DE102012223329A1 - Hydraulic automatic tensioner - Google Patents

Abstract

A hydraulic automatic tensioner is proposed, comprising - a tensioner housing (2) with a cylinder (8), - a piston (10) guided longitudinally in the cylinder, which with the cylinder delimits a hydraulic pressure chamber (11), - one of the tensioner housing and the cylinder limited hydraulic storage space (13), - a check valve (12), which connects the storage space with the pressure space, the check valve closes when the pressure in the pressure space exceeds the pressure in the storage space, - and a pressure relief valve (15) which connects the pressure space with connects to the storage space, the pressure relief valve opening when the pressure in the pressure space exceeds a predetermined limit pressure. The automatic tensioner should include a control valve (20) that can be switched between an open and a closed position, which in the open position allows flow through the pressure relief valve and in the closed position prevents flow through the pressure relief valve.

Description

• – ein Spannergehäuse mit einem Gehäuseboden und einem sich davon empor erstreckenden Zylinder,
• – einen längsbeweglich im Zylinder geführten Kolben, der mit dem Zylinder einen hydraulischen Druckraum begrenzt,
• – einen vom Spannergehäuse und vom Zylinder begrenzten hydraulischen Vorratsraum,
• – ein Rückschlagventil, das am Gehäuseboden verläuft und den Vorratsraum mit dem Druckraum verbindet, wobei das Rückschlagventil schließt, wenn der Druck im Druckraum den Druck im Vorratsraum überschreitet,
• – und ein Druckentlastungsventil, das den Druckraum mit dem Vorratsraum verbindet, wobei das Druckentlastungsventil öffnet, wenn der Druck im Druckraum einen vorgegebenen Grenzdruck überschreitet.

The invention relates to a hydraulic automatic tensioner. This includes:

• A tensioner housing having a housing bottom and a cylinder extending therefrom,
• A piston which can be moved longitudinally in the cylinder and which delimits a hydraulic pressure chamber with the cylinder,
• A hydraulic reservoir bounded by the tensioner housing and by the cylinder,
• A non-return valve which runs on the housing bottom and connects the storage space with the pressure chamber, the check valve closing when the pressure in the pressure chamber exceeds the pressure in the storage space,
• - And a pressure relief valve which connects the pressure chamber with the reservoir, wherein the pressure relief valve opens when the pressure in the pressure chamber exceeds a predetermined limit pressure.

Background of the invention

Such automatic tensioners are typically belt tensioners, which bias the belt of the accessory drive of an internal combustion engine by means of a tensioning roller actuated by the belt tensioner. While the biasing force is generated by the force of a tensioner spring between tensioner housing and piston, the hydraulic part of the tensioner damps the vibrations of the belt drive by means of so-called leakage gap damping. Upon retraction movements of the piston into the cylinder and corresponding increase in pressure in the pressure chamber, a portion of the hydraulic fluid therein is pressed back into the storage space via the small leakage gap between the piston and cylinder. The case to be overcome throttle resistance corresponds to the damping of the tensioner.

To limit the maximum pressure in the pressure chamber and consequently to limit the operating maximum tension of the belt, it is known to perform the piston in a hollow cylinder and with a recess on the part of the pressure chamber in which a pressure relief valve is used. This opens when a limiting pressure in the pressure chamber is exceeded, so that the hydraulic fluid can relieve the pressure in the reservoir via the pressure relief valve and the pressure in the pressure chamber is essentially limited to this limit pressure. A hydraulic belt tensioner with limited reaction forces as a result of such a pressure relief is for example from the DE 10 2010 034 290 A1 and the EP 2 101 082 A2 out.

Object of the invention

Proceeding from this, the present invention seeks to provide a hydraulic automatic tensioner of the type mentioned with an improved characteristic of the pressure relief.

Summary of the invention

The solution to this is that the automatic tensioner comprises a switchable between an open and a closed position control valve, which allows the flow through the pressure relief valve in the open position and prevents the flow through the pressure relief valve in the closed position. In other words, the pressure relief of the tensioner according to the invention can be locked as needed during operation, wherein in the locked state, the force-displacement map would correspond to the map of a comparable tensioner without pressure relief.

The adjustability of the pressure relief allows, for example, that the tensioner is operated during the starting process of the internal combustion engine like a tensioner without pressure relief with high reaction forces and accordingly high damping. This is particularly advantageous in internal combustion engine with start-stop function and consequently numerous restart operations.

Another application may be the belt drive of an internal combustion engine with a starter generator, short RSG. In this case, during the starting process of the internal combustion engine by means of the RSG traction and slack side of the belt drive are reversed, wherein the then located in Zugtrum tensioner also with high damping, i. to be operated without pressure relief.

In a constructional borderline case, the piston is still longitudinally movable, but fitted with such a small guide clearance in the cylinder that the leakage gap is hydraulically almost and theoretically completely impermeable. This dimensioning of the leakage gap would result in the tensioner being virtually blocked or locked in the retraction direction when the pressure relief is blocked. Such a high rigidity of the tensioner hydraulics may be desirable in the aforementioned starting processes of the internal combustion engine. The characteristic of the open pressure relief is then suitably tuned so that it takes over the function of the leakage gap damping when the tensioner is in the normal operating mode following the starting process of the internal combustion engine.

The turn-off pressure relief of the tensioner may also be useful if the belt drive is operated in a speed range of the internal combustion engine with pronounced vibration excitation and in this operating range strong vibration damping from the tensioner with correspondingly high tension forces should go out.

Brief description of the drawings

Further features of the invention will become apparent from the following description and from the drawings, in which an embodiment of an automatic tensioner according to the invention for an accessory belt drive of an internal combustion engine is shown. The invention is nevertheless not limited to belt tensioners, but can be used in a constructively adapted form even with automatic tensioners in chain drives. In this case, for example, the hydraulic reservoir in the tensioner housing omitted if the chain tensioner - as usual - is connected to the hydraulic fluid circuit of the internal combustion engine. Show it:

1 a known belt tensioner with rigid pressure relief in a longitudinally sectioned overall view;

2 the piston of a belt tensioner according to the invention with flexible pressure relief;

3 the series connection of control valve and pressure relief valve as a hydraulic circuit symbol;

4 an enlarged section of the piston according to 2 with closed control valve;

5 the enlarged section of the piston according to 4 with open control valve;

6 the valve seat of the control valve in perspective Einzelteildarstellung.

Unless otherwise stated, the same or functionally identical features or components are provided with the same reference numbers.

Detailed description of the drawings

The invention is based on 1 explains that a known hydraulic automatic tensioner 1 shows, which biases the belt of an accessory belt drive an internal combustion engine. The tensioner essentially comprises the following components: a tensioner housing 2 , a longitudinally movable piston part 3 , an elastomer bellows sealing the tensioner hydraulics to the environment 4 and a the coil member and the tensioner housing in the direction of extension of the tensioner acting helical compression spring 5 , The outer end portions of the piston member and the tensioner housing are with fastening eyes 6 and 7 provided on which the tensioner on the one hand and on a (not shown) tensioning lever with belt tensioning pulley on the other hand is articulated.

The tensioner housing 2 is pot-shaped and with a cylinder 8th provided, extending from a caseback 9 starting upwards. The piston part 3 comprises a hollow cylindrical piston 10 , which is guided longitudinally movably in the cylinder and with the cylinder filled with hydraulic fluid pressure chamber 11 limited. This communicates via a non-return valve running on the housing bottom 12 with a pantry 13 , which is bounded in the form of a partially filled with hydraulic fluid annulus outside the tensioner housing and the inside of the cylinder. The check valve is designed as a ball valve, wherein the valve ball is closed when the hydraulic fluid pressure in the pressure chamber is greater than in the reservoir. This is the case when the tensioned by the belt tensioner shortened, wherein the piston retracts into the cylinder and a part of the compressed hydraulic fluid through the small guide and leakage gap 14 between the piston and cylinder is displaced from the pressure chamber into the reservoir. The throttle resistance to be overcome thereby dampens the relative movement of the piston and cylinder and consequently the vibrations in the belt drive. The following on the shortening extension of the tensioner causes an expansion of the pressure chamber, wherein hydraulic fluid is sucked in with open valve ball of the check valve from the storage room into the pressure chamber to the pressure equalization.

To the pressure in the pressure room 11 limiting to an upper limit pressure is the pressure chamber 11 also via a pressure relief valve 15 and over the hole 16 in the piston 10 with the pantry 13 connected. The pressure relief valve is designed as a conical seat valve, wherein the valve cone 17 between the valve spring giving the limit pressure 18 and a valve seat ring 19 is clamped in the piston and lifts off the valve seat ring when the pressure in the pressure chamber exceeds the limit pressure.

The 2 to 5 show a piston part according to the invention 3 , the upstream of the pressure relief valve 15 with a operationally switchable control valve 20 is provided. As is the case with the symbol in 3 is shown, the control valve is a 2/2-way valve, which is actuated electromagnetically and is normally closed. According to 4 In this closed position, a pressure-relieving hydraulic fluid flow from the pressure chamber 11 via the pressure relief valve in the pantry 13 prevented. In the energized opened valve position according to 5 allows the control valve, the hydraulic fluid flow from the pressure chamber via the pressure relief valve in the reservoir, wherein the pressure relief valve opens when the pressure in the pressure chamber exceeds the predetermined limit pressure. The pressure relief valve is designed here as a plate valve, the valve plate 17 by the limit pressure presetting valve spring 18 is acted upon in the closing direction.

The control valve 20 runs including the solenoid coil of the electromagnet 21 in the longitudinal direction of the piston 10 completely between the pressure chamber 11 and the pressure relief valve 15 and closes in the closed position the inflow through the electromagnet inflow bore 22 to the pressure relief valve in the piston. This is done by an electromagnet acted upon anchor plate 23 , in the case of a de-energized electromagnet, by the force of a wave spring 24 and the pressure in the pressure chamber against a valve seat part inserted in the inflow bore 25 is pressed sealingly (see 4 ).

To open the control valve 20 becomes the electromagnet 21 over the line 26 energized, leaving the anchor plate 23 from the valve seat part 25 is attracted away to the electromagnet. In this valve position, the anchor plate openings 27 in the valve seat part for the flow to the pressure relief valve 15 free, as indicated by the arrows in 5 is shown.

As in 6 recognizable, is the valve seat part 25 formed with a substantially T-shaped cross-section as a hollow body, the opposite of the kidney-shaped openings 27 from the anchor plate 23 by means of a lid 28 to the pressure room 11 is closed.

LIST OF REFERENCE NUMBERS

1

 Stretcher

2

 tensioner housing

3

 piston part

4

 Elastomer

5

 Helical compression spring

6

 fastening eye

7

 fastening eye

8th

 cylinder

9

 caseback

10

 piston

11

 pressure chamber

12

 check valve

13

 pantry

14

 leakage gap

15

 Pressure relief valve

16

 Bore in the piston

17

 Valve cone / valve plate

18

 valve spring

19

 Valve seat ring

20

 control valve

21

 electromagnet

22

 supply bore

23

 anchor plate

24

 Well spring

25

 Valve seat portion

26

 power line

27

 Openings in the valve seat part

28

 cover

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010034290 A1 [0003]
• EP 2101082 A2 [0003]

Claims (3)

Hydraulic automatic tensioner, comprising - a tensioner housing ( 2 ) with a housing bottom ( 9 ) and a cylinder extending therefrom ( 8th ), - a longitudinally movable in the cylinder ( 8th ) guided piston ( 10 ), with the cylinder ( 8th ) a hydraulic pressure chamber ( 11 ), - one from the tensioner housing ( 2 ) and from the cylinder ( 8th ) limited hydraulic storage space ( 13 ), - a check valve ( 12 ), which at the housing bottom ( 9 ) and the storage room ( 13 ) with the pressure chamber ( 11 ), wherein the check valve ( 12 ) closes when the pressure in the pressure chamber ( 11 ) the pressure in the storage room ( 13 ), and - a pressure relief valve ( 15 ), the pressure space ( 11 ) with the storage room ( 13 ), wherein the pressure relief valve ( 15 ) opens when the pressure in the pressure chamber ( 11 ) exceeds a predetermined limit pressure, characterized in that the automatic tensioner ( 1 ) a switchable between an open and a closed position control valve ( 20 ), which in the open position, the flow through the pressure relief valve ( 15 ) and in the closed position the flow through the pressure relief valve ( 15 ) prevented. Hydraulic automatic tensioner according to claim 1, characterized in that the pressure relief valve ( 15 ) is designed as a plate valve whose valve plate ( 17 ) by a pressure limiting the valve spring ( 18 ) is acted upon in the closing direction. Hydraulic automatic tensioner ( 1 ) according to claim 1, characterized in that the control valve ( 20 ) is formed as an electromagnetically actuated 2/2-way valve, which in the longitudinal direction of the piston ( 10 ) including the electromagnet ( 21 ) mostly or completely between the pressure chamber ( 11 ) and the pressure relief valve ( 15 ) and that in the closed position the inflow from the pressure chamber ( 11 ) to the pressure relief valve ( 15 ) closes.

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