DE3232274C2 - Release clutch - Google Patents

Abstract

In the case of a safety clutch for limiting a predetermined torque, in which the drive side (12) and the output side (25, 27) are resiliently braced against each other and the torque is transmitted in a form-fitting manner, the drive side (12) and the output side (25, 27) Toothings (16, 26) which transmit the specified torque up to the rated load and which mesh with one another in the event of an overload.

Description

automatically transmits the torque again as soon as the torque has reached the size of the nominal torque again When the nominal torque is transmitted through this coupling, there is between the The toothing of the driving and driven coupling halves and the gears is only minimal Movement relative to each other, so that the nominal torque is achieved by positive locking between the teeth is transmitted. As soon as the torque is too high, is the resilient preload with which the friction and the driven coupling halves against each other are tensioned, further increased This eliminates the form fit between the teeth that they remain in meshing engagement with one another, but no longer transmit a torque.

The object on which the invention is based is also achieved in that the teeth of a coupling half consists of at least one gear wheel rotatably mounted in this coupling band - that means that the driven coupling half itself has no teeth, but instead on the driven one Coupling side one or more gears are rotatably mounted. Here, too, applies that in the case of transmission of the torque the pretensioned spring for the form fit between the toothing of the driving Coupling half and that of the gearwheel or gearwheels provides In this operating state only a slight relative movement between the gear and the teeth of the driving coupling half.

This only occurs when the pre-tensioned spring is applied due to excessive torque is further tensioned and the form fit between the gear and the toothing of the driving Coupling half is canceled. In this state, the gear remains with the teeth of the driving Coupling half meshing in engagement, until the spring is due to the decrease in torque to the nominal size again so far that it is between the gear and the toothing of the driving Coupling half comes back to form fit.

The gears can be round. This means that when the clutch rattles in the clutch, a the number of thrusts corresponding to the number of teeth of the gear is carried out.

It is also possible to design the gears out of round, in particular oval or elliptical. In this case there are teeth on every gear that are longer than the other teeth. When using such gears the force from the toothing of the driving clutch half to the toothing of the driven Transfer the coupling half over the longer axis of the gear. The longer axis of the gear runs by the two longer teeth that are the greatest distance apart.

When using ring gears for the driving coupling half and the driven coupling half it is advisable to make the gears conical. The gears can also be spherical.

This principle described for ring gears can also be applied to spur gears.

According to a further feature of the invention, the teeth can be designed as round teeth be. This guarantees that the individual teeth roll well on one another.

The toothing of the ring gear can also be wavy.

A ring gear is expediently supported against a friction spring

The invention is explained in more detail below with reference to two examples shown in the drawing described. It shows

F i g. 1 a longitudinal section through the clutch,

F i g. 2 shows a section along the line II-II in FIG. 1 and
F i g. 3 one opposite FIG. 1 slightly modified

ίο embodiment of the invention.

According to the in FIG. 1 shown embodiment is shown on a drive shaft 1 without Drive a sprocket box 2,3 stored Inside the sprocket housing 2,3 there is a sprocket 4, which is rotatably mounted on the shaft 1 via bearings 5 and 6, the sprocket 4 overlaps with a Flange 7 has a release clutch and is firmly connected to a disk 9 via screws 8.

On the shaft 1 a ring gear 12 is provided via a toothing 10 with axial play 11, which in the The illustrated embodiment represents the drive side of the clutch. The ring gear 12 has a Hub 13, with which it sits on the shaft 1. A retracted web 14 connects to the hub, which extends up to about the middle height of the ring gear 12 is sufficient. From here, the ring gear 12 extends in the direction of Hub 13 to about the end of the hub 13. This is followed by the outer region 15 of the ring gear 12, on which a toothing 16 is attached.

On the hub 13 of the ring gear 12 is a support disk 17 arranged axially displaceably with a flange 18.

Between the web 14 of the ring gear 12 and the opposite wall 19 of the support disk 17 is an annular channel 20 is formed in which a friction spring 21 is located.

The support disk 17 is supported by rollers 22 which are mounted in the disk 9. Besides, the Support disk 17 is connected to crown wheel 12 via screws 23.

A plate washer 25, which carries a toothing 26, is attached to the sprocket 4 via bolts 24.

Between the teeth 16 of the ring gear 12 and the teeth 26 of the plate washer 25 are on the Circumference distributed several gears 27 are arranged, which with their teeth 28 and 29 in the teeth 16 and 26 intervene.

The pretensioned spring 21 exerts a force on the ring gear 12 in the direction of the plate washer 25, see above

that when the nominal torque is transmitted between the support disk 17 and the ring gear 12, a gap 30 exists and the gear 27 with its teeth securely in engagement between the toothing 16 and the toothing 26 is.

Based on the representation according to FIG. 2 clearly shows how the clutch works. Between the toothing 16 of the ring gear 12 and the opposing toothing 26 of the plate washer 25 a gear 27 is mounted. This gear has two opposing teeth 28 and 29, each of which is slightly longer than the other teeth 31,32,33,34,35 and 36 of the gear 27. The teeth 28 and 29 move on a circle 37, while the remaining teeth of the Gear 27 lie on a circle 38. The distance between the two opposing teeth 28 and 29 from one another corresponds to the diameter of the larger circle 37, while the other teeth 31,32,33,34,35 and 36 lie on the smaller circle 38. The gear

27 engages with the teeth 28 and 29 in the toothing 16 and 26 a, that the teeth 28 and 29 in the base of the teeth 16 and 26 carry.

If a force acts in the direction of the arrow b in the ring gear 12 when the spring force acts on the spring 21 in the direction of the arrow a , this force is transferred via the tooth 28, the gear 27 and the tooth 29 into the plate washer 25 in the direction of the arrow c directed. When the nominal torque is transmitted, the ring gear 12 and the ring washer 25 move at the same rotational speed, the gear wheel 27 being between the ring gear 12 and the ring washer 25.

When the nominal torque is exceeded, the tooth 28 moves on an arc around the lower point of the tooth 29 in FIG. 2 to the left. Here, against the force of the spring 21 acting in the direction of arrow a, the ring gear 12 is displaced so far that the gear 27 can continue to rotate by half a turn and thus the ring gear 12 moves a corresponding distance with respect to the plate washer 25. After half a revolution of the gear 27, it takes the position shown in FIG. 2 and can, if the overload has now been eliminated, remain in this position again, whereby the clutch would be switched on again. If an excessive torque is still effective after half a revolution of the gear 27, the gear 27 can rotate several times until the normal load occurs again instead of the overload.

The shocks and vibrations that occur when the clutch rattles in this way act This has a positive effect on a coal plow, in that these shocks and vibrations are introduced into the plow chain so that the planer acts like an activated planer after a possible blockage. This can the blockage of the plane can be unlocked.

With the clutch shown in Fig.3 The chain wheel 4 engages with a flange 7 via a crown wheel 12. At a radial distance from the flange 7 a circumferential ring 39 protruding from the chain wheel is provided. Between the flange 7 and the Ring 39, a gear 43 forming the output part 44 is mounted in bearings 40 and 41. The gear 43 engages with its toothing 42 into the toothing 16 of the ring gear 12.

The spring 21 ensures that the nominal torque is transmitted through the clutch at Overload, however, the spring 21 is tensioned so far that the gear 43 rotate relative to the ring gear 12 can.

The functioning of the in F i g. 3 shown clutch is based on the same principle as it with regard to the in F i g. 1 shown release clutch is described above.

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For this purpose 2 sheets of drawings

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65

Claims (9)

1 2 of the torque limiter and the toothing of the claims: Disc of the output shaft is a swash plate or swash plate, which has a 1. Disengagement clutch to limit a pre-set Torque with two toothings on-5 engages in the toothing of the rotationally fixed angeordweisende Coupling halves, the resiliently opposing disk of the torque limiter. So is are clamped on the other and between which the over- and the swash plate with respect to the housing or The torque is transmitted in a form-fitting manner, the pot is non-rotatably arranged over a sloping edge characterized in that between standing pin this swash plate is with a drive Toothings of the coupling halves (12, 25) io shaft connected through which the swash plate in at least a gear (27) is offset with corresponding speaking tumbling movements, so that Toothing is arranged and with the toothing, thereby the output shaft also in a rotary motion the coupling halves is set in meshing engagement motion. Such couplings serve to protect the ma 2. Disengagement clutch to limit a pre-machine and the drive train from torque given torque with two gears and torque impulses that refer to the design Coupling halves that substantially exceed the nominal torque set against each other by a spring, others are tensioned and between which the safety clutches will respond of the torque takes place positively, this line through overload and vibrations, but often characterized in that the toothing of a 20 also by blockages, tool breakage and package coupling half (12 or 44) from at least one sions (in machine tools). A well-known coupling (»Drive Technology« 21 rad (43) consists (1982), pp. 216-228, especially p. 221) consists of a 3. Coupling according to claim 1 or 2, characterized in that a trough ring, a driver ring and an anchor that the gears (27,43) are round. 25 compression ring. The hollow ring has one or more muI- 4. Coupling according to claim 1 or 2, characterized in that for receiving in the driver ring in one indicates that the gears (27, 43) are non-circular, through-bore axially displaceably mounted in particular are oval or elliptical. Role pairs. The spring-loaded 5. Clutch to one or more of the loaded pressure rings. In this known coupling Proverbs 1 to 4, characterized in that the 30 are the pairs of rollers by spring force so in the MuI gears (27, 43) when using plate wheels of the bowl ring pressed that the bowl ring dern (12,25) for the driving and driven coupling and the driving ring by means of the roller pairs miteinlungshhalf are conical. connected to each other. Thereby the torque 6. Coupling according to one or more of the connections from the hollow ring via the roller pairs to the take-away 1 to 5, characterized in that the 35 merring transmit. The gears (27, 43) are crowned. If an overload occurs on the output side, then 7. Coupling according to one or more of the and the rollers against the spring force from the trough sayings 1 to 6, characterized in that the presses, whereby the connection of the trough ring with teeth (16, 26, 42) ils round teeth canceled the driver ring is are executed. 40 It is therefore a question of a ratcheting clutch 8. Clutch according to one or more of the instructions, which is always engaged and disengaged as long as Proverbs 1 to 7, characterized in that the excessive torque is applied. So you can only for The ring gear toothing (16) is also wavy. subordinate cases can be safely used in which 9. Coupling after one or more of the anne, the continuous torque impulses in front of the respective one Proverbs 1 to 8, characterized in that a 45 engaging are permissible and where also so quickly ab-ring gear (12) is switched off against a friction spring (21) so that the clutch does not support the switch housing is. ability perishes. To protect a coal paving plant in underground Extraction companies are shear pin couplings 50 knows. A shear pin coupling is a rigid coupling with the input and output flange through The invention relates to a release clutch for loading bolts with a predetermined breaking point, a tightly tolerated one limits a predetermined torque with two grooves, are connected. These couplings are not Coupling halves with teeth, which are finely and with a shear pin coupling pro are braced against each other and between the 55 layer 30 to 40 bolt breaks, which result in The transmission of the torque results in a form-fitting fall times of 1 to 3 hours per six-hour shift. takes place ben. From DE-OS 29 02 813 is a speed sub-The invention is based on the object of a safety gear known with a torque limiter. to create a coupling of the type mentioned in the introduction, In a cylindrical pot with a bottom and a lid, 60 is also used for non-subordinate, i.e. H. important cases like that at the bottom a connected to an output shaft gets into and out of engagement for a long time, like the rotating disk that is too high provided with a toothing. In the upper moment is pending. Part of the pot is a torque limiter. This object is achieved according to the invention by the one between an upper disk and a lower one between the toothing of the coupling halves Ren disc a preloaded spring is arranged. 65 at least one gearwheel with corresponding toothing The lower disc is axially displaceable in the pot, is arranged voltage and with the toothing of the but rotatably arranged and has a toothing coupling halves are in meshing engagement - on. Between the teeth of the non-rotatable disc This leads to a release clutch which