DE19506320C1 - Calender has automatic, cheap, sure, easily serviced greasing appts. - Google Patents

Abstract

A calender where the roller rest blocks are supported via levers on support blocks is adjustable along a slide guideway where the levers swivel in the support blocks during adjustment. Here, a pressure space (16), variable in vol. by virtue of the swivelling movement, lies between lever (4) and support block (5) or between rest block (3) and support block to act as the pressure device of a lubrication appts.. PREFERRED - Pref. the pressure space is in the form of a pressure cylinder (15) where its inlet is connected to a lubricant source (12), i.e. a lubricant pump via a non-return valve (13). The daily yield of the pump is limited to the daily requirement of lubrication points (22).

Description

The invention relates to a calender, the roll Bearing blocks are supported by levers in support blocks, which are slidable in a sliding guide, with the Swing the levers in the support blocks.

Such a calender is known from DE 43 14 670 A1 knows. The rollers are stored in bearing levers, which in turn are supported on supporting blocks. The height the support blocks are defined by stops that with Can be adjusted using a spindle.

To replace individual rollers, it is necessary to spread the rollers apart. For this, the whale zen by a arranged under the lowest roller Lifting device raised and above the upper An knock out the bearing lever on the support blocks. Here the lifting blocks are also lifted by. Then you can the stops are adjusted. When lowering the rollers, for example by releasing the pressure  The lifting blocks can then be removed from the lifting device slide down in the sliding guide, causing the necessary distance between the rollers results, so that there is space for handling the rollers.

The movement of the support blocks in the sliding guide is necessary lubrication of this sliding guide. A common one This type of lubrication is lubrication with grease. The Grease is created using a high pressure pump is usually driven by an electric motor, from a reservoir through lubrication grooves on the Brought sliding. Here is a relatively expensive cable routing required because of a variety must be supplied by lubrication points. It follows a large installation and assembly effort. Due to the large number of line connections and large cable lengths result in a multitude of possible leakage and blockage points. The maintenance is relatively expensive because it is monitored regularly must have enough lubricant to the individual Lubrication points reached. Difficulties also arise the correct dosage of the lubricant. If too we is dosed, there is a risk of a deficiency lubrication with a correspondingly faster Ver wear of poorly lubricated parts. Too much lubricated, the unnecessary lubricant is added pollution of the environment.

DD-PS 1 25 919 describes automatic lubrication for large tools in metal forming and cutting technology, at the one on a tool part one with several individually adjustable lubricant connections Lubricant pump is arranged with the lubricant make the sliding parts connected. Between the tool parts and the lubricant pump is a Transmission element for driving the lubricant pump intended.  

Die DE-Z Werkstattstechnik, 50th year, 1960, number 8, Sei ten 410 and 411 show a lubricating oiler, the hy actuated draulically, pneumatically or by tappet drive can be done. With each movement of a table a work machine are inserted into an oil container screwed pump elements the sliding guide surfaces of Lubricated machine tools. The delivery rate per stroke is adjustable on a knurled screw, which makes the amount of oil exactly the need for the individual lubrication adjust places.

The invention has for its object to simple Way to ensure lubrication of the sliding guide.

This task is at the beginning of a calender ge named type solved in that between lever and support block or Bearing block and support block on by the swivel movement Volume-changeable pressure chamber as a pressing device ner lubricating device is arranged.

Here one makes use of the knowledge that basically only requires lubrication Lich, if the support blocks in the sliding guide be should be moved. Lubrication of the slide guides achieved with a lubricant, such as grease the best result if it is immediately before the move is carried out. With a calender at the beginning mentioned type is before moving the support blocks, which ultimately leads to the rollers moving, one Relief of the stops is necessary which the position of the support blocks. This relief is through shifted the rollers. This Verla like the rollers, usually lifting, you do to use the volume in the course of this movement to change the pressure chamber, so to speak one Operate lubricant pump, and the required Amount of lubricant to the lubrication points  promote. The displacement of the rollers to relieve the Support blocks go directly to the movement of the support blocks ahead. The lubrication is done immediately before Moving the support blocks in the sliding guide. On this way it is just right for the lubrication Time chosen without additional control action needed. A lack of lubrication will result closed. On the other hand, you also avoid overdoing it sieren of the lubricant with the known disadvantage against pollution. The actuation of the Lubricant pump is done automatically by the Bewe supply of the roller or a jointly movable with it Part. With the forces necessary for the movement of the rollers are required, the additional raising plays Force component for actuating the lubricant pump practically no role. Also from the one to be applied Energy therefore proves to be a cheap solution. The pressure chamber is filled with the lubricant. If it shrinks as the roller moves, it will Lubricant displaced, i.e. to the lubrication points promoted. The reduction of a pressure room at egg ner roller movement can be realized relatively easily ren, for example by a bellows, the merged is pressed. When the rollers are raised, come the levers on the upper stop of the support blocks to the system. Now if you put the lubricant pump between the bearings block and arranges the support block, you can see the min change in the distance between the bearing block and the support block advantageously take advantage of the reduction in To effect volume of the pressure space. Here will at the same time ensure that the lubrication, i.e. H. the release of the lubricant immediately before loading movement of the support blocks in the sliding guide.

Another advantageous solution is when the pressure room is designed as a pressure cylinder. In this case, presses the roller or the drive part as it moves  Pressure cylinder together or a piston in the pressure cylinder into it so that the pressure chamber is reduced again is noted. In this way, the volume of the Determine pressure chamber reduction very precisely and dement speaking also the amount of lubricant released rela dive precisely.

The pressure chamber is preferably at its entrance via a check valve with a lubricant source in connection. In this way, at a verminde the volume of the pressure chamber the lubricant no longer displaced back to the source, but out finally towards the lubrication points. It follows thus a very effective lubrication without any noteworthy volumetric or energetic losses.

It is particularly preferred that the lubricant source is designed as a lubricator. Derarti Lubricators continuously supply lubricant tel. They are commercially available for various Services, d. H. different delivery quantities per time. By using a lubricator, the Do not vacuum the pressure chamber anymore. It is rather through filled the lubricator. This simplifies the Construction of the lubricant pump.

It is also preferred that the daily delivery amount of Lubricant essentially on the daily requirement is limited by lubrication points supplied by him. Due to the reduced amount of lubricant dispensed bers one accepts that the pressure room at Be movements that occur in shorter time intervals done, is not yet completely refilled. The lubricant delivered by the lubricant pump tel quantity is thus lower. This reduced lubrication however, the amount of medium in connection with the previous one is sufficient dispensed amount of lubricant to the necessary  Ensure lubrication because the lubricant, for example fat, its lubricity over one retains for a certain period of time. By the diminished Lubricant dispensing will overdosage casually excluded. If the lubricant is over periods other than a day its lubricity retains, the need can also be based on calculate and set their periods.

The pressure chamber is preferably over with its outlet a throttle connected to lubrication points. Hereby it is ensured that the lubricator only the Fills the pressure chamber, but not the lubricant through the Exit can emerge. This is due to the throttle prevented. Of course, the size of the throttle must be on the pressure generated by the lubricator. However, this pressure is much lower than through the lubricant pump generate pressure so that the Throttle for the desired lubrication, i.e. the passage the desired amount of lubricant, no noteworthy Represents an obstacle.

It is also preferred that the lubricant is in the pressure chamber is connected downstream. As a rule, the Supply lubricant pump to several lubrication points. The lubricant distributor provides an even Distribution of the lubricant safely.

It is also an advantage if the pressure chamber is above the Bearing block is arranged. Here you use the deed assuming that initially an upward movement of the whale zen is required to remove the support blocks from their Ge to relieve weight before lowering the support blocks the lubrication in the sliding guide is required power.  

At least everyone from the center rollers is advantageous Roller assigned at least one separate printing room. This increases the effort for the pumps. The pumps can NEN, however, are relatively simple, so that the increased pump effort must be accepted is when you're on complicated wiring can do without the disadvantages listed above especially with regard to installation and maintenance Has.

It is also advantageous that the pressure space on the support block is arranged and the lubrication points in the support block in the overlap area between the support block and Slideway are arranged. In this case, only lubricated the area where actually a touch tion between the support block and the sliding guide finds. It does not have to be the entire sliding guide be lubricated. However, there are no flexible lines required a lubricant transport from egg a stationary lubricant supply to a moving ensure the lubrication point. The structure of the This makes lubrication very easy.

The invention is preferred below on the basis of one th embodiment in connection with the drawing described. Show here:

Fig. 1 shows a section of a calender with a lubrication device and

Fig. 2 is an illustration corresponding to FIG. 1 with fourth lubrication device.

A calender 1 , which is only shown in part in the figures, has a plurality of rollers 2 , which are mounted in bearing blocks 3 . Each bearing block 3 is fixed by means of a lever 4 on a support block 5 pivoting bar which is displaceable down in turn in a slide 6 upwardly and wherein the slide guide 6 forms part of a stand, not shown.

The levers 4 are supported on the support blocks 5 via relief devices 7 . Otherwise, they are free between a lower stop 8 and an upper impact 9 on the support blocks 5th

In Fig. 1, an operating position of the calender 1 is shown, in which the rollers 2 abut each other and the levers 4 between the two stops 8 , 9 are free.

The position of the support blocks 5 is determined by schematically shown supports 10 , the position of which can in turn be adjusted with the aid of a screw spindle 11 . Such adjustment is necessary on the one hand to create the necessary handling space for replacing a roller. On the other hand, the necessity also arises from the fact that a roller 2 can also be replaced by a roller of a different diameter, for example when the new roller has already been turned off or a turned roller is exchanged for a new one.

In order to be able to adjust the position of the supports 10 , it is necessary to relieve the weight of the supports 10 so that the screw spindle 11 can rotate. For this purpose, the rollers 2 are raised, namely above the upper stop 9 on the support block 5 , so that the support block 5 is raised in the sliding guide 6 . This is shown schematically in FIG. 2. If the conditions 10 have been adjusted and the roll stack has been lowered, the rolls have the necessary greater distance from one another. The procedure itself is known. For example, reference is made to DE 43 14 670 A1.

Both the upward and downward movement of the support blocks 5 in the slide guide 6 is a pure slide movement, for which lubrication between the support blocks 5 and the slide guide 6 is required. To ensure this lubrication, a lubrication device is provided, which is described below:
The lubrication device has a lubricant dispenser 12 , which is connected via a check valve 13 to an inlet 14 of a pressure chamber 16 of a pressure cylinder 15 . The pressure chamber 16 is supplied by the lubricant telgeber 12 via the check valve 13 with lubricant. Here, the lubricant supply continues until the pressure chamber 16 is full, the back pressure prevailing there is therefore equal to the discharge pressure of the lubricant dispenser 12 .

The pressure cylinder 15 , more precisely its pressure chamber 16 has an output 17 which is connected via an output line 18 to a throttle 19 , which in turn is connected to a lubricant distributor 20 . The lubricant distributor 20 is connected via lubricant lines 21 to lubrication points 22 in connection, which are arranged on the support block 5 in the overlap area between the support block 5 and the sliding guide 6 .

In the operating state shown in Fig. 1, in which the lever 4 is between the upper stop 9 and the lower stop 8 of the support block 5 , the pressure cylinder 15 is extended. The pressure space 16 occupies its largest volume. Lubricant is conveyed from the lubricant dispenser 12 into the pressure chamber 16 via the check valve 13 .

If the roll stack is now raised, the lever 4 , as shown in FIG. 2, comes to the upper stop 9 of the support block 5 . The lubricant pump is actuated by compressing the pressure cylinder 15 . Here, the pressure space 16 is reduced and the lubricant is displaced therefrom. However, the lubricant cannot return to the lubricant transmitter 12 because the way there is blocked by the check valve 13 . It can only pass through the output line 18 via the throttle 19 to the lubricant distributor 20 , from where it is passed on to the lubrication points 22 .

Since a movement of the support blocks 5 in the slide guide 6 can only take place after the lever 4 has moved into the pivot position shown in FIG. 2, it is ensured that the necessary amount of lubricant is always present when the support blocks 5 are displaced in the slide guide 6 is. This amount of lubricant can be kept relatively small because it is only applied to the area where it is actually necessary, namely in the overlap area between the support block 5 and the sliding guide 6 . The entire sliding guide 6 no longer has to be lubricated.

The throttle 19 offers a certain resistance even when lubricating, i.e. when applying the lubricant. However, this is negligible for the applied forces. The throttle 19 , on the other hand, prevents the lubricant from the lubricant donor from the pressure chamber 16 from being brought to the lubricating point 22 , even if no lubrication is necessary in and of itself.

If the movement of the lever 4 is carried out several times in succession, only lubrication takes place with the partial quantity supplied by the lubricant dispenser, which has reached the pressure chamber by the start of the new movement. So it may well happen that the amount of lubricant corresponding to the maximum volume of the pressure chamber 16 does not reach the sliding guide 6 , but a correspondingly smaller amount. However, this is not harmful because in this case lubrication must have taken place beforehand. The lubricant applied during this lubrication then also contributes to the lubrication of the following movement. In order to limit the amount of lubricant, the lubricant dispenser 12 is set to a daily delivery amount that corresponds essentially to the daily requirement. If the lubricant maintains its lubricity over other periods, other periods can of course also be used as the design variable. If, on the other hand, the support blocks 5 move after a longer break, for example a business interruption of several days, a larger amount of lubricant is dispensed, which is also necessary because the lubricant already applied no longer necessarily has the required lubricating ability.

The pressure for the lubricant is purely mechanical by the movement of the rollers 2 . There is an automatic lubricant supply immediately before the movement of the support blocks 5 , whereby the control-technical monitoring of the movement is omitted. A lack of lubrication can largely be excluded. A high-pressure central lubrication system with its extensive line routing can be omitted. Accordingly, there are very few leakage points with the corresponding pollution. Since the entire lubrication device can be accommodated on the support block, so no external line connection is necessary, it can be assembled prior to manufacture.

Claims (10)

1. Calender, the roller bearing blocks are supported by levers in support blocks that are movable in a sliding guide, the lever pivoting in the support blocks, characterized in that between the lever ( 4 ) and support block ( 5 ) or bearing block ( 3 ) and support block, a pressure chamber ( 16 ) which can be changed in volume by the pivoting movement is arranged as a pressing device of a lubricating device. 2. Calender according to claim 1, characterized in that the pressure chamber ( 16 ) is ausgebil det as a pressure cylinder ( 15 ). 3. Calender according to claim 1 or 2, characterized in that the pressure chamber ( 16 ) with its input ( 14 ) via a check valve ( 13 ) is connected to a lubricant source ( 12 ). 4. Calender according to claim 3, characterized in that the lubricant source ( 12 ) is designed as a lubricant donor. 5. Calender according to claim 4, characterized in that the daily delivery quantity of the lubricant bers ( 12 ) is essentially limited to the daily requirement of lubrication points supplied by him ( 22 ). 6. Calender according to one of claims 1 to 5, characterized in that the pressure chamber ( 16 ) with its output ( 17 ) via a throttle ( 19 ) with lubrication ( 22 ) is connected. 7. Calender according to one of claims 1 to 6, characterized in that the pressure chamber ( 16 ) is followed by a lubricant distributor ( 20 ). 8. Calender according to one of claims 1 to 7, characterized in that the pressure chamber ( 16 ) above the bearing block ( 3 ) is arranged. 9. Calender according to one of claims 1 to 8, characterized in that at least one separate pressure chamber ( 16 ) is assigned to each roller ( 2 ) at least by the central rollers. 10. Calender according to one of claims 1 to 9, characterized in that the pressure chamber ( 16 ) is arranged on the support block ( 5 ) and the lubrication points ( 22 ) in the support block ( 5 ) in the overlap region between the support block ( 5 ) and sliding guide ( 6 ) are arranged.