FI121854B - Device for a fiber web machine - Google Patents

Description

HARDWARE FOR THE FIBER MACHINE

The invention relates to an apparatus for a fiber web machine comprising 5 - transverse support members for the fiber web machine, - a work head, and - moving means for moving the workpiece back and forth in the crossover direction of the fiber web machine and moving the workpiece to the desired position.

Exemplary apparatuses include, for example, current bevelled cutters for cutting the web 15 with a high pressure water jet or a rotating blade on a fiber web machine. In both applications, the cutting members are disposed on a work head supported on the transverse support members of the fiber web machine. In practice, such a structure consists of a traverse beam within which drive energy is transported to the work head by means of a so-called energy transfer chain. For water cutting, a pressurized water hose is required, and for blade cutting, a pneumatic hose is required, since the cutting blade is rotated by a pneumatic motor. Regardless of the application, the hoses require a large size of traverse beam because of the large turning radii of the energy transfer chains. In this case, the installation of the traverse beam requires a lot of installation space. For example, the drying section has major problems in installing the equipment on small cylinders. In addition, the hoses must be made flexible to allow for o-traversing movement of the workpiece. The hoses are then exposed to bending and heat in addition to the pressure.

Thus, the hoses wear out and need to be replaced several times

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once a year. In addition, the high masses and the frictional forces caused by the bending of the hoses make the power requirements of the moving devices (Ό σ>, o low, o c

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It is an object of the invention to provide a new type of apparatus for a fiber web machine which is simpler and smaller in design but more versatile and durable. Characteristic features of the present invention are that the energy storage and energy converter are further adapted to operate the moving means, and the energy storage is an electric battery with the energy converter 5 being an electric motor, a pressure medium battery with a pressure medium motor, or The solution according to the invention avoids large and heavy transmission chains. This simplifies the structure of the apparatus 10 and reduces the need for maintenance. At the same time, much less power is required to move the workpiece compared to the former, which still allows the use of smaller components. This allows the equipment to fit into smaller positions and the support of the equipment can be lighter than prior art.

The invention will now be described in detail with reference to the accompanying drawings, in which:

Figure 1 shows a finishing section of a prior art fiber web machine,

Fig. 2a shows in principle a first embodiment of the apparatus according to the invention in a machine direction, T- Fig. 2b shows a second embodiment of the apparatus according to the invention.

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, looking at the plane of the ship,

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Figure 2c shows a third embodiment of the apparatus according to the invention.

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Fig. 3a shows in principle a first embodiment of a workpiece according to the invention viewed from a machine direction, 05 g Fig. 3b shows a second embodiment of a workpiece o according to the invention viewed from a machine direction,

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Figure 3c illustrates in principle a third embodiment of the workpiece 35 according to the invention, viewed in machine direction, 3

Fig. 4a shows in principle a fourth embodiment of a workpiece according to the invention, viewed in the machine direction,

Figure 4b shows in principle a fifth embodiment of a workpiece according to the invention in a machine direction view, Fig. 4c shows a sixth embodiment of a workpiece according to the invention in a machine direction view in principle,

Fig. 5a shows in principle a seventh embodiment of the workpiece according to the invention in a machine direction, Fig. 5b shows in principle an eighth embodiment of the workpiece 10 according to the invention in a machine direction.

Fig. 1 shows a finishing section 10 of a fiber web machine known per se, which starts after the drying section 11 and ends on the winder 12. In this example, the end 15 of the drying section 11 shows a bevelled cutter 13 which here forms the apparatus for the fiber web. The bevel cutter is used in particular in threading to form a threading strip and to spread the web. Also at the beginning of the drying section is a bevelled cutter. In the dryer section, the single wire feed uses a fluid cutter or a non-wire run must be provided on the web using a blade cutter. One apparatus is shown at the one-touch pull point 14, where the web 15 is cut by a bevelled cutter 16 for the next threading down to the downward point after the pull point. Later, there is also another similar pulling point 14 provided with a bevelled 25 cutter 16, wherein the web 15 is cut by a bevelled cutter 16 for the next threading.

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, down to the landing site after Dan. The bevel cutter is thus used to form the threading strap and to spread the web.

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^ to the next pull or drop point. In the figure x £ 30 1, the drop points are indicated by downward arrows, g At the drop position, the web is referred to a wreck treatment such as g to a pulper. Fiber web machines include paper and paperboard machines and pulp machines. In addition to the cutters

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the fiber web machine also has other transverse traver-35 devices, such as web-defining devices.

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The apparatus according to the invention is thus intended for a fiber web machine. As basic components, the apparatus firstly comprises the transverse support members 17 of the fiber web machine and the movably supported workpiece 18 of the support members 17. The apparatus 5 according to the invention is shown in principle in Figures 2a to 2c. The functions of the work head vary in different applications, but for example, the work head cuts the web. At their simplest, the support members are guides made from a profile (not shown). For example, the support members may be supported at both ends by the frame structures of the fiber web 10, but the support members may also be attached to an existing transverse structure. Preferably, the support members extend from one edge of the fiber web machine to the opposite edge, whereby the working area of the apparatus covers the entire width of the fiber web machine. In Figures 2a to 2c, so-called web widths are depicted in dotted lines. Further, the apparatus includes moving means 19 for moving the workpiece 18 in the supporting members 17 back and forth in the transverse direction of the fiber web machine. Hereby, the movement means 18 can be moved by the actuating means to the desired position. The structure of the work head and the moving means 20 will be described in greater detail below.

According to the invention, for operating the workpiece 18 and / or the actuating means 19, the workpiece 18 includes an energy storage 20 and an energy converter 21. Thus, at least some of the equipment functions 25 can be generated without external energy, simplifying the equipment structure. For example, the traverse bar ^ can be made as simple and compact as possible,

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? such as the aforementioned derivative. At the same time, large and heavy

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The 0X1 energy transfer chain becomes redundant, resulting in significant x £ 30 savings in hardware acquisition and operating costs. In addition, the simple cd design enables low-cost hardware to be manufactured on compact fiber machines as well as hardware

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o installation in tight positions.

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35 The first embodiment of the workpiece is shown in Figure 3a. Here, the energy storage is an electric accumulator 22, the energy converter 21 being an electric motor 23. A rotary cutting blade 24 is connected to the electric motor for cutting the web. Generally speaking, the workpiece 18 includes an actuator 25 which is adapted for use with an energy converter 21. In Fig. 3a, the workpiece 18 further includes a quick connector 5 26 for charging the electric battery 22. Preferably, the apparatus also includes a charging and waiting station 27 in which the workpiece 18 is charged and waits for the next use (Figures 2a to 2c).

Another embodiment of the workpiece is shown in Figure 3b. Here, the energy storage 10 is a pressure medium battery 28 with the energy converter 21 being a pressure medium motor 29. For example, the medium may be compressed air. Here, too, there is a quick connector 26 for charging the pressure medium battery 28 with a charging and waiting station. On the other hand, the actuator 25 may also be a pressure medium cutter 30 produced by a fiber web machine 15 to cut the fiber web (Fig. 3c). Pressurized fluid stored in a pressure medium battery may be used for cutting. Preferably, the pressurized fluid would be water, whereby the two work heads could alternate so that one cut to load the other. Correspondingly, compressed air can also be used to form different kinds of control, holding or turning blowing. On the other hand, blows can also be formed by a fan 31 which is rotated by one of the aforementioned motors. One embodiment of the fan is shown in Figure 5a.

25 Instead of or in addition to conventional electric batteries, a fuel cell 32 may be used as an energy storage 20 and a fuel cell 33 as an energy converter 21, which may be either directly or indirectly.

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connected to an electric motor 23 (Fig. 4a). Fuel cell arriving-

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long operating time and sufficient power for even the most demanding applications. Significant power is required at least in the embodiment of the invention in which the actuator 25 is a booster pump 34c0 (Fig. 4b). For the booster pump 34, the apparatus includes

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and also a medium container 35 disposed at work head 18.

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however, the boost pump 34 is driven by an electric accumulator 22 and the boost pump includes the necessary motor. For example, the medium can be fresh water which, when pressurized and aligned with suitable nozzles, is well suited for cutting the web. The workhead may also have a single water storage tank 36 and a pressure accumulator 37 providing sufficient high pressure (Figure 4c). The pressure accumulator and water are charged between cuts 5 while the workpiece is at either end of the equipment waiting for the next cut.

The above describes various applications for using the workbench with energy stored in energy storage, which already provides 10 significant benefits. Hereby, for example, a known roller chain 39 can be used to move the workpiece, which extends as a loop from end to end of the apparatus and is rotated by an electric motor (Figure 2a). In other words, the moving means 19 are disposed apart from the workpiece 18 and are adapted to be used-15 with external energy from the workpiece 18. Even the external moving means can be dispensed with by arranging the moving means 19 in connection with the workpiece 18. The moving means may be, for example, propelling casters 40 with which the work head is supported on the supporting members (in particular Figures 5a and 5b).

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The support members 17 of Figure 2a are intended for a work head operating completely without external energy. In addition, Figure 2c shows a charging and waiting station 27 at each end of the apparatus. Thus, the moving means can be operated with off-work energy or energy stored in the 25-work energy store. In this case, it is possible to provide even a fully self-contained, work-free, energy-free or moving workpiece.

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? in the transverse direction. The workpiece 18 of Figure 5a is fully operable without air

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list of energy, here with the electric battery 22. Such a workpiece x £ 30 can even be moved to other support members in different positions. This is advantageous, for example, in the σ> S workpieces for analysis, which are used, where necessary, in the different parts of the fiber web machine o> o. For example, the transmission may be implemented on a support wheel

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40 with a stepper motor directly attached to the shaft assembly. 35 As the friction hoses are removed, relatively small motors are sufficient to move the work head. At the same time, the other components used 7 are reduced as the heavy and fault-sensitive roller chain is also eliminated. In addition, the amount of moving masses is reduced by the roller chain. This further reduces the power requirement of the engines.

In Fig. 5b, the work head is operated by an electrically conductive externally-conductive 5, for example, a busbar with a pantograph is used for conducting it.

For example, a sharpening cutter is easy to execute in battery operation. The sharpener can also be fitted with a so-called coanda plate to hold the cutting web close to the cutting blade. The Coanda effect can be generated by a small electric fan connected to the workpiece.

In addition to conducting energy and possible media, control technology is needed for the equipment. For example, the workpiece can determine its position across the machine based on limit switches or sensors. For example, step motors can easily provide accurate position information. On the other hand, external control can also be used, which is transmitted, for example, by wireless communication to the workstation. In particular, a remote control is preferably used to control the autonomous and mobile work head. In addition, the apparatus has at the end of the support members a loading and waiting station for the workpiece, which is preferably located, for example, on the outside of the dryer section hood or in an air-conditioned space. The workpiece and its components are then protected from heat. If necessary, a charging station and a waiting station are located at each end of the equipment.

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? The structure of the invention avoids wear and tear

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^ high pressure hoses causing friction. In addition, the amount and size of the x £ 30 components required will be reduced. At the same time, the number of parts requiring continuous maintenance g is significantly reduced. The power requirement is also considerably lower than at present. In known devices, a large part of the energy of the motors is consumed by high pressure hoses

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to overcome the friction of persuasion. In particular, fully 35 independent work heads can be removed from the fiber web machine for maintenance. One or more spare jobs may also be provided, which, if necessary, will be replaced in place of the defective one. It is also possible to use a branched wire, whereby one of the working ends can be routed to one wire in turn. On the other hand, the rest and charging station can be located at each end of the guide and operate one workstation while the other is charging or otherwise waiting for its turn. In addition, it is possible to use two supporting members spaced apart in the direction of web travel. This allows the two work heads to move past each other independently.

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Claims (5)

Apparatus for a fiber web machine comprising: 5. transverse support means (17) for the fiber web machine, - workpiece (18), - moving means (19) for moving the workpiece (18) back and forth in the transverse direction of the fiber web machine and thereby moving the workpiece (18). and for operating the workbench (18), the workbench (18) comprises an energy storage (20) and an energy converter (21), characterized in that the energy storage (20) and the energy converter (21) are further adapted to operate the transport means (19), and The energy storage (20) is an electric battery (22) with the energy converter (21) being an electric motor (23), a pressure medium battery (28) with the energy converter (21) being a pressure medium motor (29), or the 20th fuel battery (32) with the energy converter (21) 33) directly or indirectly coupled to an electric motor (23). Apparatus according to claim 1, characterized in that the work head (18) comprises an actuator (25) adapted to be used with an energy converter (21). CM CM Apparatus according to claim 2, characterized in that the actuator (25) is a cutting blade (24) or a pressure medium cutting machine (30) produced by a fiber web machine to cut the fiber web (15). CD CO CD Apparatus according to claim 2, characterized in that the actuator (25) is a fan (31) for forming a control, holding or pivoting fan. Apparatus according to claim 2, characterized in that the actuator (25) is a booster pump (34) for which the apparatus comprises a fluid reservoir (35) disposed on the work head (18) for introducing the medium into the work head (18). δ {M {M O {M (M X en CL CD O) δ σ> o o {M