DE102006004507A1 - Chain or belt tightening arrangement, comprises complementary cylindrical parts and clamping element - Google Patents

Abstract

The basic part (2,10) is designed as a cylindrical element with a semi-cylindrical front segment (11). A helical spring (4) is accommodated inside the part (10) and covered by a second cylindrical part (5) serving as the tensioning lever with a laterally exceeding extension (17) suitable for joining the pulley with the belt or chain. Another semi-cylindrical part (6) is slid along the outer surface of the second part (5) and all elements are kept together by a ring-shaped element (7) clipped to the unit (1).

Description

Territory of invention

The The invention relates to a tensioning device for a traction device, in particular a belt or a chain comprising a base plate with a axially extending bearing portion, one relative to the base plate against a return force generated by a return spring generated by a coil spring, on which a traction means leading Clamping element, in particular a tensioning roller is arranged, and the an adjacent to the base plate side bearing portion extending Bearing portion has, as well as a between the two bearing sections arranged plain bearing element.

background the invention

A tensioning device of this kind is for example made EP 0 725 230 A2 known. This clamping device is characterized in that it has no central, the axis of rotation forming bolts on which usually the clamping lever is rotatably mounted on the arranged between the pin and lever bearings. Rather, in this boltless clamping device, the pivot bearing exclusively between clamping lever and base plate (often called the base part) realized via the sliding bearing located therebetween.

This is at the off EP 0 725 230 A2 known clamping device on the clamping lever a curved, partially cylindrical bearing portion provided, a corresponding arcuate, partially cylindrical bearing portion which extends adjacent or parallel to the lever-side bearing portion is provided on the base plate. Between both is the slide bearing. The bearing sections as well as the sliding bearing are designed relatively large, so that there is a large storage area. The lever is screwed via a mounting screw lying in the axis of rotation with the base plate, which has a corresponding central projection, wherein in the connection area another sliding bearing is provided. Between base plate and clamping lever is finally the coil spring against which the clamping lever can be pivoted to exercise its clamping action, the axial securing of the composite is ensured against the axial restoring force of the coil spring on said connecting screw.

Although leaves in EP 0 725 230 A2 described embodiment of the clamping device to the structure of a boltless clamping device. A disadvantage of the EP 0 725 230 A2 However, known clamping device is that the storage area is open, so that it is very easily polluted, which adversely affects the life of the sliding bearing, since dirt acts abrasive, and thus the sliding bearing element wears much faster.

Summary the invention

Of the The invention is thus based on the problem, a clamping device which is boltless, but is sufficiently resistant to wear.

to solution This problem is in a clamping device of the aforementioned Art provided according to the invention, that the base plate and the clamping lever cup-like sections having axially extending hollow cylindrical wall sections, seen in the axial direction engage each other, wherein the lever-side wall portion an axially extending, the bearing section forming, optionally also axially extending and by an angle ≤ 270 °, in particular ≤ 180 ° circumferential part cylindrical portion is provided, which is the base plate side, opposite the wall section forming the bearing section, and wherein also the sliding bearing element as an encircling by an angle ≤ 270 °, in particular ≤ 180 ° part-cylindrical element is formed.

at the tensioning device according to the invention the storage area is taken up inside the clamping device, he is sort of like a box encapsulated, therefore no longer lying open and therefore can also do not pollute. For this purpose, the clamping lever as also provided on the base plate corresponding cup-like sections or are both pot-shaped and have hollow cylindrical, around 360 ° circumferential wall sections on. These wall sections engage each other, that is, the Tension lever is inserted in the base plate. Base side The bearing portion is substantially of the hollow cylindrical Wall section formed, which forms the housing exterior, so to speak. Lever side is the wall section ultimately of a part of the hollow cylindrical Wall section formed axially over another, immediately adjoining it part-cylindrical section, which is around a certain angular range circulates, extended is. about this part - cylindrical section will effectively be the surface of the lever side bearing section defined. So it works the lever-side bearing section by ≤ 270 °, in particular ≤ 180 ° to. Corresponding is also designed the sliding bearing element, and this, the preferred is arranged on the tension lever, consequently also moved with this, is partially cylindrical and describes an angle 270 °, in particular ≤ 180 °.

As a result of encapsulation, the pollution problems mentioned above in the clamping device according to the invention are no longer gege ben. Nevertheless, the clamping device is very simple, since even there no central axle must be provided, but the pivot bearing is exclusively on the large sliding bearing between the two bearing portions of the clamping lever and the base plate.

Around one possible large-scale storage section Also form base plate side, can in development of the invention also there on the hollow cylindrical wall section in an axial Seen extending direction, forming the bearing section or lengthening and at an angle of 270 °, in particular ≤ 180 ° circumferential be provided part cylindrical section. That is, leverage as well as the base plate side so are the bearing section of each a part of the wall section surface of 360 ° around hollow cylindrical wall section and each extending Section formed.

Advantageous is the, if appropriate, partially cylindrical section offset to the longitudinal axis of Positioning lever positioned. This offset or about the lever rotation axis twisted positioning of the part or the cylindrical sections wear that Circumstance that account of one over the tension roller of the tension lever out Traction on the cocking lever and thus the sliding bearing force usually applied not in the lever axis otherwise it does not cause a Hebelverschwenkung would come, rather engages the force at an angle to the lever longitudinal axis on the sliding bearing at. In order to realize an optimal distribution of force over the large-area sliding bearing, As a result, the angular offset positioning of the corresponding partially cylindrical sections and thus the entire storage sections as well as the sliding bearing element provided, which of course the Positioning dependent from the respective installation and load situation, therefore so directed the excellent force direction in the enterprise.

A particularly expedient development of Invention provides, in the area between the opposite Regions of the hollow cylindrical wall sections, optionally under Use of a sealing element to realize a seal. About these arbitrarily executed Sealing the interior of the clamping device is further sealed, so that penetration of dirt into this area is almost completely excluded is. This seal can z. B. by appropriate design the opposite one another Regions of wall sections to form a labyrinth seal be realized, alternatively, the use of a separate Dense elements, z. B. a rotating sliding seal or sealing lip or the like conceivable.

in the Frame assembly of the clamping device z. B. on an engine block is not excluded that the clamping device is installed incorrectly, so that the clamping lever when loaded on the traction means in the opposite Direction as actually intended moves. This would cause that at radially only limited circumferential bearing of the clamping lever unsupported pressed against the base plate would become. To counter this, a development of the invention provides, in Area between the opposite areas of the hollow cylindrical wall section another sliding bearing element against which, in the event of a reverse installation, the Clamping device is pressed as a makeshift the tensioning lever and it does not damage the entire clamping device comes.

A Particularly advantageous embodiment of the invention provides, on Tensioning a leading into the cup-like portion opening for recording an opening provided in the base plate passing through, at this superimposed mounting screw for fixing the clamping device to a third party. This training according to the invention leaves a Zentralverschraubung the clamping device z. B. on the engine block. As described the clamping lever pot-shaped and closed at the base side. to enabling A central screw connection is an opening in this area for one Provided fastening screw, which can be used over this and passes through an aligned opening on the base plate. The fixing screw, which lies in the axis of rotation, is on the engine block screwed down and is supported on the base plate. The base plate is thus fixed, the lever still rotatable to do so. to Preventing the ingress of dirt into the interior of the clamping device is expediently in this case an attachable to the clamping lever cover for closing the lever-side opening provided, in particular in the form of a via a Latching or snap connection fixable cap on the clamping lever, the course solvable is to allow disassembly. Optionally, the cap is also with a sealing lip or the like Mistake. Alternative would be It is also conceivable that the clamping lever in the region of the opening executed in such a way that in conjunction with the head of the fastening screw used a closure of the opening, in particular in the form of a labyrinth seal, results. Here it would be the possibility of one to form a hollow cylindrical approach to the lever-side opening, which runs close to the screw support on the base plate, so that realized in conjunction with the screw head a sufficient seal becomes.

To enable a higher damping the lever movement is expediently provided on the base plate at least one recess for receiving a damping element, in particular a co-operating with the coil spring Reibschuhs, which is pressed by the spring against the inside of the hollow cylindrical wall portion of the lever.

Of the Tensioning lever and the base plate itself are expediently made of metal, in particular of aluminum. This consists the advantage that no machining post-processing of the bearing sections or their storage areas necessary is when over the damping element in conjunction with the action of the coil spring compensation possibly from the lever load over the traction means resulting tilting moments on the sliding bearing element. he follows. about a corresponding positioning of the damping element, for. B. in shape said friction shoe, a supporting force can be generated, the the over the force exerted on the sliding bearing and the tilting moment causing force is directed parallel, but on the opposite Gleitelementseite attacks, so that therefore a substantial or complete overturning torque compensation results. In this case, so the running on the plain bearing element area the clamping lever or the base plate is not extremely fine machined but may be an unsuspended surface with corresponding Ausformschrägen (for example 0 ° -5 °), which is advantageous from a manufacturing point of view.

alternative for metal execution it is also conceivable, the clamping lever and the base plate made of plastic, in particular from about reinforcing inserts reinforced Plastic manufacture, the bearing portion of the clamping lever or the base plate which slides on the sliding bearing element out unreinforced, Glide plastic having plastic or such Has coating, in particular made of PTFE plastic. Made of plastic Components allow a significant reduction in weight of the clamping device to. To achieve sufficient and required strength properties is preferably a reinforced Plastic, z. As GFK or CFK used. To ensure a sufficient Sliding property of the bearing section along the sliding bearing element are any reinforcements disadvantageous, which is why this section either overall unreinforced, good Sliding properties having plastic such. B. made of PTFE is (such a part can be in one step in a two-component plastic processing can be produced), alternatively, the corresponding bearing section also be plastic coated with such a sliding material.

to axial fixation of the clamping device or the clamping lever on the Base plate against the axial restoring force the coil spring is expediently a fixed to the base plate and the clamping lever cross Holding element provided, which is preferably formed as a semi-annular part is and with a locking collar on an abutment on the base plate, in particular in the form of a radially projecting collar or a radial running groove is set. To enable a stored movement the clamping lever relative to the positionally fixed holding element, the clamping lever partially overlaps is expediently a radially extending section is provided on the sliding bearing element, which serves as a bearing to the holding element, wherein the radial portion of the sliding bearing element in the grip area lies between the holding element and the clamping lever.

Finally is it still appropriate to the base plate in the wall portion a preferably radially extending Provide overflow hole to any liquid, despite the intended sealing sections has invaded, over this to expire.

short Description of the drawings

Further Advantages, features and details of the invention will become apparent the following description of an embodiment. Showing:

1 a schematic representation in the form of an exploded view of the parts of a clamping device according to the invention,

2 the clamping device off 1 in assembled form as a schematic representation,

3 a perspective view of the base plate of a concrete embodiment thereof, and

4 a perspective view of the clamping lever of a concrete embodiment thereof.

detailed Description of the drawings

1 shows in the form of a schematic diagram an exploded view of a clamping device according to the invention 1 comprising a base plate 2 , a damping element 3 , a coil spring 4 , a tension lever 5 , a plain bearing element 6 , a holding element 7 and a cap 8th ,

The base plate 2 has a floor 9 on, to which a hollow cylindrical wall section 10 connects, on one side over a section 11 axially extended, the section 11 is designed as a sub-cylinder and rotates at an angle of about 180 °. The inner wall of this section 11 and the axially adjacent thereto wall portion 10 forms a storage section 12 on which the sliding bearing element 6 glides, which will be discussed below.

The coil spring 4 will end with her 13 Fixed on the base plate side, which will be discussed below. The other bent end 14 engages in an opening 15 on the clamping lever 5 and is hereby fixed to this. About this coil spring 4 is usually the restoring force, over which the clamping lever 5 is spring-loaded on the traction means produced. The damping element 3 is on the lower turn of the coil spring 4 , near its fixed position fixed end 13 , put on, z. B. glued and is about this to the inner wall of the hollow cylindrical wall portion 16 of the clamping lever 5 what it is damped in its movement due to the given friction.

At the tension lever 5 , on which a corresponding fastening receptacle 17 is provided for a not shown in detail, the traction means leading idler or the like, as already described, the hollow cylindrical portion 16 formed, which extends axially and in the assembled state in the hollow cylindrical wall portion 10 the pot-like base plate 2 engages, so the diameter is slightly smaller than this. At the wall section 16 is another likewise part-cylindrical section 18 molded, which also rotates only by an angle ≤ 180 °, molded. This section forms with its outside in extension with the corresponding section of the adjoining wall section 16 the storage section 19 of the clamping lever 5 , This storage section 19 lies the storage section 12 at the base plate 2 across from. At the tension lever 5 arranged is the sliding bearing element 6 , which is also segmental or half-shell-shaped and stable with the clamping lever 5 connected is. It covers the entire storage section 19 , The outside 20 of the sliding bearing element 6 runs on the storage section 12 the pot-shaped base plate 2 when the cocking lever 5 is moved. So it is a very large storage area realized. A mounting bolt that would form the axis of rotation and against which the clamping lever would be rotatably mounted, as is common practice, is not required in this boltless design, but rather the storage and realization of the rotational mobility takes place solely on this Gleitlagerausgestaltung.

For axial fixation of the composite clamping device is the holding element 7 provided that an inwardly directed collar 21 having, in a corresponding annular groove 22 at the section 11 snaps on the base plate. In the mounting position, the flange overlaps 23 of the holding element 7 the tension lever 5 in sections, with between clamping lever 5 and the flange 23 a radially inwardly directed portion 24 of the sliding bearing element 6 is arranged. This is a stored relative movement of the clamping lever with respect to the fixed support member 7 ensured.

Also provided is the cap 8th used to seal an opening 25 on the clamping lever 5 serves. Through this opening 25 a fixing screw can be used. This fastening screw passes through an opening not shown here in detail on the floor 9 the pot-like base plate 2 and can be screwed into the engine block, for example. She is then on the base plate 2 supported, so fixes the entire clamping device 1 , After fixing, the opening becomes 25 over the cap 8th locked.

2 shows the off 1 known clamping device as a partial sectional view. Obviously, the two hollow cylindrical wall sections grip 10 and 16 one another, so that overall results in a largely closed, box-like execution. In 2 shown on the right is the location area with the on the storage section 19 of the clamping lever 5 attached sliding bearing element 6 , its outer surface 20 , which forms the bearing or running surface, the bearing section 12 the apparent pot-shaped base plate 2 opposite and runs on this at a lever movement about the rotation axis D along.

Shown is also the arrangement of the damping element 3 attached to the corresponding turn of the coil spring 4 is attached and with its outer surface against the inner surface 26 of the extended section 18 of the clamping lever 5 press and this dampens its movement.

As can be seen, the radial plane of the not shown here in detail, at the attachment portion 17 fixed tensioning roller outside the axial center of the sliding bearing element 6 So this is not in this radial plane. This means that when applied traction means acting outside the center of the bearing force on the sliding bearing element 6 over the tension lever 5 is applied, so that it would come to a tilting moment, that is, the sliding bearing element 6 would be more heavily loaded in the upper lever area tipping due. In order to compensate for this overturning moment and reduce wear, the damping element is located at the opposite area on the baseplate bottom 3 arranged over the coil spring 4 against the cocking lever 5 is pressed. This is a rectified, but locally opposing applied supporting force on the clamping lever 5 exerted over the tipping moment partially or completely can be compensated so that there is no excessive tilting and thus bearing load. As a result, it is not necessary, the inner surface, the bearing section 12 the base plate 2 makes, post-machining.

Shown is also the opening 27 in the base plate 2 or their bottom 9 for mounting of the mounting screw shown here in dashed lines 28 is interspersed, which is supported with its head on the bottom side. The extension with the opening 27 provided opening 25 on the clamping lever 5 is over the cap 8th , which have corresponding latching hooks 29 is arranged locked, closed.

Obvious is the gap 30 between the two hollow cylindrical wall sections 10 and 16 in the area where the sliding bearing element 12 not provided, relatively narrow. With a suitable configuration or spacing of the opposing surfaces, a labyrinth seal could be formed, according to the embodiment shown 2 is an example of a sealing element 31 , z. B. a molded sealing lip or the like, on the lever-side wall portion 16 provided in this area to obtain a seal. Provided is also a bo dennahe drain opening 32 which extends substantially radially, and over which any infiltrated water or the like can flow in the mounting position.

The tension lever 5 as well as the base plate 2 can be made of metal, preferably aluminum. A machining post-processing of running on the plain bearing surface is not required as stated. Alternatively, it would also be conceivable to produce both preferably fiber-reinforced plastic, primarily GRP. In this case, it would be appropriate, the tread on which the mounted on the lever slide bearing element 6 runs, with a coating of a very good sliding properties having plastic, z. As PTFE, or entirely made of this plastic, and perform fiber-free.

3 shows a perspective view looking into the interior of the base plate 2 a possible real embodiment. On the ground 9 is a cone 33 molded, the opening 27 and on its top 34 the fixing screw 28 would be upraised. Obviously, the pin is cut laterally. In this area is the end 13 the coil spring 4 on the cone 33 stored, on the other side it is on the counter bearing 35 stored, so that ultimately in a coil spring movement, a tilting movement of the free end in 3 is exercised to the left, which is on the ground in one 9 provided recess 36 recorded damping element 3 is given, which in turn then against the inner surface 26 of the clamping lever 5 is pressed.

Also shown are two extending to the extending section 11 subsequent further sections 37 whose sides are stops 38 for the cocking lever, extending radially from the lower-lying area 39 (please refer 1 ) stretches out form.

Finally shows 4 a perspective view of the interior of the likewise pot-shaped clamping lever 5 , Shown is the hollow cylindrical Wandab section 16 with the adjoining axially projecting section 18 , against which as described the damping element 3 is pressed. The opening 25 limiting here is a hollow cylindrical approach 40 molded, in the mounting position to near the surface 34 of the pin 33 runs and so a seal in this area, possibly with the interposition of a sealing element allows. Shown are also the two attacks 41 that with the appropriate stops 38 at the base plate 2 interact and limit the movement of the lever in one direction and the other.

1

tensioning device

2

baseplate

3

damping element

4

coil spring

5

clamping lever

6

plain bearing element

7

retaining element

8th

cap

9

ground

10

wall section

11

section

12

bearing section

13

The End

14

The End

15

perforation

16

wall section

17

mounting fixture

18

section

19

bearing section

20

outside

21

collar

22

ring groove

23

flange

24

section

25

perforation

26

palm

27

perforation

28

fixing screw

29

latch hook

30

gap

31

sealing element

32

drain hole

33

spigot

34

top

35

thrust bearing

36

depression

37

sections

38

attacks

39

lower lying section

40

approach

41

attacks

Claims (15)

Clamping device for a traction means, in particular a belt or a chain, comprising a base plate with an axially extending bearing portion, a relative to the base plate against a restoring force generated by a coil spring tensioning lever on which a traction device leading clamping element, in particular a tensioning roller is arranged , and which has a bearing section extending adjacent to the base plate-side bearing section, as well as a plain bearing element arranged between the two bearing sections, characterized in that the base plate ( 2 ) and the tension lever ( 5 ) each pot-like sections with axially extending hollow cylindrical wall sections ( 10 . 16 ), which, viewed in the axial direction, engage with one another, wherein on the lever-side wall section (FIG. 10 ) an axially extending, the bearing section ( 19 ) forming or extending and by an angle ≤ 270 °, in particular ≤ 180 ° rotating part-cylindrical section ( 18 ) is provided, the the base side, the local storage section ( 12 ) forming wall section ( 10 ) and wherein also the sliding bearing element ( 6 ) is formed as a by a angle ≤ 270 °, in particular ≤ 180 ° rotating part-cylindrical element. Chipping device according to claim 1, characterized in that also on the hollow cylindrical wall section ( 10 ) of the base plate ( 2 ) seen in the axial direction extending, the bearing portion ( 12 ) forming or extending and by an angle ≤ 270 °, in particular ≤ 180 ° rotating part-cylindrical section ( 11 ) is provided. Clamping device according to claim 1 or 2, characterized in that, if appropriate, part-cylindrical section ( 11 . 18 ) offset to the longitudinal axis of the clamping lever ( 5 ) is positioned. Clamping device according to one of the preceding claims, characterized in that in the region between the mutually opposite regions of the hollow cylindrical wall sections ( 10 . 16 ) optionally using a sealing element ( 31 ) a seal is realized. Clamping device according to one of the preceding claims, characterized in that in the region between the mutually opposite regions of the hollow cylindrical wall sections ( 10 . 16 ) Another sliding bearing element is provided. Clamping device according to one of the preceding claims, characterized in that the clamping lever ( 5 ) an opening leading into the pot-like section ( 25 ) for receiving a in the base plate ( 2 ) provided opening ( 27 ) passing through, at this superimposed mounting screw ( 28 ) for fixing the tensioning device ( 1 ) is provided on a third subject. Clamping device according to claim 6, characterized in that a on the clamping lever ( 5 ) attachable cover member for closing the lever-side opening ( 25 ) is provided, in particular in the form of a latching or snap connection on the clamping lever ( 5 ) fixable cap ( 8th ). Clamping device according to claim 6, characterized in that the clamping lever ( 5 ) in the region of the opening ( 25 ) is designed in such a way that screw in conjunction with the head of the fastening used ( 28 ) a closure of the opening ( 25 ), especially in the form of a labyrinth seal. Clamping device according to one of the preceding claims, characterized in that on the base plate ( 2 ) at least one recess ( 36 ) for receiving a damping element ( 3 ), in particular one with the coil spring ( 4 ) is provided cooperating friction shoe. Clamping device according to one of the preceding claims, characterized in that the clamping lever ( 5 ) and the base plate ( 2 ) made of metal, in particular aluminum. Tensioning device according to one of claims 1 to 9, characterized in that the tensioning lever ( 5 ) and the base plate ( 2 ) made of plastic, in particular reinforcing inserts reinforced plastic, wherein the bearing portion of the clamping lever or the base plate, which on the sliding element ( 6 ) slides, consists of unreinforced, sliding properties having plastic or has such a coating, in particular made of PTFE plastic. Clamping device according to one of the preceding claims, characterized in that a on the base plate ( 2 ) and the clamping lever ( 5 ) comprehensive holding element ( 7 ) for axially fixing the tensioning device ( 1 ) is provided. Clamping device according to claim 12, characterized in that the retaining element ( 7 ) is formed semi-annular and with a locking collar ( 21 ) on an abutment on the base plate ( 2 ), in particular in the form of a radially projecting collar or a radially extending groove ( 22 ). Clamping device according to claim 12 or 13, characterized in that the sliding bearing element ( 6 ) a radially extending portion ( 24 ) is provided, which serves as a bearing to the holding element ( 7 ), wherein the radial section ( 24 ) of the sliding bearing element ( 6 ) in the overlapping region between the retaining element ( 7 ) and the tensioning lever ( 5 ) lies. Clamping device according to one of the preceding claims, characterized in that on the base plate ( 2 ) in the wall section ( 10 ) a preferably radially extending drain hole ( 32 ) is provided.