DE4218981C2 - Ball bearings for longitudinal movements - Google Patents

Description

The invention relates to a ball bearing for longitudinal movements with Distributed circumference of a guide rail, in a support body housing arranged, endlessly rotating balls, in loaded rows of balls abge in the bore of a support sleeve arranged in the support body supports and in unloaded rows of balls over the outer surface the support sleeve are returned, with a loaded row of balls and an unloaded row of balls at their ends via a ball deflection are connected to each other and between two neighboring loads A row of balls is arranged in each row of balls.

Such a ball bearing is known from GB-PS 836 261. This points a one-piece housing in which the support sleeve and the loaded and unloaded rows of balls are arranged. The ball deflection bends are in end caps, which are on the housing on the two foreheads sides are screwed on. The guideways between neighboring beard-loaded rows of balls are to be assembled individually Parts. They have pins at their ends, which in the holes End caps are inserted and thus the guide bars are centered hold. This ball bearing therefore consists of a large number of individual ones Components that need to be assembled.

From DE-OS 35 12 858 a linear ball bearing is known, in the one-piece bearing housing two half-cages are inserted, which in the Adjoin each other at the end of the middle of the housing. You point here aligned holes and centering pins inserted into them.  

This warehouse consists of fewer parts, but measures must be taken be taken to install the half-cages in the housing and there and to be able to fix them in their position.

The invention has for its object a ball bearing for longitudinal to create movements from just a few, easy to manufacture Individual parts exist and can be assembled quickly and easily.

This object is achieved in that the support body housing with the guide webs along one to the axis of movement of the Support body inclined parting plane in two one-piece housing parts is divided. This training enables the housing parts through Manufacture injection molding, whereby it is designed in its outer shape can be that a ready-to-screw unit is created. After this Injection process, the housing parts can be demolded axially. To this This results in a significantly lower tool effort than with hitherto customary, radially demoulded molded housing parts or Cages. The support sleeve can be used as a cylinder with an annular cross be cut and made of steel. From the support sleeve the load is immediately best on the two housing parts transmitted supporting body housing. One made of hardened steel existing support sleeve can be produced easily and inexpensively. It is preferably rounded at the two ends in order to deflect the Lighten balls in the ball deflection bends. When executing the Housing halves made of plastic result in a good Ge in operation noise reduction. The housing parts are already inserted Support sleeve screwed together. Then the balls of the inside of the housing.

The parting plane can be used as a plane of symmetry for second symmetrical housings parts in the middle of the axial length of the housing. In this In this case, the parting plane is perpendicular to the movement axis of the Housing and this is through the formation of the two housing parts halved.

The guide rail can have a circular cylindrical shape. Here it is possible that the guide rail in the area of the support body  their entire circumference is surrounded by the two housing parts. The Guide rail can also only in the area of the support body a portion of their circumference from the two are sector-shaped Cutout having housing parts surrounded. If such Angle section of the housing is provided, the guide rail ne on their surface exposed by the supporting body housing supports or be attached to a machine-fixed part.

The two housing parts can end face in the area of their parting plane have ge recesses in which a surrounding the support sleeve Support ring is used appropriately. As a result, the support sleeve on the Connected structure supported precisely.

The two housing parts can be mutually particularly well trieren, if in the area of their parting plane from the end faces bores parallel to the axis of movement are arranged, wherein a common in two aligned bores of both housing parts mer centering pin is inserted. It is also possible the housing part le with integrally formed centering pin, which in the Holes are inserted.

The two aligned mounting holes in the housing parts for mounting the support sleeve can have a lower through in the area of the parting plane have knife than on the rest of the housing length. This training enables a defined angle error compensation, d. H. a tipping the support sleeve inside the housing. The diameter differences can be achieved by slight undercuts.

The two housing parts do not necessarily need to be made of a polymer To be made of material, there are also other suitable ones Materials, for example light metal materials, possible. A Another option is to have the housing part in powder metal to produce spray processes.

Embodiments of the invention are shown in the drawing and are described in more detail below. Show it:  

Fig. 1 shows an inventive bearing in cross-section, but without a guide rail,

Fig. 2 is a longitudinal section through the ball bearing according to line II-II of Fig. 1;

Fig. 3 is a view of an insertion between two housing parts cash support ring;

Fig. 4 shows a cross section through a further ball bearing, but in which the guide rail is only partially surrounded by the supporting body housing, the support sleeve, the ball races and the guide webs;

5 shows a longitudinal section through the bearing according to Figure 4 along the line VV, but without the guide rail..;

Fig. 6 is an end view of a housing part of the bearing according to FIGS. 4 and 5 and

Fig. 7, the housing part of the support body housing according to FIG. 6 in a longitudinal section along line VII-VII.

The ball bearing shown in FIGS . 1 and 2 has a Tragkör per housing 1 , which is composed of two housing parts 2 and 3 made of a polymeric material. The housing parts 2 and 3 adjoin each other on the end faces and have a common parting plane 4 . This support body housing 1 is provided for the rectilinear movement on a guide rail along a movement axis 5 . When installed, the two housing parts 2 and 3 completely surround the guide rail.

The support body housing 1 is supported on the guide rail via ball revolutions with loaded rows of balls 6 parallel to the axis of movement 5 . These are arranged in the circumferential direction at intervals from one another in the support body housing 1 , a guide web 7 being arranged as part of the housing part 2 or 3 between two adjacent rows of balls 6 . The balls of the loaded row of balls 6 are also supported on the inner surface of a support sleeve 8 , which consist of a hardened steel and can be designed as a cylinder with a circular cross-section. The support sleeve 8 is arranged in the housing parts 2 and 3 of the support body housing 1 , wherein it is inserted with its outer circumferential surface 9 into flush receiving bores 10 of the housing parts 2 and 3 . At its front ends 11 , the support sleeve is rounded off. These ends 11 are located in the region of spherical deflection arches 12 of the housing parts 2 and 3 , through which each loaded row 6 of balls is connected to a parallel unloaded row 13 of balls for the return of the balls. While the balls of the loaded row of balls 6 roll along the inner surface of the support sleeve 8 , the balls of the unloaded row of balls 13 move back along the outer lateral surface 9 of the support sleeve 8 in the housing parts 2 and 3 .

In the area of the parting plane 4 , the housing parts 2 and 3 from their end faces outgoing aligned bores 14 , in which Zen trierstifte 15 are inserted. Through this, each in a bore 14 of the housing part 2 and in the aligned bore 14 of the hous set 3 inserted centering pins results in an exact assignment of the two housing parts 2 and 3 to each other. The bores 14 and the centering pins 15 are arranged parallel to the movement axis 5 .

The two housing parts 2 and 3 are axially fixed to one another with the aid of screws 16 , which are arranged in bores of the housing parts 2 and 3, which are also par allelic and aligned with the movement axis 5 .

In this embodiment of the ball bearing housing made of plastic, a flat support ring 17 can be arranged in the region of the parting plane 4 , on which the support sleeve 8 is then supported in the radial direction Rich. Such a support ring 17 suitable for the bearing according to FIGS. 1 and 2 is shown in FIG. 3. For the installation of the support ring, however, recesses must be provided in the housing parts 2 and 3 , in which the support ring can be used.

The exemplary embodiment according to FIGS. 4 and 5 shows a ball bearing with a support ring 18 inserted into the housing parts of the support body housing. This ball bearing is constructed in principle in the same way as the bearing according to FIGS. 1 and 2, the housing parts 19 and 20 of its support body housing 21 made of plastic, however, do not surround the guide rail 22 not on the entire circumference, but only on the largest part thereof. Therefore, the support body housing 21 has a sector-shaped cutout 23 , in the region of which the lateral surface of the guide rail 22 is exposed. In a corresponding manner, the support sleeve 24 is also provided with such a cutout. The other structure of this camp, with loaded rows of balls 6 , ball deflection arches 12 , unloaded th rows of balls 13 , guide webs 7 , holes 14 , centering pins 15 , receiving bores 10 for the support sleeve 24 , with the outer jacket surface 9 of the support sleeve 24 in the housing parts 19 and 20 , is the same as for the bearing according to FIGS. 1 and 2.

The housing part of the support body housing 25 according to FIG. 6 for a ball bearing according to the invention is shown as a plastic injection molded part. However, it could also be made from a metallic material. In the illustration of the housing part 26 , both recesses 27 and 28 for receiving a support ring 18 , as well as centering pins 15 for insertion into bores 14 of the housing parts 26 can be seen bar. This bearing also does not completely surround the guide rail, so that its support body housing 25 has a cutout 23 . When the bearing is made of metal, the cutouts 27 and 28 are not required for a support ring due to the then sufficient inherent rigidity.

The case of a ball bearing for longitudinal movements with a housing Plastic lower rigidity compared to linear bearings with metalli shear support interferes particularly with shaft guides without bottom little support because the shaft deflection dominates here. Your own The bearing's elasticity is due to a certain angular error compensation is even desirable and can be achieved with a wall thickness and favorable lightweight construction of the housing promoted by injection molding become. An advantage of the plastic housing is its small size Weight.  

By the previously known in the bearing according to the invention Storage better use of space can have higher load ratings and a longer life without other disadvantages, such as a lower maximum permissible travel speed can be achieved.

The bearing according to the invention provides, provided a housing made of plastic is used, the possibility of electrical insulation and is also anti-magnetic when using balls and a support sleeve made of plastic, glass or ceramic. In the case of a complete art Due to its self-lubricating properties, the fabric is basically also Lubricant-free operation possible.

The invention is only for bearings with balls Rolling elements have been described. But it is also the manufacture Inventive bearing possible, the other rolling elements, for example Cylindrical rollers included.

Reference list

1

Support body housing

2nd

Housing part

3rd

Housing part

4th

Dividing plane

5

Axis of motion

6

loaded row of balls

7

Boardwalk

8th

Support sleeve

9

outer surface

10th

Location hole

11

The End

12th

Ball deflection bend

13

unloaded row of balls

14

drilling

15

Centering

16

screw

17th

Support ring

18th

Support ring

19th

Housing part

20th

Housing part

21

Support body housing

22

Guide rail

23

Neckline

24th

Support sleeve

25th

Support body housing

26

Housing part

27

Recess

28

Recess

Claims (10)

1.Ball bearings for longitudinal movements with the circumference of a guide rail distributed in a support body housing, circulate endlessly around the balls, which are supported in loaded rows of balls in the bore of a support sleeve arranged in the support body and are returned in unloaded rows of balls over the outer surface of the support sleeve, whereby a loaded row of balls and an unloaded row of balls are connected at their ends via ball deflection arches and a guide bar is arranged between two adjacent rows of loaded balls, characterized in that the supporting body ( 1 , 21 , 25 ) with the guide bars ( 7 ) along one Parting plane ( 4 ) inclined to the axis of movement ( 5 ) of the support body is divided into two one-piece housing parts ( 2 , 3 ; 19 , 20 ; 26 ). 2. Ball bearing according to claim 1, characterized in that the parting plane ( 4 ) as a plane of symmetry of two symmetrical housing parts ( 2 , 3 ; 19 , 20 ) is arranged in the middle of the axial housing length. 3. Ball bearing according to claim 1 or 2, characterized in that the guide rail ( 22 ) has a circular cylindrical shape. 4. Ball bearing according to one of claims 1 to 3, characterized in that the guide rail ( 22 ) in the region of the support body housing ( 1 ) is surrounded on its entire circumference by the two housing parts ( 2 , 3 ). 5. Ball bearing according to claim 1, characterized in that the Füh guide rail ( 22 ) in the region of the supporting body housing ( 21 , 25 ) on a part of its circumference from the two each have a sector-shaped section ( 23 ) having housing parts ( 19 , 20 ; 26 ) is surrounded. 6. Ball bearing according to one of the preceding claims, characterized in that the two housing parts ( 19 , 20 ; 26 ) in the region of their parting plane ( 4 ) have front-side recesses ( 27 , 28 ) into which a support ring ( 24 ) surrounding the support ring ( 18 ) is inserted appropriately. 7. Ball bearing according to one of the preceding claims, characterized in that the two housing parts ( 2 , 3 ; 19 , 20 ; 26 ) in the region of their parting plane ( 4 ) from the end faces, to the movement axis ( 5 ) parallel centering pin and holes (14), wherein in each case a centering pin of the one housing part (2, 3; 19, 20; 26) is inserted in an aligned bore (14) of the other housing part (26 2, 3; 19; 20). 8. Ball bearing according to one of the preceding claims, characterized in that the two aligned receiving bores ( 10 ) of the hous seteile ( 2 , 3 ; 19 , 20 ; 26 ) for receiving the support sleeve ( 8 , 24 ) in the region of the parting plane ( 4th ) have a smaller diameter than the rest of the housing length. 9. Ball bearing according to one of the preceding claims, characterized in that the two housing parts ( 2 , 3 ; 19 , 20 ) are made of a polymeric material. 10. Ball bearing according to one of the preceding claims, characterized in that the two housing parts ( 26 ) are made of a light metal material.