on its outer circumference the cap 120, the threaded spindle 100 and the disk half axially displaceable, but non-rotatable Bell 62 an adjustment has been made, guided bar and at its other end a a ball lock 134 is provided, which is rotatable in the threaded spindle, but axially un- is slidably mounted, its outwardly protruding. Threaded part with the internal thread a non-rotatable, but axially displaceable from the outside supported bell meshes, in the axially immobile, but rotatably the displaceable conical pulley half is mounted and with a at the outer end of the threaded spindle attached hand wheel, which is by a spring-loaded, between the handwheel and a component that is secured against rotation can be locked, characterized in that a) the handwheel (120) is cap-shaped and sealingly covers a coaxial, cylindrical end (64) of the bell (62) in a freely rotatable manner, the inner diameter of which is greater than the outer diameter of the hub (10) of the non-displaceable conical disk half (18), and b) that the cylindrical end (64) of the bell serves as a non-rotatable component for the ball lock (134) , which is arranged in a radial bore (136) of the bell or of the handwheel (120) and with several longitudinal grooves (140) on the cap-shaped Hand wheel (120) or can be locked on the bell. 2. V-belt transmission according to claim 1, characterized in that in per se known Way in both ends of the hub (24) of the axially displaceable conical pulley half (22) respectively a bearing bush (36, 38) is arranged and that between the facing ends of the bearing bushes a Feather key (30) is held in a known manner in a groove (34) of the hub (24) of the axially displaceable conical disk half and a groove (32) engages the hub (10) of the non-displaceable conical pulley half. 3. V-belt transmission according to one of claims 1 and 2, characterized in that the inner race (74) of a roller bearing (70) arranged in the bell (62) on the hub (24) the displaceable conical disk half between a shoulder and one in an annular groove (86) the hub (24) engaging snap ring (84) and the outer race (72) of the roller bearing (70) between a shoulder and a snap ring engaging in an annular groove (80) in the bell (78) is held. 4. V-belt transmission according to one of claims 1 to 3, characterized in that the threaded spindle (100) has a cylindrical end which with two axially spaced roller bearings (102, 104) in the bore (12) of the hub (10) of the immovable conical pulley half is mounted. 1 sheet of drawings