EP0554698A1 - Cylinder machine - Google Patents

Abstract

A cylinder machine, in particular calender, has a cooling device for the edge region (9, 10) of a flexible cylinder (1). It is fitted on a support (12, 12a) which can be moved parallel to the cylinder axis by means of an actuating motor (13, 13a). A sensor (14, 14a) offset towards the cylinder centre detects the web edge (7). The actuating motor (13, 13a) displaces the support (12, 12a) in dependence on the sensor signals, such that the sensor (14, 14a) remains in the region of the web edge (7). In this way, it is ensured that the edge region (9, 10) is cooled to a sufficient degree, even when the web width (B) is changed or when changing the web. <IMAGE>

Description

The invention relates to a roller machine, in particular a calender, with a cooling device for the edge region of an elastic roller that is not covered by the web to be treated.

The covers of elastic rollers are sensitive to excessive temperatures. The most endangered part of the covers is in the edge area, which extends between the edge of the web and the end of the cover. Here, the heat of the heated counter roll, which works together with the elastic roll, is not dissipated through the web. It is therefore already known to cool these edge areas by means of stationary cooling devices. Air nozzles, air blow boxes, two-substance or atomizing nozzles and the like are common. the like

If the web width changes or the web changes, the size of the edge area also changes. If the edge area increases in this case, the cooling effect is insufficient, with the result that the cover is destroyed by excessively high temperatures.

The invention has for its object to achieve reliable cooling of the edge areas regardless of the width or a traversing of the web.

This object is achieved in that the cooling device is attached to a support which can be moved by a servomotor along a guide extending parallel to the roll axis, that the support - offset from the cooling device towards the middle of the roll - carries a sensor that detects the web edge and that the servomotor adjusts the support in dependence on the sensor signals in such a way that the sensor remains in the area of the web edge.

With this construction, the support tracks the course of the web edge. This means that the cooling device is at a fixed distance from the web edge. This can be chosen so small without difficulty that there are no sections between the cooled area and the web edge in which higher temperatures occur. If necessary, the cooling device can exert its effectiveness over a certain axial length, so that even wider edge areas can be protected against temperature increases. If the web width changes, the support is automatically moved to the new position. If the train shifts, the support executes a corresponding subsequent movement.

It is particularly favorable that the support carries an edge temperature measuring device which detects the surface temperature of the roller in the edge area, and that an adjusting device is provided which changes the cooling capacity of the cooling device as a function of the measured edge temperature. The use of the boundary temperature measuring device makes it possible to adapt the cooling capacity to the respective conditions. By Inclusion of the boundary temperature measuring device in the support ensures that the measurement is carried out at the correct point at which the cooling device is also effective.

It is advantageously ensured that a web area temperature measuring device is provided, which detects the surface temperature of the roll in the web area, and that the setting device has a controller which tracks the edge temperature of the web area temperature. The use of a web temperature measuring device as a setpoint or reference variable allows the edge temperatures to be brought close to the web temperatures and in this way to achieve a very uniform temperature distribution on the roll surface.

The cooling device preferably has a plurality of cooling points which can be switched on by the setting device as a function of the measured edge temperature. As a result, the cooling capacity is gradually changed. Instead, the cooling capacity can also be changed continuously, in the case of air cooling, for example by means of a controllable fan or an adjustable orifice, in the case of water-air dual-substance cooling, for example by changing the water supply by means of a control valve.

A limit temperature detector is also recommended, which responds when the boundary temperature exceeds a specified limit. In this case, the roller machine must be switched off or at least the heating power of the counter roller reduced.

All known systems can be considered as temperature measuring devices. Infrared cameras have proven particularly successful.

In a preferred embodiment, it is ensured that the cooling device has a plurality of axially offset cooling points and that an adjusting device determines the number of switched-on cooling points as a function of the position of the support. In this way, edge zones of different widths can be cooled uniformly, the current width being automatically taken into account.

In one embodiment, the servomotor is a rotary motor that drives a threaded spindle that engages an internal thread on the support. This results in a simple structure in which the spindle also serves as a linear guide.

An alternative is that the servomotor is a linear motor. It can be operated pneumatically, hydraulically, electrically or in another way.

It is advantageous that the guide has a garage position in which the support is located axially outside the roller surface. Whenever the roller machine is switched off, the support can be moved to its garage position in which it does not hinder a roller change.

Fig. 1

eine schematische Ansicht einer Walzenmaschine mit der erfindungsgemäßen Kühlvorrichtung,

Fig. 2

den Support der Fig. 1 in Vorderansicht,

Fig. 3

den Support der Fig. 1 in Seitenansicht,

Fig. 4

schematisch eine abgewandelte Ausführungsform des Supports,

Fig. 5

schematisch eine weitere Ausführungsform des Supports und

Fig. 6

eine schematische Darstellung der Regelschaltung.

The invention is explained in more detail below with reference to preferred exemplary embodiments illustrated in the drawing. Show it:

Fig. 1

2 shows a schematic view of a roller machine with the cooling device according to the invention,

Fig. 2

the support of Fig. 1 in front view,

Fig. 3

1 in side view,

Fig. 4

schematically shows a modified embodiment of the support,

Fig. 5

schematically a further embodiment of the support and

Fig. 6

a schematic representation of the control circuit.

1, a lower roller 1 and an upper roller 2 form a nip 3, in which a web 4 with the width B is treated, in particular smoothed or provided with a gloss. The lower roller 1 is fixed at its ends 5. It carries an elastic cover 6 with the width A. On both sides of the web 4, therefore, an edge region 9 or 10 remains between the web edge 7 and the reference end 8. The upper roller 2 is a heated steel roller, which is connected to a heat transfer medium via a line system 11 is loaded and is loaded at its ends with a downward force P to apply the required line load.

The heat transferred from the upper roller 2 is dissipated from the web 4 over the width B. In contrast, this heat dissipation is absent in the edge regions 9 and 10. If the heat is not dissipated in any other way, the cover heats up in an inadmissible manner and can ultimately be thermally destroyed. In addition, it must be taken into account that there are webs of different widths B and that occasionally a traversing, that is to say a gradual back and forth movement in the direction of the roller axis, can also be observed.

According to the invention, therefore, a support 12 or 12a is assigned to each of the edge regions 9 and 10, which is supported in the direction of the double arrow X with the aid of a servomotor 13 or 13a can be moved back and forth. A sensor 14 or 14a detects the web edge 7 and controls the servomotor 13, 13a in such a way that the sensor remains in the region of the web edge 7. The support itself, as will be described in more detail below, carries a cooling device and an edge temperature measuring device for monitoring the cooling effect. If the roller machine is switched off arbitrarily or automatically in the event of a web break, each support moves into a garage position 15, which is illustrated in dashed lines in FIG. 1 and in which the support is shifted to such an extent that it does not pull in the paper web and replace the rollers with special needs.

2 and 3, a frame 18 is fastened to the machine stand 16 via connecting plates 17, one of which is illustrated, which has an upper support 19, a lower support 20 and two end plates 21 and 22. On the lower support 20 are two bearings 23 and 24, in which a threaded spindle 25 is mounted, which can be driven by the output shaft 26 of the servomotor 13.

• a) Eine Kühlvorrichtung 30 besteht aus einer einzigen Kühlstelle 31, hier in der Form einer Zweistoff-Düse, der Wasser über eine Leitung 32 und Luft über eine Leitung 33 zugeführt wird.
• b) Eine Randtemperatur-Meßvorrichtung 34, welche die Oberflächentemperatur der Randzone 10 mißt, hat hier die Form einer Infrarotkamera 35.
• c) Der Sensor 14, welcher die Kante 7 der Bahn 4 abtastet, ist ein optischer Sensor, der mit einem an einem Bügel 36 ausgebildeten Reflektor 37 zusammenwirkt. Der Sensor ist über ein einstellbares Gestänge, bestehend aus den gelenkig miteinander verbundenen Abschnitten 38, 39 und 40, am Gehäuse 29 des Supports 12 befestigt.

The support 12 has a slide 27 which slides on the lower carrier 20 and has an internal thread 28 which is penetrated by the threaded spindle 25. The carriage 27 is connected to a housing 29 which carries three operating units.

• a) A cooling device 30 consists of a single cooling point 31, here in the form of a two-component nozzle, to which water is supplied via a line 32 and air via a line 33.
• b) An edge temperature measuring device 34, which measures the surface temperature of the edge zone 10, has the form of an infrared camera 35.
• c) The sensor 14, which scans the edge 7 of the web 4, is an optical sensor which interacts with a reflector 37 formed on a bracket 36. The sensor is fastened to the housing 29 of the support 12 via an adjustable linkage consisting of the sections 38, 39 and 40 which are connected to one another in an articulated manner.

From Fig. 2 it can be seen that the cooling device 30 and the edge temperature measuring device 34 are arranged approximately in the same vertical plane 41 and that the sensor 14 is located in a vertical plane 42 which is opposite the vertical plane 41 by an amount a in the direction of the Center of the roller is offset.

In operation, the support 12 is set by the motor 13 with the aid of the signals from the sensor 14 so that the sensor 14 is located in the area of the web edge 7. The cooling device 30 is then directed onto the adjoining edge region 10. The cooling capacity can be regulated as a function of the temperature which the edge temperature measuring device 34 detects. If the web edge 7 is displaced by changing the web width B or by traversing, the support 12 follows this edge movement. The energy sources required for operation (air, water, electricity) can be supplied via hoses and cables, which are kept on a chain, for example.

3 also shows that the edge measurement can also be carried out at a certain distance from the gap 3, in which case a guide roller 43 is then expediently used.

FIG. 4 illustrates a support 112 which, as cooling device 130, has four cooling points 131, each in the form of a two-component spray nozzle, and an edge temperature measuring device 134 has. With such an arrangement, the cooling capacity can be changed by switching individual cooling points 131 on and off.

In the embodiment according to FIG. 5, a support 212 is illustrated which, as the cooling device 230, has four cooling points 231 horizontally next to one another, each in the form of a two-component spray nozzle. An edge temperature measuring device 234 is assigned to each cooling point 231. In addition, a sensor 214 is attached to the support 212, which is offset relative to the cooling device 230 in the direction of the center of the roll.

A web area temperature measuring device 44 (FIG. 1) is provided for the purpose of temperature control of the edge areas. Your measured temperature value forms the setpoint for the temperature control in the peripheral areas 9 and 10.

A control circuit such as can be used in connection with the support according to FIG. 5 is illustrated in FIG. 6. A switching device 45 is assigned to the servomotor 13, with the aid of which the support 212 is adjusted in dependence on the signals from the sensor 214 such that the sensor remains constantly in the region of the web edge 7. If the sensor 214 operates optically, it receives a reflected beam when the sensor is completely in the edge region and no reflected beam when the sensor is completely in the web region. The edge 7 can therefore be detected very precisely. The cooling points 231 are each provided with an adjusting device 46 which is controlled by an adjusting device 47. This has a controller which receives measured values from the web area temperature measuring device 44 as the desired value and the measured values from the edge temperature measuring device 234 as actual values. Another signal line 48 reports the position of the Supports 212, which is also a measure of the width of the edge area. Depending on this, the number of active cooling points 231 is automatically determined. At each cooling point 231, the required cooling capacity is then set in the setting device 47 with the aid of the controller and set by the actuator 46. Furthermore, a warning device 49 is provided which responds when the edge temperature exceeds a predetermined limit value.

With a slight modification, the control circuit according to FIG. 6 can also be used for a support according to FIG. 4. Here, the actuators 46 are simple switches that switch the cooling points 139 arranged in a vertical plane on or off, depending on the cooling requirement required.

Instead of the illustrated two-component nozzles, an air chamber or an air-blowing nozzle can also be used as the cooling device. The two-component nozzles are expediently radially adjustable with respect to the roller surface in order to be able to set the optimal cooling effect.

Claims (10)

Rolling machine, in particular calender, with a cooling device for the edge area of an elastic roll not covered by the web to be treated, characterized in that the cooling device (30; 130; 230) is attached to a support (12, 12a; 112; 212), which is movable by an actuator (13, 13a) along a guide extending parallel to the roll axis, that the support - offset from the cooling device towards the middle of the roll - carries a sensor (14, 14a; 214) which detects the web edge (7) and that the servomotor adjusts the support in dependence on the sensor signals such that the sensor remains in the area of the web edge. Roll machine according to claim 1, characterized in that the support (12, 12; 112; 212) carries an edge temperature measuring device (34; 134; 234) which determines the surface temperature of the roller (1) in the edge region (9, 10), and that an adjusting device (47) is provided which changes the cooling capacity of the cooling device (30; 130; 230) depending on the measured edge temperature. Roll machine according to Claim 2, characterized in that a web area temperature measuring device (44) is provided which determines the surface temperature of the roll (1) in the web area, and in that the adjusting device (47) has a controller which tracks the edge temperature of the web area temperature. Rolling machine according to claim 2 or 3, characterized in that the cooling device (130) has a plurality of cooling points (131) which can be switched on by the setting device (47) as a function of the measured edge temperature. Rolling machine according to one of claims 1 to 4, characterized by a limit temperature detector (49) which responds when the edge temperature exceeds a predetermined limit value. Rolling machine according to one of claims 1 to 5, characterized in that the temperature measuring devices (34; 134; 234) have infrared cameras. Rolling machine according to one of claims 1 to 6, characterized in that the cooling device (230) has a plurality of axially offset cooling points (231) and that an adjusting device (47) determines the number of cooling points switched on as a function of the position of the support (212). Rolling machine according to one of claims 1 to 7, characterized in that the servomotor (13; 13a) is a rotary motor which drives a threaded spindle (25) which engages with an internal thread (28) on the support (12; 12a). Rolling machine according to one of claims 1 to 7, characterized in that the servomotor is a linear motor. Roll machine according to one of Claims 1 to 9, characterized in that the guide has a garage position (15) in which the support (12a) is located axially outside the roll surface.

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