DE4034796A1 - Mounting device for cylinder pairs for processing paper film, etc. - in which each outer bearing is located in auxiliary housing and subjected to forces facing away from contact line of cylinders - Google Patents

Abstract

A device is for mounting a pair of cylinders, in particular cylinders for the processing of sheets or webs consisting of paper, fabric, film,. plastics or metal. The two cylinders work together and each contains the journal pin of two bearings. The inner bearings are located in the frame of the device while each outer bearing is located in an auxiliary housing and is mounted in such a way it can be subjected to forces facing away from the contact line of the cylinders. The forces are brought about by at least one spring with an even and strong force development across its spring elongation. The spring is at least partially incorporated into an auxiliary housing accommodating the loaded bearing. At least one device is provided for altering the force developed through the spring during the operation of the cylinders.

Description

The proposed facility relates to storage of a pair of cylinders, especially for cylinders for Processing of sheets, webs, fabrics, foils Plastics or metals or the like. Substrates, with de cylinders work together and each of the at the cylinder contains two bearings per journal, one of which the respective inner stored in the frame of the device and the respective outer bearing in an auxiliary housing and with Help from the line of contact between the two cylinders skilled and adjustable forces is resilient.

Facilities of this type are used, for example uses z. B. made of paper or plastic film or other such materials prior to processing to undergo gear. This consists, for example, in Cross perforation, cross cutting, embossing, printing, punching or calendering the web-like material. Is next to it however, any other editing of web-like or arch-like Substrates possible. It happens during the machining operations often insists that the processing cylinder involved of a certain mutual situation or a certain one Location in relation to the subject of processing during the Comply with the company. The accuracy with which this one hold must be done in fractions of a mil limeters exist. For example, they bend into speech stationary cylinders often during the machining process in an undesirable manner, so that the editing of the substrate in question over the length of the cylinder seen in some cases not necessarily even have to be. How great is the accuracy of the machining tion process must be adhered to, will for example, illuminated by DE-AS 11 73 784, from the shows that, for example, in the manufacture of Labels only the paper that will produce the later labels  layer as well as the underlying adhesive layer ten, while a for example as a carrier material serving silicone film is usually not cut, so that the undamaged silicone film as a carrier of the still your sticky adhesive labels can be used. It can thus be seen that the bearings of the cylinders, who used to process the sheet material which is particularly interesting. One of the storage options speed was due, for example, to DE-OS 27 50 530 known. The device described here contains one two cylinders existing pair of cylinders, the Zy linder cooperate with each other in such a way that shape cut can be punched out. Each of the two cylinders has two cylinder journals each, on each of which in turn two bearings are arranged. The inside of the two each Zy linder provided bearings, d. H. the one that too the respective cylinder is arranged in the Ge put a processing machine stored while the ever because the outer of the two camps by forces exerted by the loading contact point of the two cylinders are directed away, be is burdened. However, the device described allows it not the distances between the two processing cylinders to change others or even to adjust to each other or even to detach one of the two cylinders from the other. Egg A so-called shut-off movement of the cylinders is however required Lich to turn the machining process on or possibly off to be able to put or end. On the other hand, it is required to insert the two cylinders to each other in this way put that between the two cylinders ongoing web-like material to be processed cylinders can be exposed so that the machining tion process on or also during operation can be put. In this way it is not possible operate the known device conveniently to be able to. Another facility was on the present  technical area due to DE-OS 38 08 143 be knows. With this facility, however, the inner bearing is of the two bearings each arranged on a cylinder exposed to a loading device so that others Effects of the load device on the work and operation of the two cylinders involved. Another device is based on DE-OS 38 08 142 previously known, with two bearings per cylinder journal Housing load devices such as pressure middle cylinders are exposed. The La described here However, a suitable control device is required the effort that is being driven with this facility that must, enlarged. The CH-PS 4 47 993 was next to it a facility known that also two camps per Zy includes linderzappen a pair of cylinders, but in the the outer bearing is mounted eccentrically, and the inner bearing of a load caused by springs is exposed. However, there are different ratios here nisse in the bending of the cylinder and in the way counteracting the bending forces.

It is therefore the task of the known devices in this way to further develop that a robust and inexpensive Setup with ease of use results. This task is solved individually or in any combination at least one spring producing the forces with over their travel as evenly as possible and as high as possible Power delivery, at least partial installation of the spring in an auxiliary housing receiving the load bearing and egg ne device for changing the developed by the spring force during the operation of the cylinders. Another one Details result from the further proposed proposals sayings. Due to the proposed solution it is possible Lich, the cost of the proposed facility is relative  to keep low. This comes from the Ver using standard parts. Next to it is the Furnishing sturdy, for example through use mechanical components is promoted, although mechanical Components at least partly also by fluidic components can be replaced. In addition, the facility easy to put on, take off and adjust, which makes the operation ver is simplified and accelerated. Finally, the forces acting on the cylinders during operation of the Setup also quick, depending on the operator's request adjust or readjust so that it is not necessary, for example would stop the entire machine to get a rela tiv small part or small component of an otherwise we considerably larger machine. In this way a corresponding loss in production of the ge Avoid the entire machine from the outset. Other features and advantages result from the following description of an embodiment. The individual characteristics can individually for themselves or for several combinations tion with the help of specialist knowledge for further training be implemented forms of the invention. Based one shown schematically in the attached figures, embodiment which does not limit the inventive concept The proposed solution will now be explained in more detail tert. The embodiment can also in various which are modified without the basic idea to leave the staked out frame. In the figures are in present connection not essential to the expert well-known machine parts because of an overview not shown. The figures rather show only those parts that are for the closer Explanation of the proposed solution and its advantages required are.

The individual figures mean:  

Fig. 1 a schematic side view,

Fig. 2 view II in Fig. 3,

Fig. 3 section III / III in Fig. 2.

A web 1 made of paper, foil, fabric, plastic, metal or a similar substrate or also such a sheet runs between two cylinders 2 and 3 , whereby he / she is processed on this occasion. The machining process can be, for example, that the web 1 or the sheet are printed. In this case, one of the two cylinders would have to be such a cylinder which is capable of applying a printing pattern to the web 1 and the other cylinder which is capable of absorbing the forces or counterforces occurring in the process. However, the cylinders can also be, for example, sol-type cylinders which can be used for longitudinal and transverse cutting, longitudinal or transverse perforation, embossing or punching. Any other cylinder with which the web or the sheet can be processed is also possible, but this presupposes that the two cylinders are designed or equipped in accordance with the respective previous processing operation. So that the forces acting on the cylinders involved can be absorbed during the machining process, each cylinder is provided with cylinder lugs. The cylinder pins are attached to each end of the respective cylinder. Since the bearing of the pins on both end faces of the respective cylinder is essentially analog - the cylinder pins can possibly be extended beyond the bearing to the outside, ie facing away from the cylinder itself, in order to accommodate gears or the like for driving the two cylinders, if this should be necessary - to understand the struck device only the storage on one end face 4 or 5 of the cylinders 2 and 3 involved to be described ben. The cylinder 2 is provided with at least one pin 6 and the cylinder 3 with at least one pin 7 . The pin 6 is mounted with the aid of a bearing 8 and the pin 7 with the aid of a bearing 9 in a frame 10 of the rest of the machine. The frame 10 can either be the frame of the rest of the machine itself or also a base or subframe that can be inserted into the rest of the main frame. An eccentric bushing 11 is inserted between the bearing 9 and the frame 10 . The eccentric bushing 11 can be rotated or pivoted, for example, with the aid of a lever 12 within the bore 13 receiving it in the frame 10 . In this way, the distance 14 located between the cylinders 2 and 3 can be adjusted or adjusted. The eccentric bushing 11 can, for example, also be rotated by a motor, for. B. by means of a remote control, which can be seen ver with a certain program. In addition, it is possible to turn the lever 12 and thus the eccentric bushing 11 to such an extent that the distance 14 becomes so large that the web to be machined can pass between the cylinders 2 and 3 without the machining process commencing. This is referred to in the technical world as "the parking" of the cylinders. Another bearing 15 is located on the journal 6 of the cylinder 2 in addition to the bearing 8 . In relation to the cylinder of FIG. 2, this is the outer bearing, whereas the bearing 8 is the so-called inner bearing, since it is closer to the cylinder 2 , ie its end face 4 , than the bearing 15 . In a corresponding manner, a further bearing 16 is attached to the pin 7 of the cylinder 3 next to the bearing 9 , which is further removed in an analogous manner from the end face 5 of the cylinder 3 , that is to say seen from the cylinder 3 further outside than that on the same pin 7 located bearings 9 . The bearing 15 is mounted in an auxiliary housing 17 and the bearing 16 in an auxiliary housing 18 . The auxiliary housing 17 and 18 are inserted into a corresponding recess 19 of the Gestel les 10 , for example inserted into a pocket-like recess from above. In the 17 under auxiliary housing at least one pin 20 is inserted, the diameter of which is large enough to correspond to the inner diameter of Tel lerfedern 21 . In the upper auxiliary housing 18 at least one bore 22 is incorporated, the diameter of which is large enough to accommodate the outer diameter of the spring springs 21 . At least one plate spring is provided here, however, preferably several plate springs can be assembled into packages, depending on your choice. In this way, in the auxiliary housings 17 and 18 , in particular in the auxiliary housing 18 , at least one of the springs in question or the springs in question, taking and incorporated into the auxiliary housing 18, a housing for the spring or springs 21 was formed. The upper end of the bore 22 in FIG. 2 is provided with a thread into which its screw or a bolt 23 is screwed. This bolt is threaded for this purpose. In addition, the bolt has a second pin 24 , which facilitates the guiding of the plate springs 21 inserted into the bore 22 , in particular those disc springs which come to lie particularly high up in the bore 22 in FIG. 2. In a corresponding and symmetrical manner to the respective pin, a second threaded bolt 25 or a screw is screwed into the housing 18 , so that symmetrical spring forces arise for the cylinder pin, which tend to pin 6 and 7 of the cylinders 2 and 3 to push apart, ie to push away from each other. These forces act away from the line of contact against which the cylinders 2 and 3 lie against one another in the engaged state and which is symbolized by the distance 14 . The forces are therefore turned away from the line of contact. Characterized in that at least the cylinder 3 is mounted in at least one eccentric bushing 11 and also because the screws or bolts 23 and 25 are screwed more or less deeply into the auxiliary housing 18 , the forces with which the cylinders 2 and 3 Interact with each other during operation of the facility, adjust. The fact that the bolts 23 and 25 are screwed from above into the auxiliary housing 18 and in that they are both seen, for example, with hexagon sockets 26 and 27 and the bolts 23 and 25 protrude a bit upwards from the auxiliary housing 18 , the Attack points at which the bolts 23 and 25 can be rotated, outside of the working area of the cylinder 3 and also of the cylinder 2 . Thus, it is possible to use appropriate wrenches in the hexagon socket 26 and 27, for example, and to rotate the bolts 23 and 25 even during operation, ie during the rotation of the cylinders 2 and 3 . In addition, it is also possible to turn the bolts 23 and 25, for example with the aid of suitable servomotors, also during the operation of the machine and to initiate the rotary movement from a control panel according to a desired program, if necessary. By twisting the bolts 23 and 25 , the forces that spring the plates 21 and the similar spring forces on the bolt 25 we exert spring forces on the housings 17 and 18 , accordingly, according to the desires of operation according to a program or, for example, depending the running speed of the machine can be adjusted. Correspondingly, the forces acting on the pins 6 and 7 of the cylinders 2 and 3 and the forces also acting on the cylinders 2 and 3 also change, which leads to a corresponding correction of the bending line which these cylinders assume during the working process. The same applies to the adjustment and adjustability of the eccentric bushes. The lever 12 is arranged on the inner side 28 of the frame 10 , that is to say on that side of the frame which is assigned to the cylinders 2 and 3 . Access to the auxiliary housings 17 and 18 and to the bolts 23 and 25 from the outside, in particular from above, is thus conveniently ensured. Belleville washers, such as the Belleville washer 21 , are known for being individually or in packs that are appropriately put together to produce forces that are largely selectable via the deformation path of the spring, the so-called spring travel. Disc springs develop relatively high forces. The plate springs 21 are at least partially received through the bore 22 , but are supported against the auxiliary housing 17 . What has been described above with regard to the bolt 23 and its mounting or the associated arrangement of at least one plate spring applies analogously with regard to the second bolt 25 , which is shown in FIG. 2 in view. Since the cylinder 2 and 3 each provided weils derzapfen at its two end faces, each with a Zylin, the cylinder 3 is explained in more detail end of the cylinder applies to the in Fig. 3 does not expressly illustrated end 2 and 3 The same as for the in Fig. , its cones and its storage. Instead of at least one plate spring or a package of plate springs per pin of the cylinder involved, other springs, for example coil springs, fluidic or pressure-using springs can also be used, provided they have similar and / or appropriate properties. A spring with the greatest possible selectability and high power delivery is required in the present context, in order to produce approximately evenly strong forces, which are high enough for loading or bending cylinder pins and thus the cylinder itself. If necessary, the distance 14 , which is required for the processing of the web 1 , must also be changed. This can e.g. B. may be required if different Lich thick or elastic webs 1 are to be processed or if different tools must be attached to at least one of the cylinders 2 or 3 for processing the web. Since each cylinder has two end faces, one eccentric bushing can be assigned to each cylinder side. Depending on the respective program or the choice of the operator of the machine, the eccentric bushes assigned to the same cylinder can either be rotated or pivoted by the same amounts or by different amounts during the operation of the machine. It is also possible to store all the pins of all the cylinders involved in the frame of the facility with the aid of pivotable eccentrics.

Parts list

1 lane
2 cylinders
3 cylinders
4 end face
5 end face
6 cones
7 cones
8 bearings
9 bearings
10 frames
11 eccentric bushing
12 levers
13 hole
14 distance
15 bearings
16 bearings
17 auxiliary housing
18 auxiliary housing
19 recess
20 cones
21 disc spring
22 hole
23 bolts
24 second pin
25 second bolt
26 hexagon socket
27 hexagon socket
28 inside

Claims (10)

1. Device for storing a pair of cylinders, in particular for cylinders for processing sheets or sheets ( 1 ) made of paper, tissue, foil, plastics, metals or the like. Wherein both cylinders ( 2 , 3 ) work together and each other two cylinders ( 2 , 3 ) each bearing journal ( 6 , 7 ) contains two bearings ( 8 , 15 , 9 , 16 ), of which the inner ( 8 , 9 ) is mounted in the frame ( 10 ) of the device and the outer Bearing ( 15 , 16 ) in an auxiliary housing ( 17 , 18 ) and with the help of the contact line ( 14 ) of the two cylinders ( 2 , 3 ) facing away and adjustable forces resiliently supported, characterized by at least one spring ( 21 ) producing the forces uniform as possible over their travel and the highest possible power delivery, at least partial installation of the spring (21) in a the loaded bearings (15, 16) Transd Mendes auxiliary housing (17, 18) and at least a one direction (23, 25) for locking change developed by the spring (21) force during operation of the cylinder (2, 3). 2. Device according to claim 1, characterized in that on a respective cylinder pin ( 6 , 7 ) each internally arranged bearing ( 8 , 9 ) with the interposition of an eccentric ( 11 ) is mounted in the frame ( 10 ) of the machine. 3. Device according to claims 1 and 2, characterized in that the eccentric ( 11 ) is rotatable from the inside of the frame ( 10 ) of the machine. 4. Device according to claim 1, characterized in that the spring ( 21 ) consists of at least one plate spring. 5. Device according to claims 1 and 4, characterized in that at least one auxiliary housing ( 17 , 18 ) for at least partially receiving and guiding the spring ( 21 ) is formed. 6. Device according to claims 1, 4 and 5, characterized by at least one in an auxiliary housing ( 17 , 18 ) worked on the spring acting screw ( 23 , 25 ). 7. Device according to claims 1 and 4 to 6, characterized in that the screw ( 23 , 25 ) can be operated from outside the machine and from above. 8. Device according to claims 1 and 4 to 8, characterized in that at least one screw ( 23 , 25 ) is provided with a pin ( 24 ). 9. Device according to claims 1 and 4 to 9, characterized by at least one pin ( 20 ) at least at least one receiving point for the spring in at least one auxiliary housing ( 17 , 18 ). 10. Device according to claims 1 and 4 to 9, characterized by the readjustability of the spring ( 21 ) and / or the storage of at least one cylinder during operation of the device.