WO2018137732A1

WO2018137732A1 - Transport securing means for a hydraulic tensioning device

Info

Publication number: WO2018137732A1
Application number: PCT/DE2018/100034
Authority: WO
Inventors: Thomas Ullein; Lajos Farkas
Original assignee: Schaeffler Technologies AG & Co. KG
Priority date: 2017-01-24
Filing date: 2018-01-17
Publication date: 2018-08-02
Also published as: DE102017111948A1; DE102017111948B4

Abstract

The invention relates to a tensioning device (1) for a chain drive having a tensioning rail (8) and having a chain tensioner (11) that comprises a tensioning piston (9), a tensioning piston receptacle (12), of a base plate (13) or of a housing, and a spring, and having a blocking pin (10) that is removably inserted into a blocking pin receptacle (15) of the tensioning device (1). The purpose of the invention is to provide a simplified transport securing means and a method for limiting the relative movement between the tensioning rail (8) and a component that forms the tensioning piston receptacle (12). To that end, the blocking pin (10) has a projection (19) along the blocking pin rotation axis (18), and is rotatably mounted at the blocking pin receptacle (15), wherein the projection (19) of the blocking pin (10) can be brought into contact with a contour (20) of the blocking pin receptacle (15).

Description

Transport lock for a hydraulic tensioning device

The invention relates to a tensioning device for a chain drive with a tensioning rail and a chain tensioner, which would include a clamping piston, a Spannkolbenauf- and a spring, as well as with a locking pin which is removably inserted into a locking pin receptacle of the clamping device.

Such a clamping device is known for example from DE 100 59 1 19 A1. Shown is a tensioning device for chain drives with a spring-loaded clamping element for engagement with a chain and a housing on which the clamping element is movably mounted. A transport lock ensures a releasable positive connection between the clamping element and the housing. The profile of the transport lock is wedge-shaped to ensure a block position of the clamping element. The block position of the clamping element simplifies the assembly of the components of a chain drive.

The embodiment shown in DE 100 59 1 19 A1 ensures that, on the one hand, sufficient play is made available in order to be able to introduce the transport lock into corresponding receptacles on the tensioning element and housing. At the same time can be achieved despite providing a clearance fit that the clamping element can be converted into a blocking position. However, it can prove to be disadvantageous that the force required to remove the transport lock is perceived in some applications to be too great. It is therefore an object of the present invention to provide a tensioning device for chain drives with a simplified transport lock and a method for limiting the relative movement between the tensioning rail and a clamping piston receiving part forming a clamping device. The object is achieved by a tensioning device for a chain drive with a tensioning rail and with a chain tensioner which comprises a tensioning piston, a tensioning piston receptacle of a base plate or a housing and a spring, as well as with a locking pin which can be removed in a locking pin receptacle of the tensioning device is used. The locking pin has a projection along the locking pin rotation axis and is rotatably mounted on the locking pin receptacle, wherein the projection of the locking pin can be brought into contact with a contour of the locking pin receptacle. Advantageously, the invention provides a tensioning device that the

Clamping rail (also called clamping arm or clamping shoe) or the tensioning piston in a blocking position by the locking pin is rotated about its axis of rotation. Due to the cam-shaped projection of the locking pin, the locking pin can be supported on the contour - by rotating the locking pin, the axis of rotation is offset in the transverse direction and the existing, necessary for mounting the transport lock game compensated.

The projection is preferably designed resilient. Due to the resilient design, an existing, production-related or assembly-related game between see compare the components particularly advantageous because the height of the projection adapts to the existing game.

The locking pin receptacle is formed both by the clamping rail and by the housing or the base plate. The locking pin inserted into the locking pin receptacle can thus limit a relative movement between the tensioning rail and the housing or base plate.

In an advantageous embodiment, the clamping rail is attached to the base plate hinged, wherein the locking pin limits a relative movement between the clamping rail and the base plate. Alternatively, the clamping rail sits at the end on the clamping piston arranged in a housing of the chain tensioner, the locking pin defining a relative movement between the tensioning rail and the housing. The environment of the chain tensioner can thus be provided by a housing and / or by a base plate. The locking pin receptacle can thus extend to a part of the housing and / or to a part of the base plate. Housing or base plate can be attached to the engine block. In another advantageous embodiment, in particular with regard to manufacturability, the base plate or the housing has a recess and the tensioning rail has two opposite tensioning rail recesses which are aligned with the recess of the base plate or the housing, wherein the locking pin projects through the recess and the tensioning rail recess. The clamping rail recesses and the recess of the base plate or of the housing can be provided for example in the form of a groove, an undercut, a slot or a bore. The locking pin receptacle is formed by the clamping rail and by the housing or the base plate.

In a further advantageous embodiment with respect to the game compensation of the clamping piston can be brought into contact with a pressure point of the clamping rail, wherein the clamping piston is supported on the clamping rail and the projection of the locking pin on the contour of the base plate. The tensioning piston is preloaded against the tensioning rail by means of the spring. The clamping piston can also be supported on the contour of the base plate via the clamping rail, on an inner circumference of one or both of the two clamping rail recesses of the clamping rail and on the projection of the locking pin. In this way, the clamping piston can be indirectly transferred via the clamping rail in a blocking position.

In an advantageous embodiment, the locking pin in the region of the projection on a corresponding indentation, wherein the contour of the base plate engages in the recess for locking. The contour can also have an insertion bevel, which also allows locking. The orientation of the transport safety device on the contour is thus facilitated.

A particularly inexpensive embodiment is made possible when the locking pin is formed from a wire. In a costly manner, both the projection and the indentation, as well as a handle portion can thus be formed.

Another embodiment which is advantageous with regard to the compensation of an existing clearance relates to a tensioning device with a projection which has a maximum distance a from the locking pin rotation axis, the maximum distance a being together with a regular distance b defines a maximum lateral displacement when turning the locking pin. The regular distance b may, for example, correspond to half the maximum diameter of an axial section of the locking pin, the projection being located outside this section. The projection may also be designed resiliently. Due to the resilient design, an existing, production-related play between the components can be compensated for particularly advantageous, because the height of the projection adapts to the existing game.

On the other hand, the object is achieved by a method for limiting the relative movement between the tensioning rail and the base plate of a tensioning device or between tensioning rail and housing of a tensioning device of the previously described embodiment, described by the following steps:

- Introduce the locking pin in the recess of the base plate to a defined by the projection of the locking pin position;

- Relocate the locking pin rotation axis by turning the locking pin to the locking pin rotation axis.

Advantageously, thus the tensioning piston of the chain tensioner can be made largely free of play despite existing manufacturing tolerances. The locking pin allows in addition to a limitation of the relative mobility between the clamping rail on the one hand and the base plate or housing on the other hand, a removal of the production-related game by the locking pin is elastically or plastically deformed as a result of its rotation. The clamping piston is transferred against the force of the arranged between the piston and the piston seat of the housing or the base plate Neten spring in a position in which the clamping piston is in contact with a base of the clamping piston receptacle.

An embodiment of the invention illustrates the possible advantages of the invention:

Fig. 1 shows an exemplary chain drive of an internal combustion engine;

Fig. 2 shows a clamping device with inserted locking pin in the locked state; Fig. 3 shows a locking pin receptacle of the clamping device with a locking pin in the mounting position; Fig. 4 shows the locking pin recording of the clamping device with the locking pin after displacement of the locking pin rotation axis.

FIG. 1 shows a chain drive with a hydraulic tensioning device 1 for a combustion engine with its essential components. A chain drive basically comprises a drive sprocket 2 connected to the crankshaft, two output sprockets 3 connected to a respective one camshaft and a timing chain 4 which connects the drive sprocket 2 to the output sprockets 3. A drive torque of the crankshaft is transmitted to the camshafts via the tensioning line 5 of the timing chain 4. At Zugtrum 5, the timing chain 4 is guided by a guide rail 6.

The timing chain 4 is stretched at its return strand 7 in order to ensure its functionality over the service life can. For this purpose, the timing chain 4 is acted upon by means of a hydraulic tensioning device 1 and a tensioning arm 8 with a clamping force. Hydraulic tensioners 1 according to the described embodiment also ensure a damping of the chain drive.

FIG. 2 shows a tensioning device 1 with inserted locking pin 10 in the locked state. The clamping device consists of a clamping rail 8 and a chain tensioner 1 1, which comprises a clamping piston 9, a clamping piston receptacle 12 of a base plate 13 and a (not shown) spring. The tensioning piston is in contact with a pressure point 14 of the tensioning rail 8. The formed from a wire locking pin 10 is removably inserted into a locking pin receptacle 15 of the clamping device 1. The clamping rail 8 is attached to the base plate 13 hinged, wherein the locking pin 10 limits a relative movement between the clamping rail 8 and the base plate 13.

3 shows the locking pin receptacle 15 of the clamping device 1 with the locking pin 10 in the mounted position. The base plate 13 has a recess 16 and the

Clamping rail 8 two opposite clamping rail recesses 17, which are aligned with the recess 16 of the base plate 13. The locking pin 10 protrudes through the recess 16 of the base plate 13 and through the lying on both sides of the recess 16 Spannschienenausnehmungen 17th The locking pin 10 has along its locking pin pivot axis 18, a projection 19 and is rotatably mounted on the locking pin 15 recording. The projection 19 of the locking pin 10 can be brought into contact with a contour 20 of the locking pin receptacle 15. The projection 19 has a maximum distance a to the locking pin rotation axis 18, wherein the maximum distance a together with a regular distance b defines a maximum lateral displacement upon rotation of the locking pin 10; the greatest possible lateral displacement thus corresponds to the maximum distance a less the regular distance b. The locking pin 10 has a corresponding indentation 21 in the region of the projection 19 and can engage in the contour 20 of the base plate 13 for locking the locking pin 10 in the mounting position.

To limit the relative mobility between the clamping rail 8 and the base plate 13, the locking pin 10 can first be brought in a first step in the recess of the base plate 13 to a defined by the projection 19 of the locking pin 10 position. The locking pin 10 is in the mounting position shown in Fig. 3. In a second step, the locking pin rotation axis 18 can be displaced laterally by turning the locking pin 10 about the locking pin rotation axis 18. The state after displacement is illustrated in FIG. 4. An unillustrated spring-loaded clamping piston can be in contact with the pressure point 14 of the tensioning rail 8 and load the tensioning rail 8 in a direction pointing away from the base plate 13. During transport or assembly, the clamping rail 8 can not be supported on a timing chain 4 of a chain drive. In order to be able to restrict the movement of the tensioning rail 8, the locking pin 10 is inserted into the locking pin receptacle 15. Shown is the state after rotation of the locking pin 10, so after lateral displacement of the locking pin rotation axis 18: The clamping piston is supported via the clamping rail 8, via an inner circumference of the two clamping rail recesses 17 and the projection 19 of the locking pin 10 on the contour 20 of the base plate 13 from , By means of the possibility of elastic or plastic deformation of the locking pin 10 existing game is reduced or eliminated; The tensioning piston can thus be pushed up to a stop of the clamping piston. benaufnahme 12 are set in a block position. The locking pin 10 is secured by means of a rotation 23 against accidental loosening.

List of reference hydraulic tensioning device

drive sprocket

driven sprocket

timing chain

drive span

guide rail

loose side

Clamping arm or clamping rail

clamping piston

locking pin

chain tensioner

Clamping piston receiving

baseplate

pressure point

Lock pin receiving

Recess of the base plate

Spannschienenausnehmung

Locking pin axis of rotation

head Start

contour

indentation

Inner circumference of the clamping rail recess

twist

Claims

claims

1. tensioning device (1) for a chain drive with a tensioning rail (8) and with a chain tensioning device (11) comprising a tensioning piston (9), a tensioning piston receptacle (12) of a base plate (13) or of a housing and a spring, and with a locking pin (10) which is removably inserted into a locking pin receptacle (15) of the tensioning device (1), characterized in that the locking pin (10) has a projection (19) along the locking pin rotation axis (18) and on the locking pin receptacle ( 15) is rotatably mounted, wherein the projection (19) of the locking pin (10) can be brought into contact with a contour (20) of the locking pin receptacle (10).

2. Chip device according to claim 1, characterized in that the clamping rail (8) is attached to the base plate (13) articulated, wherein the locking pin (10) limits a relative movement between the clamping rail (8) and the base plate (13), or that the clamping rail (8) is seated at the end on the clamping piston (9) arranged in a housing of the chain tensioner, wherein the locking pin (10) delimits a relative movement between the tensioning rail (8) and the housing.

3. Clamping device according to one of the preceding claims, characterized in that the base plate (13) or the housing has a recess (16) and the clamping rail (8) has two opposite clamping rail recesses (17) on the recess (16) of the base plate (16). 13) or the housing are aligned, wherein the locking pin (10) through the recess (16) and the clamping rail recesses (17) protrudes.

4. Clamping device according to one of the preceding claims, characterized in that the clamping piston (9) with a pressure point (14) of the clamping rail (8) can be brought into contact, wherein the clamping piston (9) via the clamping rail (8) and the Projection (19) of the locking pin (10) on the contour (20) of the base plate (13) is supported.

5. Clamping device according to one of the preceding claims, characterized in that the locking pin (10) in the region of the projection (19) has a corresponding indentation (21) and the contour (20) of the base plate (13) in the recess (21) Lock engaged.

6. Clamping device according to one of the preceding claims, characterized in that the locking pin (10) is formed of a wire.

7. Clamping device according to one of the preceding claims, characterized in that the projection (19) has a maximum distance a to Sperrstiftdrehachse (18), wherein the maximum distance a together with a regular distance b a maximum lateral displacement upon rotation of the locking pin (10 ) Are defined.

8. A method for limiting the relative movement between the clamping rail (8) and the base plate (13) or between the clamping rail (8) and the housing of a clamping device (1) according to claims 3 and 4, characterized by the following steps:

- Introducing the locking pin (10) in the recess (16) of the base plate (13) on a by the projection (19) of the locking pin (10) defined position;

- Shifting the locking pin rotation axis (18) by turning the locking pin (10) to the Sperrstift- rotation axis (18).