WO2007036267A1 - Continuous press - Google Patents

Abstract

A continuous press, in particular for producing wood-based panels, comprises a top press part provide with a top pressing plate, a lower press part provided with a lower pressing plate and pressing belts which endlessly pass through the top and lower parts of the press and are guided by deviating rollers in such a way that they are pressed against a corresponding pressing plate by inserting rotating roller body units, wherein at least one deviating roller is embodied in the form of a drive roller provided with at least one drive and said invention is characterised in that said drive is embodied in the form of a direct drive connected to the drive roller.

Description

 Continuous press

Description:

The invention relates to a continuous press, in particular for the production of wood-based panels or the like, with press upper part with upper press plate and press base with lower press plate and in the press upper part and in the press base endlessly circulating and guided over deflection rollers press belts, which with the interposition of Wälzkörperaggregaten against the respective press plate are supported, wherein at least one of the guide rollers is formed as a drive roller and provided with at least one drive. - Wood-based panels means in the context of the invention in particular fiberboard (eg MDF boards) or chipboard or OSB boards. But there are also presses for the production of plastic plates or mats or z. B. mineral fiber boards. The upper press plate and / or the lower press plate can be acted upon by means of cylinder piston arrangements, which are supported against the press frame. Deflection roller means in particular a front or inlet-side inlet roller and a rear or outlet-side outlet roller. Infeed rollers and outfeed rollers are rotatably mounted in the press frame. The inlet rollers and / or the outlet rollers may be formed as drive rollers.

In a continuous press known from practice, the outlet rollers are designed as drive rollers and are each provided with one or more electromotive drives. The or the electric motor drives act with the interposition of a transmission on the outlet roller. The drive power required for a press belt is usually between 50 and 500 kW in a continuous press. With the appropriate gearboxes, it is possible to choose one-sided or two-sided side flanging only one or two or more electric motors. In this way, it is possible to realize different drive powers with a limited number of standard motors. The measures known from practice have proven themselves in principle. They are, however, capable of further development.

The invention has for its object to provide a continuous press, which is characterized in the field of drive rollers by a compact and functional design.

To solve this problem, the invention teaches in a generic continuous press of the type described above, that the drive is designed as a direct drive and thus directly (ie., Without interposed transmission) is connected to the drive roller. The direct drive is preferably designed as an electromotive direct drive with at least one stator (or stator) and at least one rotor (or rotor).

The invention is based on the recognition that in a continuously operating press for the production of particular wood-based panels, a particularly compact and functional design can be realized if the roller drives are designed as direct drives on the one hand the upper press belt and on the other hand, the lower press belt, so that can be dispensed with a transmission between the drive and roller. The direct drive is adapted to the particular circumstances, so that in particular the relatively low speeds are achieved at the same time high torque. Because the press belts move in the course of the production of wood-based panels regularly with a belt speed of 80 mm / sec. up to 3000 mm / sec., z. B. 100 mm / sec. up to 2000 mm / sec., preferably 500 mm / sec. up to 1500 mm / sec .. At one Roll diameter of 1.0 to 3.0, e.g. B. 1.5 to 2.5 m arise here typically speeds of 0.5 to 60, z. B. 5 to 30, preferably 10 to 20 revolutions per minute. It is understood that the speed and / or the torque of the direct drives can be controlled and / or regulated via a corresponding control and / or regulating device.

The drive roller may be fixed in a manner known per se to a rotatably mounted rotary shaft, so that it rotates with the rotary shaft. Then, the invention proposes that the rotor is rotatably connected to this rotary shaft. The rotor is preferably designed as an internal rotor. The stator or stator is rotatable relative to the rotor and thus rotationally fixed to the press frame z. B. mounted in a motor housing, wherein the rotary shaft is rotatably disposed relative to the motor housing.

In a modified embodiment, the invention proposes that the drive roller is rotatably mounted on a rotationally fixed axis of rotation and thus rotates the drive roller relative to this axis of rotation. In such an embodiment, the invention proposes that the rotor (rotationally fixed) is connected to the drive roller. The rotor is preferably designed as an external rotor.

According to another proposal of the invention it is provided that the direct drive outside the drive roller, z. B. in a separate motor housing is arranged. The motor housing can be arranged completely separate from the drive roller or coupled to the drive roller. In an embodiment with an inner rotor and a rotating shaft, the direct drive is arranged, for example, in a separate motor housing next to the drive roller. In embodiments with external rotor and fixed axis of rotation, it is possible to flange the direct drive in a motor housing to the drive roller. In a modified embodiment of the invention, the direct drive is at least partially disposed within the drive drum. It may be particularly useful when runners and stands are fully integrated into the drive drum. These embodiments are particularly useful when working with an electric motor with external rotor and consequently fixed axis of rotation. In this context, the invention proposes that the rotor is fastened on the inside to the drive roller. Consequently, it is possible to fix the rotor on the inside of the roller shell of the drive roller, so that the movement of the rotor directly sets the drive roller in motion. The stator is then preferably placed on the non-rotatable axis of rotation about which the drive roller rotates.

In embodiments with a fixed axis of rotation, the drive roller is rotatably supported by suitable bearings on the axis of rotation. It can slide bearings and / or bearings are used. The axis of rotation itself is non-rotatably connected to the press frame.

In embodiments with a rotating rotary shaft, the rotary shaft is rotatably supported by suitable bearings on the press frame. It also sliding bearings and / or bearings can be used. Incidentally, in these embodiments, the rotary shaft can also be rotatably mounted in the motor housing or in the stator via corresponding bearings.

It is within the scope of the invention that the rotor and the stator extend only over a portion of the drive roller. There is the possibility that a direct drive is provided only in an edge region of the drive roller. There is also the possibility that two direct drives are provided in the two edge regions of the drive roller. In a modified embodiment, the invention proposes that the runner or runners and the stand (s) can be extended over substantially the entire length of the runner. broad range. It can therefore be provided a single direct drive, which is integrated over the entire roll width or almost the entire roll width in the drive roller. In addition, it is possible to work with two direct drives or several direct drives, which extend over the entire roller width.

According to a particularly preferred embodiment of the invention, the direct drive is designed as a foreign-cooled drive with at least one air and / or liquid cooling. The invention is based on the recognition that the drive rollers are heated by the press belts, since in continuous presses is regularly worked with heated press plates and thus heat up the endless rotating steel press belts. In practice, steel strip temperatures of up to 250 ⁰ C and more may occur. Suitable cooling of the direct drives ensures perfect functioning of the direct drives. Suitable cooling media are air, water, oil or boiling fluid.

Between roller (nmantel) and rotor and / or between the rotor and stator can be used, for example, with an air cooling, for. B. single-flow, double-flow or Mehrflutig be worked. It can be worked with a foreign with ventilation. Outside between roller (nmantel) and rotor, a water or oil cooling (or water jacket cooling) may be provided. Inside between the rotor and stator, air cooling can be provided by means of external fans. Furthermore, a direct oil cooling or a spray oil cooling can be provided at the winding heads between the rotor and stator. Always a re-cooling of the cooling media is appropriate. This can be done via air / air heat exchangers, air / water heat exchangers, air / oil heat exchangers, water / water heat exchangers, oil / water heat exchangers or oil / oil heat exchangers. Furthermore, within the scope of the invention, it is possible to provide suitable thermal insulation in the area of the drives or between the roller (nmantel) and the drives, which minimize the heat input into the area of the direct drives.

The direct drive may be formed in the context of the invention as a DC motor, it being possible to work with electrical excitation or with permanent excitation.

There is also the possibility that the direct drive is designed as an AC motor or as a rotating field motor. Here, the direct drive as an asynchronous motor with z. B. squirrel cage or slip ring rotor may be formed.

The direct drive can also be designed as a synchronous motor. It can be worked with electrical excitation or permanent excitation.

In addition, the direct drive can be configured as current reversing machine and thus commutator.

Preferably, the direct drive is designed as a transverse flux motor, as a permanent magnet excited motor, as a reluctance motor or as a magnetic motor. It is always possible to equip the engine as an internal rotor or external rotor motor.

In the following the invention will be explained in more detail with reference to drawings showing merely exemplary embodiments. Show it

1 shows a continuous press for the production of wood-based panels in a schematic side view, 2 shows a cross section through a drive roller in a first embodiment,

3 shows the article of FIG. 2 in a modified embodiment,

4 shows the object according to FIG. 2 in another embodiment, FIG.

Fig. 5 shows the article of FIG. 2 in a further embodiment and

Fig. 6 shows the article of FIG. 5 in a modified embodiment.

In the figures, a continuously operating press for the production of particular wood-based panels is shown. 1 consists of a press upper part 1 with upper press plate 2 and a press lower part 3 with lower press plate 4 and in the upper press part 1 and in the lower press part 3 endlessly circulating and guided over guide rollers 5, 6 press belts 7. The press belts 7 are designed as steel bands and supported with the interposition of Wälzkörperaggre- gates 8 against the respective press plate 2, 4. The press plates 2, 4 are also designed as heatable press plates and consequently heating plates. In the exemplary embodiment, the press is designed as an upper piston press, wherein the upper press plate 2 is acted upon with cylinder piston assemblies 9, which are supported against the press frame 10. The outlet-side region of the press frame shown in the figure is also referred to as an outlet roller chair 11.

While the inlet-side guide rollers 5, which are also referred to as inlet rollers, are designed without drive, the outlet-side guide rollers 6, which are also referred to as outlet rollers, as Drive rollers 6a formed and each provided with at least one drive 12. According to the invention, both the drive of the upper drive roller 6a and the drive of the lower drive roller 6a are formed as a direct drive 12 and connected without intermediate gear to the drive roller 6a. Direct drives are designed as electromotive direct drives and consequently as electric motors with at least one stator 13 (or stator) on the one hand and at least one rotor 14 (or rotor) on the other hand.

Fig. 2 shows a first embodiment of the invention, in which the drive roller 6a in a conventional manner rotatably attached to a rotary shaft 15 which is rotatably mounted on the press frame 10, 11 and in bearing blocks 16, said bearing blocks 16 turn on the Press frame 10, 11 are attached. The drive roller 6a consequently rotates with the rotary shaft 15 relative to the press frame 10, 11. The bearing blocks 16 are adjustably or displaceably arranged in the press frame 10, 11, so that the rotary shaft 15 and thus the drive roller 6a can be displaced in the press longitudinal direction, to adjust the belt tension of the steel belts 7. The shaft bearings 17 are also indicated in FIG. In this embodiment, the invention proposes that the direct drive 12 is designed as an internal rotor motor and the (inner) rotor 14 is fixed to the rotary shaft 15. The stator 13 (or stator) rests and is therefore arranged rotationally fixed relative to the press frame 11 (eg in a motor housing). In this case, the rotary shaft 15 is also mounted on corresponding bearings 17 'in the motor housing. The rotor 14 is rotatably connected to the rotary shaft 15, so that in the course of operation of the rotating rotor 14, the rotary shaft 15 and thus the drive roller 6a in motion. The (electrical) leads 18 for the stator 13 are also indicated. The magnets or the short-circuit cage of the rotor 14 are not shown. The winding 19 of the stator 13 is indicated. While working in the embodiment of FIG. 2 with rotating rotary shaft 15, FIGS. 3 to 6 show different embodiments, in which the drive roller 6a is rotatably mounted on a rotatably connected to the press frame 10, 11 axis of rotation 15 '. The drive roller 6a is rotatably mounted on the axis of rotation 15 'with the interposition of corresponding bearings 17. In these embodiments, the drive motor 12 is now preferably designed as an external rotor motor, so that the (outer) rotor 14 is connected directly or indirectly to the drive roller 6a. In these embodiments, too, there is the possibility of displacing the axis of rotation 15 'and thus the drive roller 6a in the longitudinal direction of the press, because the axis of rotation 15 "or its axis of rotation holder 16' is displaceably guided in the press frame 11. In the embodiments according to FIGS 6, the stator 13 is thus arranged with its windings 19 resting, while the rotating during operation rotor 14 is directly or indirectly connected to the drive roller 6a and this consequently set in motion. A rotating motor shaft is therefore not provided in these embodiments the rotating rotor 14 is arranged rotationally fixed relative to the drive roller 6a.

FIG. 3 shows an embodiment in which the direct drive 12 is arranged outside the drive roller 6a in a separate motor housing 20, this separate motor housing 20 being connected or flanged to the drive roller 6a at the end.

In contrast, the direct drive 12 is integrated as shown in FIG. 4 in the drive roller 6a and thus arranged completely within the drive roller 6a. The rotor 14 is fastened on the inside to the roller shell 21 of the roller 6a. Also, the rotationally fixed to the rotation axis 15 'connected stator 13 is fully integrated into the drive roller 6a. About the axis of rotation 15 'is also the electrical supply line 18. In Fig. 4 is indicated that the Direct drive 12, that is, both the rotor 14 and the stator 13 extend over only a portion of the drive drum or roller 6a. Rotor 14 and stator 13 are positioned in the edge region of the drive roller 6a.

In contrast, Fig. 5 shows an embodiment in which the direct drive 12 is positioned centrally in the drive roller 6a and extends over almost the entire roller width B.

In the modified embodiment of FIG. 6, two direct drives 12 are provided, each extending over one half of the drive roller 6a. Between the drives 12, an intermediate storage 17 "is provided.

The drive motors shown in the figures are designed as externally cooled motors and each formed with at least one air and / or liquid keitskühlung. The supply lines 22 for example, a cooling liquid are only indicated in Figures 4 to 6.

Claims

claims:

1. Continuous press, in particular for the production of wood-based panels,

with press upper part (1) with upper press plate (2) and lower press part (3) with lower press plate (4)

and with in the upper press part (1) and in the lower press part (3) endlessly circulating and over guide rollers (5, 6) guided press belts (7), which are supported with the interposition of Wälzkörperaggregaten (8) against the respective press plate (2, 4) .

wherein at least one of the deflecting rollers (5, 6) is formed as a drive roller (6a) and provided with at least one drive, characterized in that

the drive is connected as a direct drive (12) to the drive roller (6a).

2. Press according to claim 1, characterized in that the direct drive (12) is designed as an electromotive direct drive with at least one stator (13) and at least one rotor (14).

3. Press according to claim 2, characterized in that the drive roller (6 a) on a rotatably mounted rotary shaft (15) is fixed and with the

Rotary shaft (15) rotates and that the rotor (14), preferably as an internal rotor, is connected to the rotary shaft (15).

4. Press according to claim 2, characterized in that the drive roller (6a) on a rotationally fixed rotational axis (15 ¹ ) is rotatably mounted and opposite the rotation axis (15 ¹ ) rotates and that the rotor (14), preferably as an external rotor, to the drive roller (6a) is connected.

5. Press according to claim 3 or 4, characterized in that the direct drive (12) outside the drive roller (6a) is arranged.

6. Press according to claim 3 or 4, characterized in that the direct drive (12) at least partially within the drive roller (6a) is arranged.

7. Press according to claim 6, characterized in that rotor (14) and stator (13) are completely integrated in the drive roller (6a).

8. Press according to claim 6 or 7, characterized in that the rotor (14) is fastened on the inside to the drive roller (6a).

9. Press according to claim 7 or 8, characterized in that rotor (14) and stator (13) extend only over a portion of the drive roller (6a).

10. Press according to claim 7 or 8, characterized in that the one or more runners (14) and the or the stand (13) extend over substantially the entire roll width (B).

11. Press according to one of claims 1 to 10, characterized in that the direct drive (12) is designed as externally cooled drive with at least one air and / or liquid cooling.

12. Press according to one of claims 1 to 11, characterized in that the direct drive (12) is designed as a DC motor.

13. Press according to one of claims 1 to 11, characterized in that the direct drive (12) is designed as an AC motor or rotary field motor.

14. Press according to claim 13, characterized in that the direct drive (12) is designed as an asynchronous motor.

15. Press according to claim 13, characterized in that the direct drive (12) is designed as a synchronous motor.

16. Press according to one of claims 1 to 13, characterized in that the direct drive is designed as current reversing machine (or commutator).

17. Press according to one of claims 13 to 16, characterized in that the direct drive (12) is designed as a transverse flux motor.

18. Press according to one of claims 13 to 16, characterized in that the direct drive (12) is designed as a reluctance motor or magnet motor.

19. Press according to one of claims 13 to 15, characterized in that the direct drive is designed as a permanent magnet motor.