DE10145321A1 - Bearing unit including rotating bearing has rotating bearing in bearing housing able to be displaced relative to mounting wall - Google Patents

Abstract

The bearing unit is for the opposite journals (5) of cylinders (2, 3). it permits a vertical setting adjustment of the cylinders perpendicular to their own rotation axes (2.1, 3.1). The journals are received via a rotating bearing (8) in a mounting wall (6, 7), where they can be inserted and removed. The central rotating bearing can be moved longitudinally relative to the mounting walls via a linear unit.

Description

Field of application of the invention

The invention relates to a bearing arrangement for opposite pins of Cylinders, rollers or drums with actuators, one Adjustment movement of the cylinders, rollers or drums perpendicular to them Enable axis of rotation, the pins on a rotary bearing of one Rack wall on and off are included.

Background of the Invention

Such bearing arrangements are used in the printing press industry for cylinders or drums applied, these bearings often as eccentric bearings are trained. Such a bearing designed as a three-ring roller bearing runs out DE 41 26 545 A1. The three-ring roller bearing described there exists from an inner connected to a pin of a blanket cylinder Bearing ring of the bottom bracket with an outer concentric to the journal Career is provided. The three-ring bearing also has a bearing housing an outer bearing ring of an outer bearing with one for drilling the bearing housing is provided concentric inner raceway. Between inner bearing ring and outer bearing ring is a the raceway for the inner one Bearing and the outer bearing, one-piece eccentric intermediate ring provided by lying outside the bearing housing Actuating means is pivotable in the circumferential direction.

For radial support are between that connected to the pin inner bearing ring and the eccentric intermediate ring on the one hand and between the outer bearing ring and the eccentric intermediate ring on the other Radial bearing rows provided in the form of cylindrical roller bearing rows, wherein in addition to a cylindrical roller bearing row at at least one axial end Axial bearing rows, e.g. B. rows of ball bearings or crossed roller thrust bearings inside Bearings or rows of ball bearings in the outer bearing for separate accommodation of axial forces are arranged.

Such eccentric bearings are always used in the printing industry if several printing cylinders are side by side with their lateral surfaces are arranged touching. Due to the adjustable eccentricity of the individual Storage, the cylinders can be turned on and off with each other the straightest possible connecting line between the cylinders is sought. The adjustment movement of the individual cylinders is perpendicular to the axis of rotation required if the printing process is started or stopped.

The disadvantage is that these eccentric bearings, especially with a large one Adjustment movement require a large radial space. The problem is exacerbated when small cylinders to the diameter Get involved. In extreme cases, this can lead to the eccentric principle is no longer applicable to the adjustment movement of the cylinder, since then the Bearing size than the cylinders to be adjusted should be.

Another disadvantage is that eccentric bearings are always only one Can perform adjustment movement on a curved path. The adjustment movement is made more difficult in this case if several cylinders side by side are arranged. One has tried to solve the problem by that Pin pair of each cylinder is mounted eccentrically. It is on the Hand that such a multiple eccentric bearing of individual components an overall storage arrangement is complicated, complex and therefore expensive.

Summary of the invention

The invention has for its object to the disadvantages described avoid and a bearing arrangement for the journals of cylinders, rollers or Provide drums that easily adjust their movement perpendicular to the axis of rotation.

According to the invention, this task is performed according to the characterizing part of Claim 1 solved in that a centrically formed rotary bearing of a bearing housing is received and the bearing housing via a Linear bearing unit can be moved in the longitudinal direction with respect to the frame wall is arranged.

The combination of rotary and linear bearings for the Pin bearing of cylinders, rollers or drums is easy whose adjustment movement perpendicular to their axis of rotation allows. The much Space-consuming use of eccentrically trained Rotary bearings are therefore unnecessary. This is particularly advantageous if in Diameter small cylinders, rollers or drums are used.

Advantageous developments of the invention are in the subclaims 2-9 wrote.

It is provided according to claim 2 that the linear unit as one Guide carriage and guide rail existing profile guide is formed, the carriage with the bearing housing and the Guide rail is connected to the frame wall.

According to a further additional embodiment variant according to claim 3 the profile rail guide as a roller circulation unit or as one Recirculating ball unit can be formed.

Such profile rail guides have at all travel speeds a low coefficient of friction, the course of friction even and the starting friction is small. They take forces from all directions and Moments around all axes. With them you can solve tasks in which high load capacity in the smallest space is important. But also high Speeds are a salient feature. such Profile rail guides are already well known to the person skilled in the art and therefore need one not to be explained in more detail here. Detailed information on Structure, construction and application of linear guideways are the INA publication LIF "linear guides, linear guideways, Track roller guides, shaft guides ", to which expressly at this point is referred.

According to another feature according to claim 4 it is provided that the Guide pins through the bearing housing and through the frame wall is, to limit the linear movement of the frame wall with a Slot is provided.

From claim 5 it appears that the bearing housing on two from each other spaced carriages is placed, two of which also spaced apart guide rails include one between them Limit the free space of the frame wall in which the elongated hole is arranged.

According to claim 6, the bearing housing for linear displacement with a be attached to the frame wall attached device.

According to another additional feature according to claim 7, the Rotary bearings can be designed as a loose or as a fixed bearing, it being in further embodiment of the invention according to claim 8 as a spherical, Cylindrical roller, spherical roller or tapered roller bearing is formed.

Finally, it is apparent from claim 9 that the pin to one in one Printing press arranged printing cylinder belong, at least with another cylinder in the printing press cooperates.

The invention is described in more detail using the following exemplary embodiment.

Brief description of the drawings

Show it:

Fig. 1 is a perspective view of four cylinders mounted in two spaced apart frame walls, and

Fig. 2 is an enlarged view of the invention shown in Fig. 1.

Detailed description of the drawings

The bearing arrangement shown in FIGS . 1 and 2 consists of the four cylinders 1 , 2 , 3 and 4 arranged side by side and rotatable about their axes 1.1 , 2.1 , 3.1 , 4.1 , the lateral surfaces of which touch, the cylinders mentioned being arranged in a printing press are. When starting or stopping the printing process, it is necessary that a size variable gap must be formed between the lateral surfaces of the individual cylinders 1 , 2 , 3 and 4 . The cylinders 1 , 2 , 3 and 4 are held by their only partially visible pins 5 in two spaced apart frame walls 6 and 7 , the bearing according to the invention relating to the cylinders 2 and 3 .

As shown in particular in the enlarged, partially cut-away view in the rotary bearing area in FIG. 2, the journals 5 of the cylinders 2 and 3 are accommodated on both sides by a rotary bearing 8 , which is designed as a double-row cylindrical roller bearing with the rolling elements 8.2 , the inner raceway of which Pin 5 itself and its outer raceway is formed by the bearing outer ring 8.1 . The outer bearing ring 8.1 is received by the plate-shaped two-part bearing housing 9 , the partial housings 9.1 and 9.2 of which form the parting plane 9.3 and receive the outer bearing ring 8.1 between them in a semicircular recess (not designated). It may be advantageous if the bearing housing 9 or its partial housing 9.1 and 9.2 are centered by a groove in the outer surface of the bearing outer ring 8.1 . The bearing housing 9 is connected via its partial housing 9.1 and 9.2 to the linear guide 11 .

The backlash-free profiled rail guide 11 consists of the carriage 11.1 , which in turn is composed of two carriage parts 11.1.1 and 11.1.2 arranged at a distance from one another. The guide 11 further includes the guide rail 11.2 , which is composed in an analogous manner from the two sub- rails 11.2.1 and 11.2.2 . The part rails 11.2.1 and 11.2.2 are fixed immovably on the two frame walls 6 and 7 .

As FIG. 2 further shows, the partial rails 11.2.1 and 11.2.2 on the frame walls 6 and 7 enclose between them a free space in which the elongated hole 12 is arranged. The stepped pins 5 of the two cylinders 2 and 3 are passed through these elongated holes 12 , so that they can be provided with a drive on one side. The Fig. 2 further shows that the bearing housing 9 is connected by means of fastening screws 14, each with a device 13 which is in turn mounted on the frame wall 6, 7 and the longitudinal displacement perpendicular to the axis of rotation 2.1 and 3.1 of the two cylinders 2 and 3 is used. This device can be designed, for example, as a pull and push rod which can be actuated pneumatically, hydraulically or electrically. The displacement of the two cylinders 2 and 3 is limited by a stop at the respective elongated hole 12 . To achieve a high degree of rigidity, the partial rails 11.2.1 and 11.2.2 are arranged opposite one another and lying in an axial alignment. However, an axially parallel offset of the partial rails 11.2.1 , 11.2.2 to one another is also conceivable if the installation conditions so require. It is also conceivable to omit one of the two partial rails 11.2.1 , 11.2.2 including the associated carriage part 11.1.1 , 11.1.2 .

In the present exemplary embodiment, the axis of movement of the profiled rail guide 11, according to the arrows attached in FIG. 1, is exactly 90 ° to the connecting line of the pressure cylinders 2 , 3 , ie vertically upwards or downwards. Depending on the requirements, other angular positions are also conceivable in order to be able to change the distances between the cylinders. Reference numeral 1 cylinder
1.1 axis of rotation
2 cylinders
2.1 axis of rotation
3 cylinders
3.1 axis of rotation
4 cylinders
4.1 axis of rotation
5 cones
6 frame wall
7 frame wall
8 rotary bearings
8.1 bearing outer ring
8.2 Rolling elements
9 bearing housing
9.1 Part housing
9.2 Part housing
9.3 dividing plane
10 fastening screw
11 Profile guidance
11.1 carriage
11.1.1 Carriage part
11.1.2 Carriage part
11.2 Guide rail
11.2.1 Section rail
11.2.2 Section rail
12 slot
13 device
14 fastening screw

Claims (9)

1. Bearing arrangement for opposite pins ( 5 ) of cylinders ( 2 , 3 ), rollers or drums with actuating means that allow an adjustment movement of the cylinders ( 2 , 3 ), rollers or drums perpendicular to their axis of rotation ( 2.1 , 3.1 ), the Pins ( 5 ) can be received and removed from a frame wall ( 6 , 7 ) via a rotary bearing, characterized in that a centrally formed rotary bearing ( 8 ) is received by a bearing housing ( 9 ) and the bearing housing ( 9 ) by a linear bearing unit is arranged displaceably in the longitudinal direction with respect to the frame wall ( 6 , 7 ). 2. Bearing arrangement according to claim 1, characterized in that the linear unit is designed as a guide rail ( 11.1 ) and guide rail ( 11.2 ) existing rail guide ( 11 ), the guide carriage ( 11.1 ) with the bearing housing ( 9 ) and the guide rail ( 11.2 ) is connected to the frame wall ( 6 , 7 ). 3. Bearing arrangement according to claim 2, characterized in that the profiled rail guide ( 11 ) is designed as a roller circulation unit or as a ball circulation unit. 4. Bearing arrangement according to claim 1, characterized in that the pin ( 5 ) through the bearing housing ( 9 ) and through the frame wall ( 6 , 7 ) is passed, the frame wall ( 6 , 7 ) with an elongated hole () to limit the linear movement ( 12 ) is provided. 5. Bearing arrangement according to claim 1, characterized in that the bearing housing ( 9 ) is placed on two spaced-apart guide carriages ( 11.1.1 , 11.1.2 ), to which two likewise spaced-apart guide rails ( 11.2.1 , 11.2.2 ) belong which between them delimit a free space of the frame wall ( 6 , 7 ) in which the elongated hole ( 12 ) is arranged. 6. Bearing arrangement according to claim 1, characterized in that the bearing housing ( 9 ) for linear displacement with a on the frame wall ( 6 , 7 ) attached device ( 13 ) is connected. 7. Bearing arrangement according to claim 1, characterized in that the rotary bearing ( 8 ) is designed as a loose or as a fixed bearing. 8. Bearing arrangement according to claim 1, characterized in that the rotary bearing ( 8 ) is designed as a ball, cylindrical roller, spherical roller or as a tapered roller bearing. 9. Bearing arrangement according to claim 1, characterized in that the pins ( 5 ) belong to a printing cylinder arranged in a printing press ( 2 , 3 ) which cooperates with at least one further cylinder ( 1 , 4 ) located in the printing press.