DE102018200090A1 - worm gear - Google Patents

Abstract

Worm gear for electric power steering with a worm (102), which is in engagement with a worm wheel (104), said worm (102) in the region of a first end (162) by means of a fixed bearing (160) and in the region of the first end (162) opposite the second end (164) by means of a floating bearing (166) is mounted, wherein the fixed bearing (160) is arranged such that pivoting of the screw (102) about an axis which is orthogonal to a rotational axis (118) of the worm wheel (104) is possible.

Description

The invention relates to a worm gear and an electric power steering system with such a worm gear.

State of the art

Worm gears, also referred to as helical gears, are one type of helical gear. These typically include a helical worm and a worm wheel. During the rotary motion of the worm this engages in the worm wheel. Typically, a moment is introduced via the worm into the worm gear and transmitted to the worm wheel.

Since the screw is usually helically toothed but firmly mounted, high axial forces occur. Therefore, depending on the operation, it may be necessary to adequately support the worm on both sides with thrust bearings. In addition, it should be noted that the worm is also subjected to bending and therefore the storage must be carried out according to elastic or angle-compensating.

From the publication DE 10 2008 001 878 A1 a worm gear is known, which is designed for use in a power steering system. The transmission includes a worm disposed in a transmission housing and engaged with a worm wheel. To improve the engagement of the screw is pivotally mounted. For this purpose, the worm is pivotally mounted by means of a gimbal mounted in the transmission housing bearing ring. The bearing ring is designed as a pivot ring. In addition, a biasing means is provided to bias the worm radially with a biasing force. The worm gear described allows the pivotal movement of the worm perpendicular to the axis of rotation and in the direction of the worm wheel. The axis about which the worm is to pivot is thus parallel to the axis of rotation of the worm wheel.

Disclosure of the invention

Against this background, a worm gear according to claim 1 and an electric power steering system with the features of claim 11 are presented. Embodiments result from the dependent claims and the description.

The proposed worm gear includes a shaft provided with one or more flights, the worm, and a helical gear meshing therewith, the worm wheel. The axes of the two are offset by 90 ° in most cases. The worm is a special form of a helical gear. The angle of the helical toothing is chosen so large that a tooth winds several times helically around the wheel axle. Typically, the worm is connected to a drive shaft of an electric drive motor.

It is now provided that the screw is for example. In a transmission housing is mounted such that it is mounted in the region of a first end by means of a fixed bearing and in the region of a first end opposite the second end by means of a floating bearing, wherein the fixed bearing is arranged such pivoting of the worm about an axis orthogonal to a rotational axis of the worm wheel is possible.

Thus, the particular mounting of the worm allows it to move in the tooth width direction of the worm wheel.

The worm is mounted in an embodiment by means of two bearings, a fixed bearing and a floating bearing. In this way, the rotation of the screw is enabled at the same time defined position in the room. In the fixed-lot storage realized here, the absorption of axial forces, namely forces acting in the direction of the axis of rotation of the screw, taken over by the fixed bearing. The fixed bearing takes over in addition to the axial guidance of the screw and its radial support.

For example, a plain bearing and a rolling bearing, for example a ball bearing, come into consideration.

• - leicht schwenkbar bedeutet kleine Querschnitte,
• - kleine Querschnitte führen zu geringerer Lebensdauer der Anfederung,

ergibt. Eine nunmehr mögliche massivere Ausführung der Schwenkgeometrie führt zu hohen Lebensdauern, zudem werden Anrisse verhindert.The presented worm gear and thus also the electric power steering described, which comprises such a worm gear, have, at least in some of the embodiments, a number of advantages. Thus, in an embodiment, a smooth movement of the screw about both pivot axes, which are referred to herein, in particular in conjunction with the figures, as y-axis and z-axis, allows. Due to the smooth movement around both axes, a clamping guide can be used at the floating bearing. Basically, new movable bearing concepts can be realized. The decoupling of panning and springing by two construction elements is given, so that the resolution of the target conflict, namely:

• - easy to turn means small cross sections,
• - small cross-sections lead to shorter life of springing,

results. A now possible massive design of the swing geometry leads to high lifetimes, also cracks are prevented.

It also allows the use of larger ball bearings, resulting in an increased life at higher gear loads. The use of a robust swing geometry offers advantages in terms of freedom from cracks and improvement in the direction of higher transmission loads. Furthermore, a spring rate to compensate for the basic game, regardless of life requirements, easy to apply. In addition, a spring characteristic to compensate for the basic game can be easily adjusted. A progressive or degressive characteristic or different spring rates depend on the deflection. Further advantages and embodiments of the invention will become apparent from the description and the accompanying drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination indicated, but also in other combinations or in isolation, without departing from the scope of the present invention.

list of figures

• 1 shows an embodiment of a worm gear according to the prior art.
• 2 shows in two illustrations an embodiment of the proposed worm gear.

Embodiments of the invention

The invention is schematically illustrated by means of embodiments in the drawings and will be described in detail below with reference to the drawings.

In 1 an embodiment of a worm gear according to the prior art is shown, the whole with the reference numeral 10 is designated. The illustration shows the worm gear 10 on the one hand in an overall view 10a and on the other hand in a purely schematic view 10b , The two views also each have a coordinate system 12 assigned, in each of which axes, namely an x-axis 14, a y-axis 16 and a z-axis 18 are designated. Next to it is an elastic element 36 intended for springing provided.

In the illustration are a snail 20 with cylindrical running gear and a worm wheel 22 shown, which cooperate to transmit a force or a moment and interlock for this purpose. Furthermore, the illustration shows a fixed seat or a fixed bearing 30 with fulcrum and a floating seat or a floating bearing 32 with stop 34 ,

It should be noted that with currently used screws or Schraubritzeln the fixed bearing 30 including a springing is performed. This allows small movements around an axis of the fixed bearing 30 , in the 1 when y -Axis 16 is designated. A movement of the snail 20 around the vertical axis, in this case the z -Axis 18 , is almost impossible. This can be a disadvantage in a corresponding design of the movable bearing, in particular in a clamping guide.

2 shows an embodiment of the proposed worm gear, the whole with the reference numeral 100 is designated. The illustration shows on the left side a screw in a plan view and on the right side of the worm gear 100 in a side view with the snail 102 and a worm wheel 104 that mesh. Furthermore, in the illustration, an x-axis 110 , one y -Axis 112 and a z -Axis 114 entered. The z -Axis 114 is an axis that is orthogonal to a rotation axis 118 of the helical gear 104 is directed. Panning the snail 102 to the z -Axis 114 means moving the screw 102 in the tooth width direction of the worm wheel 104 ,

The illustration also shows a first ring 140 with a ball bearing 141 with movement about a pivot axis. One possibility is to place the pivot axis at the height of the toothing axis. This results in a better kinematics. There is also a second ring 142 intended. In addition, are deraxing elements 146 , with which a lever arm is generated around the y-axis, for clearance compensation in the toothing and a spring element 148 for applying a spring force 150 provided.

The two rings 140 and 142 allow the worm to pivot 102 around both the y -Axis 112 as well as the z -Axis 114 and thus about an axis perpendicular to the axis of rotation 118 of the worm wheel 104 is aligned. The two rings 140 and 142 provide a Doppelkardanische storage ready. This double gimbal bearing provides a fixed bearing 160 dar. This camp 160 is in the range of a first end 162 the snail 102 intended. At a second end 164 the snail 102 that's the first end 162 is opposite, is a floating bearing 166 intended.

The second ring 142 surrounds the first ring 140 , In this illustration are the two rings 140 and 142 arranged coaxially with each other. The y-axis 112 again, it is perpendicular to the z-axis 114 and runs parallel to the axis of rotation in this embodiment 118 of the worm wheel 104 , This is just then the case, if between snail 102 and worm wheel 104 parallel and thus also the y-axis 112 and the Schneckenradachse are parallel to each other. There is an axle angle of 75 ° between the worm 102 and worm wheel 104 so are the y-axis 112 and the worm wheel axis 118 not parallel, but possibly skewed to each other.

Instead of the spring element 148 In principle, an elastic element, for example a layer of an elastomer, can be used. Furthermore, the snail 102 be stored in a transmission housing. In this gearbox is then typically the fixed bearing 160 arranged.

In the described worm gear 100 The screw bearing can very easily around both pivot axes of the screw 102 be panned. Panning the snail around the y -Axis 112 and the z -Axis 114 takes place in each case with cylindrical pins between the first ring and the second ring and between the second ring and the housing or another ring.

The illustration also shows cylindrical pins 170 that pivoting the snail 102 in this case allow for two axes.

Panning the snail around the y -Axis is doing with horizontal cylinder pins 170 allows. These are with the first ring 140 firmly connected. At the same time, these two horizontal cylinder pins 170 a force, for example. By means of a spring or a similar element, applied via a lever arm. The moment created around the pin longitudinal axis makes it possible for the worm 102 in the worm wheel 104 to press and to compensate the gear play. At the same time, an end stop can be integrated into the springing mechanism.

A possible clearance compensation in the cylinder pin fits on the second ring 142 can, in particular in a design with a small clearance fit, be realized by a possibly additional springing. The cylindrical pins 170 panning around the y -Axis 112 can be mounted directly on the ball bearing outer ring or in a ring with a fixed bearing.

The pivoting about the z-axis 114 This version also comes with two cylindrical pins 170 allows. These are stuck to the second ring 142 connected and have a small clearance in the gear housing or another ring. Here too, a clearance compensation can be used by means of an additional springing.

It can also each have more than two cylindrical pins 170 be provided.

In 2 is the worm gear 100 shown in one embodiment, which is a pivoting of the snail 102 both about the y-axis 112 as well as the z-axis 114 allows. Basically, the worm gear presented here is characterized in that in this pivoting of the worm 102 around the z-axis 114 and thus about an axis orthogonal to the axis of rotation 118 of the worm wheel 104 is aligned, is possible.

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 102008001878 A1 [0004]

Claims (11)

Worm gear for electric power steering with a worm (102), which is in engagement with a worm wheel (104), said worm (102) in the region of a first end (162) by means of a fixed bearing (160) and in the region of the first end (162) opposite the second end (164) by means of a floating bearing (166) is mounted, wherein the fixed bearing (160) is arranged such that pivoting of the screw (102) about an axis which is orthogonal to a rotational axis (118) of the worm wheel (104) is possible. After worm gear Claim 1 in which at least partially accommodated in a transmission housing in which the fixed bearing (160) is provided. After worm gear Claim 1 or 2 in which the fixed bearing (160) has a second ring (142). After worm gear Claim 3 in which two cylindrical pins (170) are provided, which are fixedly connected to the second ring (142). Worm gear according to one of the Claims 1 to 4 in which the fixed bearing (160) is given by a gimbal bearing. Worm gear according to one of the Claims 1 to 5 in which the worm (102) is mounted such that it is pivotable about a further axis, which is aligned parallel and / or skewed with respect to the axis of rotation (118) of the worm wheel (104). Worm gear according to one of Claims 1 to 6 in which an integral springing with at least one softening element (146) is provided. Worm gear according to one of the Claims 1 to 7 in which a first ring (140) is provided. After worm gear Claim 8 in which first cylindrical pins (170) are provided, which are fixedly connected to the first ring (140). Worm gear according to one of the Claims 5 to 9 in which the screw (102) is mounted with Doppelkardanischer storage. Electric power steering system for motor vehicles with a worm gear (100) according to one of Claims 1 to 10 ,

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