DE4008897C2 - - Google Patents

Description

The invention relates to a sliding ring bearing according to the Preamble of claim 1.

One of these is from the Schlumpf AG company brochure: "Modular components for winding paper and foils, Schlump-Klapplager-System ", March 1978, is known. There the winding rod pin has a square one Shape. The shaft that receives the winding rod journal has a recess for this, with each of the three Side surfaces of this recess each arranged a segment is. Thus, three of the three segments Surfaces of the winding rod pin are positively accommodated. The remaining fourth surface of the winding bar pin is positively mounted on a form-fitting piece which is arranged on a sliding ring and that together with this into an "open" - and "closed" - Position can be brought. A handwheel is a manual one Displacement in the radial direction of at least one complete sliding ring bearing possible. The winding rod pin, which is designed as a square, does not allow it to be too large radial angular rotations of the flat shaft end in the recess the receiving shaft and in the sliding ring. Rather, a complete must Sliding ring bearing can be adjusted radially to adjust the winding shaft radially to ensure d. that is, there is a small tolerance between the winding bar pin and Recess in front, so as to allow a small radial rotation of the two parts mentioned.

For the necessary secure axial hold of the winding rod pin is in the sliding ring bearing known arrangement in the segments of the recording each a recess is provided in the one on the respective surface of the Spool element arranged ball element when inserting of the winding rod pin engages.

From US 31 47 985 is also a sliding ring bearing known. This is used for storage on both sides  a winding bar. Each of these sliding ring bearings a wave into which one ends at the end Recess is incorporated, and this recess through closed a sliding, two-part sliding ring and can be opened. Limit attacks both the opening and the closing movement.

The winding rod pin has a square cross section on and becomes form-fitting in the recess inserted.

This form fit (in the closed position) between en four surfaces of the winding rod pin and the Sliding ring bearing is made up of two segments in the Recess are each offset by 90 ° and by two arranged on the sliding ring also offset by 90 ° Form-fitting pieces reached.

From DE-GM 19 12 470 is a bearing for a tape roll known. There is a spherical bearing body in a two-part, double-conical bearing housing a recording. This is a radial displacement option given in principle. The double-conical bearing body has a hexagonal according to one embodiment Outline of itself in a corresponding recess of a warehouse block. Now the middle of the cone and therefore also the spherical bearing body of the tape roll eccentric in the double-conical hexagonal bearing housing are arranged by rotating the hexagonal bearing housing and the following Attachment to the recesses in the bearing block the most varied discrete radial shifts as well as height shifts to reach. A straight line and / or one appropriate troughing of conveyor belts is in easy to correct or ensure.

DE 26 54 877 A1 describes a universal joint for coaxially working tools with a torque load shearable bolts and nuts against each other be tightened. Here, a shaft journal has a hexagonal cross section circular in longitudinal section on. This shaft journal is in a recess  with correspondingly shaped surfaces added.

Finally, US 32 46 858 shows a sliding ring bearing to close the recess in the shaft, in which one with a form-fitting piece provided sliding ring in the closed position square winding rod pin form-fitting. The movement of the sliding ring from the open is in the closed position by a locking mechanism causes on the movement of the winding rod appeals. The sliding ring is in the open position with a ledge at the base of one Shooting curve attached to a bearing block is. When the winding rod rotates, it now slides Heading along the shooting curve and thereby moving the sliding ring bearing and the arranged on this Form-fitting piece in the closed position (closed position).

The invention is therefore based on the object To further develop the sliding ring bearing of the type mentioned at the beginning, that the smoothness of the winding rod improves becomes.  

This task is characterized by the characteristic features in the Claim 1 solved.

Advantageous embodiments of the invention are in the sub claims marked.

The invention is described below with reference to the drawing illustrated embodiments explained.

Show it

Fig. 1 Overview of a winding rod with double-sided sliding ring storage,

Fig. 2 winding rod so operational radially disguised sliding ring bearing,

Fig. 3 components of the sliding ring bearing,

Fig. 4 view circuit piece on the sliding ring with attached form

Fig. 5 input / output shaft having a plurality of stepped portions,

Fig. 6 View of the third area 3.2 . the shaft for receiving the winding rod pin,

Fig. 7 winding rod with winding rod pin and winding bars approach

Fig. 8 a front view of the winding rod pin to be transmitted contour points,

Fig. 9 with the winding rod pin according to view I (Fig. 8) visible contour points,

Fig. 10 winding rod pin with view according to II (Fig. 8) visible contour points,

Fig. 11 Third area of the shaft with sliding ring in the open position, seen from above,

Fig third region of the shaft in a front view with segments disposed therein, a segment in a transverse view shown. 12,

Fig. 13 end view of sliding ring in a closed state with inserted winding rod pin, with positive engagement piece,

Fig. 14 longitudinal view of sliding ring in a closed state with inserted winding rod pin, without positive engagement piece,

Fig. 15 sliding ring with positive locking piece (front view),

Fig. 16 sliding ring with positive locking piece in partial longitudinal section,

Fig. 17 form locking piece in different views,

Fig. 18 case, in partial cross-section and end view,

Fig. 19 bearing cover, partial cross-sectional and end view,

Fig. 20 bearing cover with extension sleeve and closing cam for closing mechanism,

Fig. 21 casing sleeves Fig. 22 stop part for the sliding ring.

Winding bars are used for winding or unwinding in webs produced products, such as B. paper, cardboard, textiles Foils and sheets.

Fig. 1 shows a winding rod 18 which is on both sides in each case received in a sliding ring storage 50 and stored. The central axis 51 of the sliding ring bearing 50 and the central axis 52 of the winding rod 18 can, if no radial adjustment has been made, coincide ( Fig. 1) or, due to the operation, to tighten the material web to be wound up or down at its two edges equally tight keep deviating from each other ( Fig. 2.).

In the latter case, one of the two sliding ring positions 50 is moved in the radial direction (see arrow in FIG. 2). The winding rod 18 assumes the position shown in FIG. 2.

The shaft, which is located in the sliding ring bearing 50 , has several stepped areas. A first area 3.0 of the shaft is used to connect the input and output devices (e.g. motor or brake) and also to accommodate bearings 10.1 , 10.2 .

The bearing 10.1 is fixed in the axial direction at the transition from the first region 3.0 to the second region 3.1 of the shaft, which is larger in diameter than the first region 3.0 of the shaft. The second area 3.1 is followed by a third area 3.2 of the shaft which is again larger or the same in diameter. In this third area 3.2 of the shaft there is a recess 60 in which a winding rod pin 16 is accommodated and which is fixed there by means of a sliding ring 1 which can be displaced over the third area 3.2 of the shaft ( FIGS. 3-6).

The sliding ring bearing 50 contains a bearing housing 4 with a mounting plate 5 , which is closed with bearing covers 6 , 7 and in which the bearings 10.1 , 10.2 are received and kept at a distance by means of a spacer sleeve, not shown. The sliding ring 1 , which consists of a bronze material, spheroidal cast iron or Mehanite and which is displaceably arranged via the third region 3.2 of the shaft, serves, as already indicated, for fixing the winding rod pin 16 in the shaft of the sliding ring bearing 50 . On the bearing cover 7 and the sliding ring 1 to cover the second and third areas 3.1 , 3.2 of the shaft and a locking mechanism for the sliding ring 1 to be described, telescopic cover sleeves 8 , 9 ( FIG. 21) are fastened by means of screws.

Fig. 4 shows in end view the sliding ring 1 having arranged thereon form-fitting piece 2. The third region 3.2 of the shaft with the recess 60 is shown in FIG. 6. The winding rod 18 has a winding rod set 17 with the same diameter or a smaller diameter at its two ends. The winding rod journals 16 according to the invention are arranged at the free ends of the winding rod attachments 17 ( FIG. 7).

This winding rod pin 16 , as shown in FIG. 8, shows an end view, has a hexagonal cross section. A longitudinal section through the winding rod journal 16 shows that individual ne surfaces 16.1 of the winding rod journal 16 each have a partially cylindrical shape ( Fig. 9, 10).

The winding rod journal 16 , which is hexagonal in cross section, thus has six identical, partially cylindrical surfaces 16.1 .

8-10 contour points were to illustrate the shape of the winding rod pin 16 in Figs. 10-14 or lines, located on the surface 20-24, each of which some at the views I, II (Fig. 9, 10) for are visible to the viewer. As already indicated, the winding rod pin 16 is received in the recess 60 in the third region 3.2 of the shaft. For this purpose, four segments 19 are each offset by 60 ° in this recess 60 ( FIG. 12). The four segments 19 include four of the six partially cylindrical surfaces 16.1 of the winding rod pin 16 .

The remaining two surfaces 16.1 of the winding rod pin 16 are touched by the form-fitting piece 2 arranged in the sliding ring 1 . The winding rod pin 16 is thereby firmly taken up in the recess 60 and thus in the sliding ring bearing 50 .

A possible wear of the form-fitting piece 2 by the at least punctiform contact of surfaces 2.1, 2.2 of the form-fitting piece 2 on the case-hardened surfaces 16.1 of the winding rod journal 16 can be minimized by a suitable choice of material. A front view of the sliding ring 1 with the inserted winding rod journal 16 shows the meshing of the partially cylindrical surfaces 16.1 of the winding rod journal 16 , on the one hand with the four segments 19 , which are in the third region 3.2 of the shaft in the recess 60 , and on the other hand with the surfaces 2.1, 2.2 the form fitting 2 .

A view of the shaft with the three areas 3.0 , 3.1 , 3.2 and with the sliding ring 1 (shown in broken lines) in the position in which the recess 60 in the third area 3.2 of the shaft is open and thus the view of the segments 19 is released , shows Fig. 11.

The form-fitting piece 2 is arranged on the sliding ring 1 in a corresponding exception provided thereon and fastened with a screw, not shown. This is inserted into an opening 101 in the sliding ring 1 ( Fig. 15, 16).

The form-fitting piece 2 also has a stop 2.3 projecting in the radial direction, with which the form-fitting piece 2 bears laterally in the axial direction on the sliding ring 1 ( FIG. 16).

On a projection 2.4 , which is located on the end face of the form-fitting 2 , by means of a fastening screw 2.5 which engages in a thread 2.6 , a ball bearing 2.7 is inserted, which has a spherical surface provided with a race ( Fig. 17).

The fixedly arranged on the sliding ring 1 form-fitting piece 2 with the projection 2.4 and the ball bearing 2.7, together with a closing curve 7.2 which is a formed in an extension sleeve 7.1 on the side facing the winding rod 18 bearing cover 7, an embodiment of the aforementioned locking mechanism (see Fig. . 3, 20).

When changing the winding rod 18 , this is first brought into a position in which the sleeves on the bearing cover 7 , the two telescopically sliding casing sleeves 8 , 9 and the sliding ring 1 are aligned marks. In this position, the two sliding rings 1 were then pushed back, so that the recess 60 in the third region 3.2 of the shaft and the winding journal 16 therein is exposed.

In this position of the sliding ring 1 there is the form-fitting piece 2 arranged thereon with the second part located thereon as a closing mechanism (projection 2.4 , ball bearing 2.7 ) at the base point 7.3 of the closing curve 7.2 (first part of the closing mechanism). The winding rod 19 can then be removed from the sliding ring bearings 50 and replaced with another one.

After inserting another winding rod 18 , the sliding ring 1 is closed again in order to positively mount the winding rod pins 16 in the recess 60 in the third region 3.2 of the shaft. This is done by the locking mechanism. Since the first part of the locking mechanism, which is arranged on the extension sleeve 7.1 of the bearing cover 7 , is thus fixed, the second part of the locking mechanism (projection 2.4 ) in a groove 3.21 , which is located in the third region 3.2 of the shaft, is slidably mounted , With a rotation of the winding rod 18 of the sliding ring 1 is moved by the sliding in the groove 3.21 projection 2.4 of the form-fitting piece 2 . The ball bearing 2.7 moving along the closing curve 7.2 of the second part of the closing mechanism accelerates the form-locking piece 2 and the sliding ring 1 attached to it in the "closed" direction when the winding rod rotates.

The winding rod pin 16 is thereby positively received in the sliding ring bearing 50 when the sliding ring 1 is closed. A stop 3.25 ( FIG. 22) attached to the end of the third region 3.2 of the shaft serves as an axial limitation for the sliding ring 1 in the “closed” position. In this closed position, there is a small distance between the ball bearing 2.7 of the form-fitting piece 2 and the extension sleeve 7.1 of the bearing cover 7 , so that the two parts of the closing mechanism are not subject to wear during normal winding operation.

By the hexagonal cross-section rod 16 with its six part-cylindrical surfaces 16.1 , which in the four segments 19 , which are adapted to the surfaces 16.1 of the winding rod 16 , and the two surfaces 2.1, 2.2 of the form-fitting piece 2 find a play-free receptacle is also a radial displacement of the sliding ring bearings 50 and the winding rod 18 possible in a predetermined range.

A play-free running of the winding rod pins 16 is therefore guaranteed even in this operating state.

To compensate for the lateral offset of not optimally wound material rolls and to keep the material web during the run on the machine center of the material roll downstream processing machines including cross cutter, embossing calender, an axially displaceable speed of the winding rod 18 is also necessary.

With the inventive winding rod pin 16 and the positive-locking receptacle in the sliding ring bearing 50, this is possible in that the slide ring bearings 50 and the fixing plate 5 is provided of the bearing housing 4 by a suitable guide (z. B. dovetail) and on one of the two slide ring bearings 50 a Verstellein direction is provided. Due to the form-fitting mounting of the winding rod journals 16 , the other of the two sliding ring bearings 50 follows the "axial" adjustment effected by the adjusting device.

The adjusting devices for the radial and axial displacement of the sliding ring bearings 50 can be actuated by the operator using appropriate handwheels or motor drives.

The control of the adjustment devices by signals numerical control (NC) is also possible.

The material for the winding rod pin 16 is hardened (surface hardened) steel, while for the segments 19 and for the surfaces 2.1 , 2.2 of the form-fitting piece 2 , which are either formed in one piece with the form-fitting piece 2 or which are designed as interchangeable individual elements are attached to the form-fitting piece 2 , non-ferrous metals (bronze), plastic or ceramic are used.

Claims (9)

1. Sliding ring bearing for bilateral storage of winding rod pins of a winding rod, whereby

• each of the sliding ring bearings has a shaft in which there is a recess at one end,
• - The recess is opened and closed by a sliding sliding ring,
• - In the recess provided with a shape adapted to this recess, several identical partial surfaces having winding rod pegs are inserted, which lie without play on the surfaces of the winding rod peg, and
• - At least one of the sliding ring bearings is radially displaceable with the winding rod, or the two sliding ring bearings perform a minimal rotary movement, wherein
• the winding rod journal has a square cross section, so that the winding rod journal has four equal surfaces,
• - In the recess, which is located in an area of the shaft, three segments are each offset by 90 °, are arranged for the positive reception of three surfaces of the winding rod journal and the segments each have a surface with which they can be used for the positive reception of the Lay the surfaces of the winding rod pin,
• a form-fitting piece is arranged on the displaceable sliding ring and has a surface which, in the position of the sliding ring in which the recess is closed (closed position), lies at least point-wise on the remaining surface of the winding rod pin,

characterized in that
the winding rod journal ( 16 ) has a hexagonal cross section and is circular in longitudinal section, so that the winding rod journal ( 16 ) has six identical part-cylindrical surfaces ( 16.1 ),

• - In the recess ( 60 ), four segments ( 19 ) each offset by 60 °, for the positive reception of four surfaces ( 16.1 ) of the winding rod pin ( 16 ) are arranged, and
• - On the displaceable sliding ring ( 1 ), the form-fitting piece ( 2 ) has two surfaces ( 2.1, 2.2 ) which, in the closed position, rest on the remaining two partially cylindrical surfaces ( 16.1 ) of the winding rod pin ( 16 ) at least in a punctiform manner.

2. sliding ring bearing according to claim 1, characterized in that the segments ( 19 ) and the surfaces ( 2.1, 2.2 ) of the form-fitting piece ( 2 ) are designed as interchangeable individual elements and consist of non-ferrous metal (bronze), plastic or ceramic. 3. sliding ring bearing according to claim 1 or 2, characterized in that the sliding ring ( 1 ) consists of bronze, cast iron or Mehanite. 4. sliding ring bearing according to one of claims 1 to 3, characterized in that for the movement of the sliding ring ( 1 ) from the open to the closed position on the rotation of the winding rod ( 18 ) responsive locking mechanism is available. 5. sliding ring bearing according to one of claims 1 to 4, characterized in

• - that the locking mechanism consists of two interacting parts,
• - A first part of the locking mechanism consists of a closing curve ( 7.2 ), which has a base ( 7.3 ), and is formed in an extension sleeve ( 7.1 ), which is provided on a bearing cover ( 7 ) directed towards the winding rod ( 18 ) ,
• - A second part of the locking mechanism is arranged on the form-locking piece ( 2 ) and from a projection ( 2.4 ) which engages in a groove ( 3.21 ) in the shaft of the sliding ring bearing 50 slidably, and with a through a fastening screw ( 2.5 ) on Projection ( 2.4 ) attached ball bearing ( 2.7 ),
• - In the open position of the sliding ring ( 1 ), the ball bearing ( 2.7 ) lies against the base point ( 7.3 ) of the closing curve ( 7.2 ),
• - With a rotation of the winding rod ( 18 ) then the ball bearing ( 2.7 ) on the closing curve ( 7.2 ) moves along and thereby the form-locking piece ( 2 ) with the sliding ring ( 1 ), to which it is attached, moves into the closed position .

6. sliding ring control according to one of claims 1 to 5, characterized in that on the sliding ring ( 1 ) and on the winding rod ( 18 ) facing bearing cover ( 7 ) each have a casing sleeve ( 8,9 ) is arranged, which are telescopically slidable and the cover the locking mechanism in all operating conditions, such as winding and unwinding the winding rod ( 18 ), and removing and inserting the winding rod ( 18 ). 7. sliding ring bearing according to one of claims 1 to 6, characterized in that a stop ( 3.25 ) is arranged to limit the displacement of the locking ring Ver ( 1 ) in the closed position on the end face of the shaft of the sliding ring bearing ( 50 ). 8. sliding ring bearing according to one of claims 1 to 7, characterized in that the control of the ver shifts in the radial direction the operators by hand or by a numeric Control takes place automatically.