DE102008025349B4 - Ball Screw - Google Patents

Abstract

A ball screw having a spindle nut (1) arranged on a screw spindle (2) provided with a helical ball groove (3) and provided with a ball groove (16) for balls (16a) formed on the inner circumference and arranged helically about the longitudinal axis in an endless ball channel, which is formed by the ball grooves (3, 16) of the threaded spindle (2) and the spindle nut (1) and by a deflection channel (18), in the balls (16 a) from one end to a beginning of the endless Ball channel are deflected, and with at least one deflection channel (18) having deflecting piece (10) which is provided on the spindle nut (1), characterized in that a stop element (6) is provided, of which the threaded spindle (2) and the spindle nut (1) associated stop members (7, 8) cooperate in the circumferential direction, wherein the deflection piece (10) with the at an end face of the spindle nut (1) arranged in the circumferential direction Ansc bearing part (8) is provided.

Description

The present invention relates to a ball screw.

A ball screw comprises a threaded spindle which is provided with a ball groove provided helically about the longitudinal axis of the threaded spindle. On this threaded spindle, a spindle nut is arranged, which is provided with a formed on the inner circumference, helically arranged around the longitudinal axis of the spindle nut ball groove for the balls.

Out DE 100 56 275 A1 For example, a spindle nut has become known, which is arranged on a threaded spindle. Between the spindle nut and the threaded spindle balls are arranged in one or more endless ball channels, said ball channels are formed by the ball grooves of the threaded spindle and the spindle nut and a deflection channel in which balls are deflected from one end to a beginning of the endless ball channel. The deflection channel is formed according to this prior publication on one or more deflectors.

Under a relative rotation between the threaded spindle and the spindle nut takes place an axial relative displacement of the threaded spindle and the spindle nut to each other. In many cases, it is necessary that a relative end position of the threaded spindle and the spindle nut is intended to each other. In this case, a stop element may be provided which has circumferentially effective stop members, of which one of the spindle nut and of which another of the threaded spindle is associated. In its end position, the spindle nut proposes circumferentially with its stop member against the preferably non-rotatably connected to the threaded spindle other stop member. The spindle nut is often formed from a tubular piece of steel. A known solution for forming a stop member is to edit the one end face of this tubular piece, so that a stop member is formed, the circumferential direction is effective.

Out DE 25 33 996 A1 a ball screw has become known, which used in openings of the spindle nut deflection pieces have cams that allow a positionally correct insertion of the deflectors. The cams come for radial abutment against stops which are arranged within the openings.

The object of the invention was to provide a ball screw whose stop member is provided in a simple manner.

According to the invention this object is achieved by the ball screw according to claim 1. Characterized in that the deflecting piece is provided with a the one end face of the spindle nut axially projecting stop member for the spindle nut, eliminates a costly machining of the spindle nut as such. Rather, the deflection piece often produced by spraying can already be provided with this stop member.

• Umlenkstücke für eine Einzelumlenkung. Damit sind solche Umlenkstücke bezeichnet, die in einer Ausnehmung der Spindelmutter eingesetzt sind, und die einen relativ kurzen Umlenkkanal an ihrer inneren Umfangsfläche aufweisen, wobei dieser Umlenkkanal einen Anfang und ein Ende einer gemeinsamen Windung verbinden, so dass ein endloser Kugelkanal gebildet ist.

As a deflection in the context of the invention come into consideration:

• Deflecting pieces for a single deflection. Thus, such deflection pieces are referred to, which are used in a recess of the spindle nut, and having a relatively short deflection channel on its inner peripheral surface, said deflection channel connect a beginning and an end of a common turn, so that an endless ball channel is formed.

Further deflection pieces come into consideration, which are designed as a deflection tube. Such deflection tubes are arranged on the outer circumference of the spindle nut and they extend in the axial direction over several turns. The tube serves as a deflection channel, which also connect a beginning and an end of a common endless circulation channel, said endless circulation channel may comprise a plurality of turns.

Furthermore, suitable for the invention, such deflecting into consideration, in which a so-called front deflection is provided. In such an end deflection, the deflection piece is arranged on an end face of the spindle nut. In this case, the deflection channel is located on this same end face, wherein the balls are returned to the opposite end face of the spindle nut via a substantially coaxial with the spindle axis return pipe. At this opposite end face can then be arranged a further deflection piece, through the ball channel, the balls are deflected back into the endless ball channel into it.

The deflecting piece can be designed as an integrally manufactured part. However, the deflection can be composed of several items to a deflection. These items may, for example, be clipped, welded or glued together.

In the possibilities described here for the inventive design of a deflection piece according to the invention the deflection piece is provided with a circumferentially effective stop member for the spindle nut, this stop member is provided at a front end of the spindle nut. So this stop part can be formed for example as an axially projecting stop member which projects axially beyond the end face of the spindle nut. This projecting part then has the circumferentially effective stop member, that is, this axially projecting part forms the stop member.

The stop member may be formed integrally with the deflection piece. However, it is also possible that the deflecting piece and the abutment part are two interconnected parts.

Preferably, the stop member is formed as an integrally formed on the deflection protrusion.

In a further development according to the invention, the deflecting piece can have an insert section which is inserted into a recess of the spindle nut, wherein the insert section and the stopper part can be arranged radially offset from one another. Such, provided with an insert portion deflectors are preferably designed for a single deflection. This means that the deflection piece has a deflection channel, which connects a beginning endlessly with one end of a common winding. The radially offset arrangement of the insert portion and the stop member allows the stop member may be disposed on the outer circumference of the spindle nut and extends there to the axial end of the spindle nut and beyond. Alternatively, however, it is also possible that the stop member is arranged radially offset on the inner circumference of the spindle nut.

Preferably, the stop member is formed on the radially inner edge of the insert portion. Such provided with the stopper deflectors can be made in a favorable manner as a casting or injection molded part.

The stop member may be arranged within an annular gap arranged around the spindle axis, which is limited by the inner diameter of the spindle nut and by the outer diameter of the threaded spindle insertable into the spindle nut.

At the edge of the insert portion of the deflector each have a ball inlet and a ball outlet can be provided for the balls. This ball inlet and the ball outlet can be cup-shaped and engage in the ball groove of the threaded spindle to allow proper lifting and lifting the balls into the ball channel inside.

• 1 und 2 einen Kugelgewindetrieb in perspektivischer Darstellung in zwei Montageschritten,
• 3 und 4 Teillängsschnitte durch die Kugelgewindetriebe aus den 1 und 2,
• 5 und 6 zwei Explosionsdarstellungen des Kugelgewindetriebes aus 1 aus unterschiedlichen Perspektiven,
• 7 einen Längsschnitt durch die Spindelmutter des Kugelgewindetriebes,
• 8 die Spindelmutter mit Umlenkstücken gemäß 1,
• 9 das in 8 abgebildete Umlenkstück in einer vergrößerten Ansicht und
• 10 ein alternatives Umlenkstück in einer Ansicht wie in 9.

The invention will be explained in more detail with reference to two embodiments shown in a total of ten figures. Show it:

• 1 and 2 a ball screw in perspective in two assembly steps,
• 3 and 4 Partial longitudinal sections through the ball screws from the 1 and 2 .
• 5 and 6 two exploded views of the ball screw 1 from different perspectives,
• 7 a longitudinal section through the spindle nut of the ball screw,
• 8th the spindle nut with deflection pieces according to 1 .
• 9 this in 8th pictured deflector in an enlarged view and
• 10 an alternative diverter in a view like in 9 ,

The 1 to 9 show a ball screw according to the invention and a spindle nut of a ball screw according to the invention.

1 shows in perspective views a ball screw according to the invention. A spindle nut according to the invention 1 is on a threaded spindle 2 arranged. The threaded spindle 2 is with a helical around the longitudinal axis of the threaded spindle 2 spiral ball groove 3 provided, can roll on the balls not shown here.

The threaded spindle 2 is at a spindle end with a radially projecting radial board 4 Provided. At this radial board 4 closes coaxially with the threaded spindle 2 arranged connection pin 5 on.

The ball screw according to the invention is provided with a stop element 6 Provided. The stop element 6 serves to define an axial end position of the spindle nut 1 opposite the threaded spindle 2 , The stop element 6 has two stop parts 7 . 8th on, which cooperate in the circumferential direction. The stop part 7 is as on the threaded spindle 2 arranged disc 9 formed as a plastic part. In the illustration according to 1 is the disc 9 initially opposite the spindle nut 1 on the threaded spindle 2 freely rotatable.

The stop part 8th is non-rotatable the spindle nut 1 assigned and integral to a deflection 10 However, an axial roller bearing is not necessarily required for the implementation of the invention.

2 shows the ball screw 1 However, according to this figure, the formed as a plastic part disc 9 rotatable with the radial board 4 connected. Of the 2 It can be seen that several distributed over the circumference arranged portions of the disc 9 each to a nose 11 plastically transformed into warm, these noses 11 in the corresponding exemptions 12 intervene, these recesses 12 at the radial board 4 are provided. These recesses therefore serve as a receptacle 13 for the deformed noses 11 the disc 9 ,

While the noses 11 in which an axial direction project is on the disc 9 an in the opposite axial direction projecting circumferential stop 14 formed, which with the spindle nut 1 rotatably associated stop member 8th cooperates.

The 3 and 4 show partial longitudinal sections of the ball screw according to the invention, wherein in the 3 the disc 9 is pictured before the noses 11 produced by a forming process. 3 also shows two recesses 12 for the noses 11 ,

4 differs from 3 only by the fact that on the disc 9 the noses 11 produced by a forming process, these noses 11 in the recesses 12 of the radial board 4 engage to a non-rotatable connection between the disc 9 and the radial board 4 manufacture.

The threaded spindle 2 , the radial board 4 and the connecting pin 5 are firmly connected.

The ball screw is also equipped with an axial roller bearing 15 provided on one side of the Radialbordes 4 is arranged.

The ball screw according to the invention enables a determination of an end position of the spindle nut 1 opposite the threaded spindle 2 where axial tension between the spindle nut 1 and the threaded spindle 2 or the permanently attached radial board 4 excluded are.

To a low-tension end position of the spindle nut 1 the ball screw according to the invention is configured as follows: The spindle nut 1 is under relative rotation between the threaded spindle 2 and the spindle nut 1 towards the radial board 4 turned. The disc 9 is initially freely rotatable both with respect to the spindle nut 1 as well as with respect to the threaded spindle 2 and also freely rotatable relative to the radial board 4 , Under a rotation of the spindle nut 1 comes the spindle nut 1 non-rotatably associated stop member 8th - The raised from one end face of the spindle nut 1 protrudes - in circumferential stop with the on the disc 9 trained circumferential stop 14 , Another turn of the spindle nut 1 can now work together with the disc 9 respectively. As a result, a common rotation of the spindle nut takes place 1 with the disc 9 opposite the radial board 4 , Finally, the disc 9 between the radial board 4 and the spindle nut 1 axially clamped. In this clamping situation, forces are transmitted via the balls, not shown here, between the spindle nut 1 and threaded spindle 2 transfer. The tighter this clamping situation, the greater the forces that would be transmitted through the balls. To avoid this clamping of the balls, the spindle nut is now slightly rotated back, so that the disc 9 is relieved, the axial clamping is therefore reduced. Now, if a sufficient voltage reduction is achieved, now by means of a suitable - not shown here tool - the disc 9 transformed so that the already described noses 11 are formed in the recesses 12 of the radial board 4 interlock positively.

Now if the spindle nut 1 again in the direction of the radial board 9 is twisted, is an axial clamping of the disc 9 between the radial board 4 and the spindle nut 1 excluded: Because before it can come to such an undesirable axial clamping, the non-rotatably struck the spindle nut 1 assigned stop part 8th circumferentially against the now rotatably with the radial board 4 connected circumferential stop 14 together, allowing further rotation of the spindle nut 1 opposite the threaded spindle 2 is excluded. If, however, further rotation of the spindle nut 1 is excluded, is also a further axial displacement of the spindle nut 1 towards the radial board 4 locked out. Consequently, it is also an axial clamping of the disc 9 locked out.

The embodiment of the invention described here relates to a ball screw with single deflection, which will be described below with reference to 7 to 10 is explained in more detail. However, it is irrelevant for this part of the invention whether a single deflection, an external deflection, or a frontal deflection of the balls takes place. This aspect of the invention also includes ball screws, in which the balls are arranged in finite ball channels, in which therefore the spindle nut has no revolution for the balls. This aspect of the invention only deals with the determination of a low-strain or tension-free end position of the spindle nut relative to the threaded spindle.

The 5 and 6 show the ball screw according to the 1 in an exploded view from different perspectives. Clear Here are the individual parts of the ball screw according to the invention to recognize.

In particular 6 shows balls 16a which endlessly circulate in two endless ball channels, these endless ball channels being further explained below.

Furthermore, the show 5 and 6 the disc 9 before the noses 11 were formed in a forming process, as well as the discs 9 with the already integrally formed noses 11 ,

7 shows a longitudinal section through the spindle nut according to the invention 1 , On the inner circumference of the spindle nut 1 is a helically wound around the longitudinal axis ball groove 16 educated. The figure also shows that the spindle nut 1 with two circumferentially spaced recesses 17 is provided, of which, however, only one can be seen in the longitudinal section here. In both recesses 17 is in each case one of the deflection pieces 10 used. Each diverter 10 is with two deflection channels 18 Provided. Each deflection channel 18 has a ball inlet 19 as well as a ball outlet 20 on.

The balls 16a Run in endless ball channels, which are formed by the ball groove 16 the spindle nut 1 as well as the ball groove 3 the threaded spindle 2 , as well as the deflection channels 18 , Each deflection channel 18 connects one end to a beginning of a common turn of the endless ball channel. As a result, the balls are running 16a endlessly around. In the spindle nut shown here 1 are a total of two deflectors 10 arranged so that a total of four endless recirculating ball over each about one turn are included.

7 also shows that in one piece to the deflector 10 molded stop member 8th at the end of the spindle nut 1 protrudes.

8th shows a perspective view of the spindle nut 1 with the deflectors 10 , Again, it can be clearly seen that the stopper part 18 in one piece to the deflector 10 is formed. The deflector 10 is with an insert section 21 provided, the fit into the recess 17 the spindle nut 1 intervenes. If the diverter 10 into the recess 17 is used, is formed as a projection stop member 18 on the inner circumference of the spindle nut 1 and jumps axially out of the end face of the spindle nut 1 in front. The projecting part of the abutment part 8th comes with the stopper described above 7 together.

In this spindle nut according to the invention 1 eliminates a complex processing on a front side of the spindle nut 1 to form a circumferentially effective stop. Rather, the abutment part can be provided on the deflection piece which is required in any case. Preferably, the stop member can be made in one piece with the deflection.

9 shows the deflector 10 with the integrally molded stop member 8th in an enlarged view.

10 shows a modified diverter 22 that is different from the one from 9 essentially by a modified stop member 23 different. The stop part 23 is here by several saw teeth 24 formed, with a sawtooth edge 25 is designed as a stop surface. This stop surface 25 is also effective in the circumferential direction. This stopper part 23 works with a stopper not described here together, which is rotatably associated with the threaded spindle. At this further stop member a corresponding sawtooth profile is also formed.

LIST OF REFERENCE NUMBERS

1

spindle nut

2

screw

3

ball groove

4

radial board

5

connection thread

6

stop element

7

stop part

8th

stop part

9

disc

10

deflection

11

nose

12

recess

13

admission

14

circumferential abutment

15

thrust roller bearing

16

ball groove

16a

Bullet

17

recess

18

diversion channel

19

ball inlet

20

ball outlet

21

insert portion

22

deflection

23

stop part

24

sawtooth

25

Sägezahnflanke

Claims (6)

A ball screw having a spindle nut (1) arranged on a screw spindle (2) provided with a helical ball groove (3) and provided with a ball groove (16) for balls (16a) formed on the inner circumference and arranged helically about the longitudinal axis in an endless ball channel, which is formed by the ball grooves (3, 16) of the threaded spindle (2) and the spindle nut (1) and by a deflection channel (18) in which balls (16a) from one end to a beginning of the endless Ball channel are deflected, and with at least one deflection channel (18) having deflecting piece (10) which is provided on the spindle nut (1), characterized in that a stop element (6) is provided, of which the threaded spindle (2) and the spindle nut (1) associated stop members (7, 8) cooperate in the circumferential direction, wherein the deflection piece (10) with the at an end face of the spindle nut (1) arranged in the circumferential direction effective Ans bearing part (8) is provided. Ball screw to Claim 1 whose abutment part (8) is formed as an integrally formed on the deflection piece (10) projection. Ball screw to Claim 1 whose deflection piece (10) has an insert portion (21) which is inserted into a recess (17) of the spindle nut (1), wherein the insert portion (21) and the stop member (8) are arranged radially offset from one another. Ball screw to Claim 3 whose stop member (8) is formed on the radially inner edge of the insert portion (21). Ball screw to Claim 3 , at the edge of the insert portion (21) of the deflection piece (10) each have a ball inlet and a ball outlet for the balls (16 a) are provided. Ball screw to Claim 1 whose abutment part (23) is provided with one or more saw teeth (24), wherein a sawtooth edge (25) is designed as a stop surface.

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