DE102007046812A1 - Drive i.e. belt drive, for e.g. water pump, of internal-combustion engine, has belt pulley comprising two belt supports, where effective diameter of belt pulley is adjustable by axial displacement of belt supports - Google Patents

Abstract

The drive (1) has a belt pulley comprising two belt supports (4, 5), where the effective diameter of the belt pulley is adjustable by an axial displacement of the belt supports. The belt supports are adjustable by a ball screw (6). The support (4) is axially displaced by the ball screw, and the support (5) is arranged on a drive shaft (2) of an auxiliary unit e.g. water pump, in a fixed manner. An actuator (8) acting on the belt supports is provided for adjusting the effective diameter of the belt pulley.

Description

Field of the invention

The The invention relates to a drive for an auxiliary unit an internal combustion engine with a two belt supports having pulley whose effective diameter by an axial Displacement of at least one belt support adjustable is.

Background of the invention

at Auxiliary units of an internal combustion engine, in a belt drive are arranged and driven by a belt, that is Problem that the speed of the pulley of the auxiliary unit as a function of the rotational speed of the crankshaft of the internal combustion engine subject to strong fluctuations. At comparatively low engine speeds, which occur approximately at idle, also has the auxiliary unit one low speed, in contrast, rotates the auxiliary unit at high engine speeds also with high rotational speed. However, this behavior is at certain loading states disadvantageous. For example, a water pump will only idle driven at low rotational speed, although in this Condition a high pumping and cooling capacity would be required. On the other hand, the water pump delivers at high engine speeds high pumping capacity, which ensures high cooling capacity is made, but not required in this operating condition is.

To remedy this deficiency, for example, in the EP 0 586 534 B1 has been proposed to use a variable diameter pulley. To control the change in diameter, a hydraulic device is provided, which, however, requires a relatively high construction cost.

An auxiliary drive with variable ratio is also from the DE 197 45 735 A1 known. Similarly, adjustable pulleys are also used in CVT transmissions.

Summary of the invention

Of the Invention is based on the object, a drive for To provide an auxiliary unit of an internal combustion engine, the simple is constructed and still a reliable attitude of the effective pulley diameter.

to Solution to this problem is in a drive of the beginning mentioned type according to the invention provided that the at least one belt support by means of a ball screw is displaceable.

Different than in conventional systems is in the inventive Drive for the auxiliary unit no complex and error-prone hydraulic system needed because at least one belt support displaceable by means of the ball screw is.

According to one first variant of the drive according to the invention can be a belt support by means of ball screw axially displaceable and the other belt support stationary be arranged on a drive shaft of the auxiliary unit. The control and setting the effective diameter of the pulley doing so by shifting the belt support.

According to one second, alternative embodiment of the invention Drive it can be provided that the ball screw a shaft having two counter-rotating ball tracks on which in each case a belt support is guided. at This variant both belt supports are simultaneously shifted so that the axial position of the belt substantially remains unchanged.

It is particularly useful that the inventive Drive a acting on at least one belt support Actuator for setting the effective diameter of the pulley having. The servomotor can be controlled by a control device be, especially as a function of the speed of the belt. According to a preferred embodiment of the invention the servomotor for moving the at least one belt support be formed by induction. Such a configuration is especially reliable.

In Another embodiment of the invention may be provided that the servomotor a particular inductively displaceable, at least one Belt support acting transmission element having. In this way, the displacement of the transmission element and thus the adjustment of the effective diameter of the pulley electrically, preferably, the servo motor by means of a Control device to be controlled. The control of the servomotor takes place preferably in depen dence of the rotational speed of the belt, which serves as a drive for the auxiliary unit of the Internal combustion engine is used.

The inventively provided, acting on the at least one belt support transmission element may be formed as a sliding sleeve, which preferably has a collar which directly or indirectly on the Riemenabstüt acts and this moves axially. It is preferred that the transmission element, in particular the sleeve, rests against a mounted on the belt support thrust bearing.

at it can be provided for the drive according to the invention be that the belt supports by means of detachable Connecting elements are axially displaceable interconnected. The belt supports are with regard to the required axial adjustment not fixed in the axial direction interconnected, but they have releasable fasteners, which are preferably formed as pins, on which a radial Prevent relative movement of the belt supports.

The Auxiliary unit of the drive according to the invention can for example as a water pump, air conditioning compressor, generator, oil pump or be designed as a power steering pump, next to come all others in internal combustion engine auxiliary equipment in question.

Danben The invention relates to a belt drive, in particular for an internal combustion engine. The inventive Belt drive has at least one drive of the type described on.

Brief description of the drawings

Further Advantages and details of the invention are described below of embodiments with reference to the figures described. The figures are schematic representations and show:

1 a first embodiment of a drive according to the invention for an auxiliary unit of an internal combustion engine in a sectional view; and

2 A second embodiment of a drive according to the invention for an auxiliary unit of an internal combustion engine in a sectional view.

Detailed description the drawings

1 shows a drive 1 for an auxiliary unit of an internal combustion engine in a sectional view. In the illustrated embodiment, the auxiliary unit is a water pump, which via a drive shaft 2 is driven. The drive 1 is part of a belt drive of an internal combustion engine, which comprises at least one not shown driving pulley, which via a belt 3 with the drive 1 connected is. In addition, other pulleys other auxiliary units are available, next to the belt drive can have one or more pulleys and one or more tension rollers.

The drive 1 includes belt supports 4 . 5 where the belt support 4 Also referred to as a travel plate and is axially displaceable. The Rie menabstützung 5 , which is also referred to as a fixed disk, is non-rotatable with the drive shaft 2 connected. Between the two belt supports 4 . 5 is a trained as a spiral compression spring spring element 19 arranged, which is the two belt supports 4 . 5 presses apart. The to the belt 3 directed side of the belt supports 4 . 5 runs obliquely to the belt so that the belt supports 4 . 5 form an outwardly opening cone. When the movable belt support 4 for stationary belt support 5 is moved, the distance between the two belt supports decreases 4 . 5 so the belt 3 from the drive shaft 2 is moved away, accordingly increases the speed of the drive shaft 2 , When the sliding belt support 4 axially from the stationary belt support 5 is moved away, increases the distance between the conical surfaces of the belt supports 4 . 5 so the belt 3 for Drehach se the drive shaft 2 is moved, whereby the speed is reduced accordingly.

As in 1 is shown is the belt support 4 by means of a ball screw 6 displaceable. The balls of the ball screw 6 move on the surface of the drive shaft 2 , the drive and thus the control of the displacement of the belt support 4 done by means of an induction coil 7 having servomotor 8th , The servomotor 8th can have an in 1 not shown external control device or via a in the servomotor 8th integrated control device are controlled by means of the induction coil 7 the ball screw 6 is brought into a specific axial position.

The control of the slidable belt support 4 about the adjustment of the ball screw 6 by means of the servomotor 8th occurs as a function of the rotational speed of the belt 3 , For example, when the engine of the internal combustion engine is idling, a high cooling capacity is required, so that the belt support 4 is shifted so that a high speed of the drive shaft 2 established. On the other hand, when the internal combustion engine is operated at high speed, the rotational speed of the drive shaft 2 by moving the belt support 4 be reduced if only a small cooling capacity is required.

2 shows a second embodiment of the invention, wherein the same components are denoted by the same reference numerals. In Consistent with the first embodiment, the drive comprises 9 a drive shaft 10 in the illustrated embodiment, an impeller 11 a water pump drives. The belt supports 4 . 5 lead the belt 3 , where the distance of the belt 3 to the axis of rotation of the drive shaft 10 depending on the axial position of the belt supports 4 . 5 , which by means of a ball screw 12 is adjustable, changes. The ball screw 12 has opposing ball tracks 13 . 14 on, so the belt supports 4 . 5 at an adjusting movement of the ball screw 12 either away from each other or towards each other. The belt supports 4 . 5 are over as pins 15 trained fasteners coupled together, which are inserted into corresponding axial recesses. The pins do not interfere with the axial relative movement of the belt supports 4 . 5 but prevent a relative displacement in the radial direction.

The adjustment of the ball screw 12 takes place by means of a servomotor 16 , the inductively as a sleeve 17 axially displaced trained transmission element. The sleeve 17 has an inwardly bent collar on a thrust bearing 18 on the belt support 5 is applied. A as a spiral pressure spring 19 trained spring element is supported inside the servo motor 16 on the one hand on a housing section and on the other hand on the sleeve 17 off, so that these against the thrust bearing 18 the belt support 5 is pressed. In the illustrated embodiment, the servo motor 16 on the outside of a pump housing 20 arranged.

The adjustment of the effective diameter of the belt supports 4 . 5 and thus the adjustment of the speed of the drive shaft 10 takes place analogously to the in 1 shown first embodiment, depending on the speed of the belt 3 , When the speed of the drive shaft 10 To be reduced, the belt supports 4 . 5 by means of the servomotor 16 moved apart. When the speed is to be increased, the belt supports become 4 . 5 moving towards each other, thereby increasing the effective diameter and thus the distance of the belt 3 enlarged to the axis of rotation.

1

drive

2

drive shaft

3

belt

4

belt support

5

belt support

6

Ball Screw

7

induction coil

8th

servomotor

9

drive

10

drive shaft

11

impeller

12

Ball Screw

13

ball track

14

ball track

15

pencils

16

servomotor

17

shell

18

axial bearing

19

Coil spring

20

pump housing

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 0586534 B1 [0003]
• DE 19745735 A1 [0004]

Claims (13)

Drive for an auxiliary unit of an internal combustion engine with a belt pulley having two belt supports, whose effective diameter is adjustable by an axial displacement of at least one belt support, characterized in that the at least one belt support ( 4 . 5 ) by means of a ball screw ( 6 . 12 ) is displaceable. Drive according to claim 1, characterized in that a belt support ( 4 ) by means of the ball screw ( 6 ) axially displaceable and the other belt support ( 5 ) fixed on a drive shaft ( 2 ) of the auxiliary unit is arranged. Drive according to claim 1, characterized in that the ball screw ( 12 ) a wave ( 10 ) with two counter-rotating ball tracks ( 13 . 14 ), on each of which a belt support ( 4 . 5 ) is guided. Drive according to any one of the preceding claims, characterized in that it supports an at least one belt support ( 4 . 5 ) acting actuator ( 8th . 16 ) for adjusting the effective diameter of the pulley. Drive according to claim 4, characterized in that the servomotor ( 8th . 16 ) for displacing the at least one belt support ( 4 . 5 ) is formed by induction. Drive according to claim 4 or 5, characterized in that the servomotor ( 8th . 16 ) a particular inductively displaceable, on at least one belt support ( 4 . 5 ) has acting transmission element. Drive according to claim 6, characterized in that the transmission element as at least one belt support ( 5 ) acting sleeve ( 17 ) is trained. Drive according to claim 6 or 7, characterized in that the transmission element by at least one spring element ( 19 ) against the belt support ( 5 ) is pressed. Drive according to one of claims 6 to 8, characterized in that the transmission element at one of the belt support ( 5 ) mounted thrust bearing ( 18 ) is present. Drive according to one of the preceding claims, characterized in that the belt supports ( 4 . 5 ) by means of releasable connecting elements, in particular by means of pins ( 15 ), axially displaceable interconnected. Drive according to one of claims 4 to 10, characterized in that the servomotor ( 8th . 16 ) is controllable by means of a control device, in particular as a function of the rotational speed of a belt ( 3 ). Drive according to one of the preceding claims, characterized in that the auxiliary unit as a water pump, Air conditioning compressor, generator, oil pump or power steering pump is trained. Belt drive, in particular for an internal combustion engine, characterized in that it has at least one drive ( 1 . 9 ) according to one of claims 1 to 12.