DE3901143C2 - - Google Patents

Description

The invention relates to a device for tensioning a conveyor belt of a conveyor with at least one deflection drum and one drive drum, each in a frame rotatably mounted and connected to each other via the conveyor belt and of which at least one drum under the action of a tensioning device in the frame in is movable in a direction perpendicular to its axis of rotation by being in one in Clamping direction and opposite to that position-changeable yoke is mounted, which over a tension member with the jacket of a rotatably arranged and in which the timing member exciting direction of rotation under the preload of an elastic means Tension drum is connected. Devices of the type mentioned have become known with the DE-GM 18 83 380 and have proven themselves. Such a device The transferable drive power is used to tension the conveyor belt of a conveyor influenced a conveyor belt system. So that provided by the drive motor Circumferential force can be transferred to the conveyor belt at all by the drive drum can, this belt with a certain pretension, the so-called. Webbing on the Lay drum on. The known device for tensioning the conveyor belt ensures appropriate belt tension. To protect the belt, this belt should also be used when changing Operating conditions remain as constant as possible. Therefore, in the known and so-called dynamic systems of the conveyor belt around a so-called Tensioned drum steered that is movable perpendicular to its axis of rotation and in the clamping direction by a clamping force is acted upon. A corresponding change occurs when the conveyor belt system changes load Change in position of the axis of rotation of the tension drum. The necessary elasticity is applied via a spring drum with a mainspring. These known systems have the Disadvantage of building quite large.

The invention is therefore based on the object of a dynamic clamping system to propose the type described above, which builds flat. According to the invention  Object achieved in a device of the type described in that the movable drum is arranged in a head end of the conveyor and the Tension drum is mounted in a movable and lockable carriage. Such Design allows an extremely low height, due to the use of a Tensioning drum, which due to its circumferential force, the deflection drum over the yoke emotional. The mechanical coupling required between the two parts is via a Tension member made, which itself can also be kept very small.

It is particularly advantageous if the yoke is part of a carriage. A sleigh itself can be built very flat, which further reduces the Height results. Here, the carriage is advantageously movably guided so that over the guides determine the direction of movement of the slide.

It is also advantageous here if the carriage is arranged in the frame so that on separately attachable devices for guiding and receiving the carriage can be dispensed with.

It is advantageous if the carriage of the tensioning drum in the frame already mentioned is guided, so that additional modules for receiving and guiding this carriage can be avoided.

In addition, it is then proposed according to the invention that the carriage is another Has tension member with which the carriage can be moved and anchored. this is a extraordinarily easy way of moving the carriage and also the To anchor the sled. Here it is advantageous if the second end the tension member is attached to the frame. This in turn can be an independent Component for attachment can be avoided and there will be a short circuit of forces reached in the rack.  

According to one embodiment of the invention it is proposed that as an elastic means at least one coil spring is provided, the inner end of which is connected to a fixed component and the outer end of which is connected to the jacket of the tension drum. Such Coil spring is a simple wear-free component that is just as easy to assemble is. If the configuration of the device according to the invention is used, then by simple method of sliding the tension drum this tension drum in the necessary biased and fastened because of the resulting rotation the tensioning drum the coil spring can be tensioned. It is of course particularly advantageous here if the coil spring is arranged inside the tension drum, then the non-rotatable axis of the tensioning drum can be used as a fixed component can. Such a tensioning station is equally suitable for conveyor systems with changing Direction of conveyance as well as in conveyor systems with negative drive power (incident) or positive drive power (ascending) applicable. The same applies to level funding.

With the device according to the invention, dynamic adaptation to the Load condition of the conveyor system, and there is a defined bias of the Conveyor belt reached in every operating condition. A deflection of the tension drum over a predetermined angle of rotation can also be used to switch off the conveyor belt system to be used. The deflection can thus be used as an indicator of the load on the system are considered, the system then exceeding a limit value switches off. Once the spring is tensioned in the tensioning drum, it remains Condition constantly maintained. The device according to the invention is cheap and simple in Manufacturing and requires very little maintenance. Additional advantages result from the further subclaims 10 to 24.

The invention will now be described in more detail using an exemplary embodiment described.

It shows

Fig. 1 is a side view of the frame

Fig. 2 is a plan view of the frame of part of a conveyor belt system

Fig. 3 shows a longitudinal section through a tensioning drum along the line IV-IV

Fig. 4 shows a partial cross section through a tensioning drum along the line III-III

In the end region of the frame 10 of a conveyor belt system, a deflection drum 12 for a conveyor belt 13 is rotatably mounted. The bearing 14 of the deflection drum 12 is arranged in the long sides 15 of a rectangular slide 16 . The carriage 16 has a roller 17 at each of its corners, two of which run in a parallel guide 18 on both sides of the frame 10 . The guide drum 12 is guided in the frame 10 of the conveyor belt system so as to be displaceable perpendicular to its axis of rotation 19 via the carriage 16 .

A pulling rope 11 engages in an eye 20 on the rear end face of the carriage 16 and is wound at its other end around a tensioning drum 21 . The looper drum 21 is similar to the deflection drum mounted 12 in a carriage 22 mounted, in turn, is guided over rollers 23 in parallel guides 24 on either side of the frame 10 slidable. The carriage 22 is anchored to the frame 10 with a pull rope 25 .

The guides 24 are parallel within the frame 10 to the guides 18 and offset in height by the radius of the tensioning drum 21 . The traction cable 11 thus runs essentially in a straight line in the longitudinal axis 26 of the frame 10 . The traction cable 11 is guided by a pair of rollers 27 , which are formed from the two rollers 28 and 29 on both sides of the traction cable 11 , which in turn are rotatably mounted on vertical axes 30 which extend from the front end of the frame of the carriage 22 in the direction of extend the pull rope 11 .

The tensioning drum 21 consists of a drum jacket 1 which is rotatably mounted on the axle 2 via the front drum bottoms 6 . Inside the drum casing 1 there are spiral springs 3 which are mounted in outer rings 4 and inner rings 5 . The inner rings 5 are fixed to the axis 2 and the outer rings 4 are fixed to the drum shell 1 , for example. via keys 7 and 8 , connected. The axis 2 has at its outer ends opposing mating surfaces 9 which are substantially the same size. With these mating surfaces 9 , the shaft 2 is rotatably mounted in both longitudinal sides 31 of the carriage 22 .

The non-rotatable mounting of the axis 2 in the carriage 22 is releasable, so that in the case of released bearings using a crank (not shown) the coil springs 3 can be pretensioned by rotating the axis 2 , while the pull cables 11 with the respective carriages 16 and 22 simultaneously are connected. After tensioning the coil springs 3 , the bearing of the axis 2 is made non-rotatable again.

Another possibility of tensioning, in particular for spiral springs 3 with a steep characteristic curve, is provided when the axle 2 is non-rotatably mounted and the pulling rope 25 is anchored using a lifting-pulling device (not shown) between the tensioning drum 21 and the slide 16 . With the aid of this device, the sled 16 is brought closer to the tensioning drum 21 while tightening the conveyor belt 13 until the traction cable 11 can be hung in the eye 20 . The tensioning drum 21 can be moved in the corresponding direction. However, such a hub-train device can be particularly advantageous, instead of the traction cable 25 are used, and the carriage 22 to withdraw at hinged pull rope 11 as long and thus tension the tensioning drum 21, to a correspondingly short rope 25 can be hung.

If the coil springs 3 are now loaded in the tensioning direction indicated in FIG. 4 during tensioning, they are contracted and thus counteract the tensioning direction. The spring travel covered in accordance with the angle of rotation alpha during tensioning is the cause of an adjusting restoring force which is transmitted to the deflection drum 12 by the pull rope 11 and thus generates a dynamic system of the type of a spring accumulator which, apart from the energy once used for tensioning, has no additional energy supply needed more.

Depending on the definition of the cross-sectional area of the coil springs and the number of spring layers as well as the number of springs and other parameters, a predetermined clamping force results at the circumference of the tensioning drum 21 with a corresponding angle of rotation alpha.

Rod-shaped supports 32 on both sides of the frame 10 limit the paths of the two slides 16 and 22 with respect to mutual approximation.

Claims (24)

1. Device for tensioning a conveyor belt of a conveyor with at least one deflection drum and a drive drum, which are each rotatably mounted in a frame and connected to each other via the conveyor belt and of which at least one drum under the action of a tensioning device in the frame in a direction perpendicular to is movable its axis of rotation by them to a variable position yoke is mounted in a spanwise and opposite that a tension member with the jacket of a rotatably arranged and in which the tension member exciting direction of rotation under the preload of a resilient means stationary tensioning drum is connected, characterized in that that the movable drum ( 12 ) is arranged at a head end of the conveyor and the tension drum ( 21 ) is mounted in a movable and lockable carriage ( 22 ). 2. Device according to claim 1, characterized in that the yoke ( 15, 20 ) is part of a carriage ( 16 ). 3. Apparatus according to claim 2, characterized in that the carriage ( 16 ) is movably guided. 4. The device according to claim 3, characterized in that the carriage ( 16 ) is arranged in the frame ( 10 ). 5. The device at least according to claim 1, characterized in that the carriage ( 22 ) is guided in the frame ( 10 ). 6. Device according to one of claims 3-5, characterized in that the carriage ( 22 ) has a further tension member ( 25 ) with which the carriage ( 22 ) can be moved and anchored. 7. The device according to claim 6, characterized in that the second end of the tension member ( 25 ) on the frame ( 10 ) is attached. 8. The device at least according to claim 1, characterized in that at least one spiral spring ( 3 ) is provided as the elastic means, the inner end of which is connected to a fixed component and the outer end of which is connected to the casing ( 1 ) of the tensioning drum ( 21 ). 9. The device according to claim 8, characterized in that the spiral spring ( 3 ) is arranged inside the tension drum ( 21 ), the non-rotatably arranged axis ( 2 ) of the tension drum ( 21 ) being used as a fixed component. 10. Device according to one of claims 2 to 9, characterized in that at least one of the slides ( 16, 22 ) is mounted on rollers ( 17, 23 ). 11. The device according to claim 10, characterized in that guide tracks ( 18, 24 ) for the rollers ( 17, 23 ) of the carriage ( 16, 22 ) are provided which are parallel to each other. 12. The apparatus according to claim 11, characterized in that the guide tracks ( 18, 24 ) for the rollers ( 17, 23 ) of the two carriages ( 16, 22 ) by a distance approximately corresponding to the radius of the tensioning drum ( 21 ) to each other in height are offset. 13. The apparatus according to claim 12, characterized in that the guide tracks ( 18, 24 ) overlap each other at least over part of their length. 14. Device according to one of claims 6 to 13, characterized in that at least one of the two tension members ( 11, 25 ) is a rope. 15. The apparatus according to claim 14, characterized in that the rope ( 11 ) between the carriage ( 16 ) of the drive or deflection drum ( 12 ) and the tensioning drum ( 21 ) is mounted on at least one guide roller ( 28, 29 ). 16. The apparatus according to claim 15, characterized in that a pair of guide rollers ( 27 ) is provided. 17. The apparatus according to claim 16, characterized in that at least one of the two guide rollers ( 28, 29 ) is mounted at the end of an axis ( 30 ) which is perpendicular to the end face of the carriage ( 22 ) facing the drive or deflection drum ( 12 ) the tension drum ( 21 ) is arranged. 18. Device according to one of claims 2 to 17, characterized in that at least one stop ( 32 ) is provided on the frame ( 10 ), which limits the mutual approach of the two slides ( 16, 22 ). 19. Device according to one of claims 1 to 18, characterized in that the tensioning drum ( 21 ) has an axis ( 2 ), at the two ends of which a drum base ( 6 ) is rotatably mounted and both floors ( 6 ) at least in the vicinity their outer circumference are firmly connected to the drum shell ( 1 ). 20. The apparatus according to claim 19, characterized in that at least one spiral spring ( 3 ) is arranged between the axis ( 2 ) of the tensioning drum ( 21 ) and the casing ( 1 ), the inner end of which with a non-rotatably guided on the shaft ( 2 ) Inner ring ( 5 ) and the outer end thereof is connected to an outer ring which is connected to the inside of the jacket ( 1 ) in a rotationally fixed manner. 21. The apparatus according to claim 20, characterized in that at least the inner ( 5 ) and / or the outer ring ( 4 ) have the same axial width as the coil spring ( 3 ). 22. The apparatus of claim 20 or 21, characterized in that a plurality of coil springs ( 3 ) in the interior of the tension drum ( 21 ) is arranged side by side. 23. Device according to one of claims 8 to 22, characterized in that the axis ( 2 ) of the tensioning drum ( 21 ) on at least one of its ends parallel key surfaces ( 9 ) for biasing the coil spring ( 3 ) and rotationally fixed fixing of the tensioning drum ( 21st ) on the carriage ( 22 ). 24. Device according to one of claims 1 to 23, characterized in that the drive or deflection drum ( 12 ) and the tensioning drum ( 21 ) are arranged together in a dynamic spring-loaded tensioning station of the conveyor belt system.