DE19615526A1 - Tee knife to cut a running web - Google Patents

Description

The invention relates to a tee knife for cutting a running Material web, in particular a paper web with an actuating device for operating the knock-off knife and a method for cutting a running web, in particular a paper web with the help of a such a knife.

In papermaking, it is often necessary to include running webs full working speed of the machine, the 1500 m / min or more can be cut, for example in unwinding stations Coating machine. As is known, knives or Cutting knife used. From DE 38 15 277 is a cutting knife that in of the splice device is known. The cutting knife is in a swiveling lever mounted in by means of a pressure cylinder Direction is moved transversely to the web to cut the same. The disadvantage of this device is that at high working speeds the machine is not cut quickly enough, so that a non-rectilinear cutting line results.

The object of the invention is therefore to provide a device with which you can cut quickly even at high web speeds the running paper web is possible, being as straight as possible Cutting line is aimed for.

The object of the invention is achieved by a device according to the characterizing part according to claim 1 and a method for severing a running web with the help of a knives according to claim 12 solved.  

According to the invention, the accelerator is used to accelerate a high speed not necessary energy through the Moving the cutting knife with the help of a driving Actuating element, for example a pressure cylinder, as in DE 38 15 277, but before the knife is moved, at least partially introduced into an energy store and there cached. Should the knife to cut a running Railway are moved, so the stored energy is at least partially released suddenly and for example by means of an impulse on the Transfer tee meter. This gives the knife kinetic energy, which is used for acceleration, the amount according to the stored energy corresponds.

In one embodiment of the invention, the energy storage device can be provided that a compressed air chamber is used. The in the Compressed air chamber stored by supplying compressed air from the outside Energy can be applied to the hitting knife in two ways, for example be transmitted. One possibility is that in the direction of Knife directed abrupt escape in the Compressed air chamber represents stored air, causing a pulse transfer from the Air flow to the tee knife is made possible. In another Embodiment can be provided that the tee knife in contact with the compressed air chamber, which is designed, for example, as a compressed air hose can be stands. By removing the stored in the pressure chamber Compressed air relaxes this, and the knife is going in the direction of itself accelerated relaxing medium.

Of course it is possible in a further embodiment instead the compressed air chamber in contact with the knock-off knife To provide spring that is biased and in this way energy saves. In a further embodiment it is provided that the  Energy storage device an accelerator for a mass for example, a mechanical pulse generator for the tee knife. Of course, it is possible that the energy storage device Combination of the individual examples listed above Energy storage elements can be, for example, a combination of a compressed air chamber and a spring. It is particularly advantageous if the Energy storage devices are distributed over the entire width of the machine. For example, it can be provided that compressed air nozzles from which a Compressed air jet for impulse transfer to the knife escapes along the entire machine width are arranged. Particularly advantageous in the case the use of pulse generators is when the tee knife from a Material with a particularly low mass is made. In a preferred one The embodiment is the actuating device for the tee knife arranged so that the speed at the tip of the knife is greater than the speed at the articulation point is.

Furthermore, a method is used to achieve the object according to the invention indicated for cutting a running web, the The method is particularly characterized in that after the Energy storage of the energy storage device at least part of the possible maximum energy absorbed, this after actuation of the Tee knife, for example, by pulse transmission to the tee knife delivers. In an advantageous embodiment it is provided that the energy is stored in the form of compressed air in a compressed air chamber. The Stored energy can, for example, by the knock-off knife Pulse transfer to a moving mass of a pulse generator be or with the help of compressed air, whereby in another Embodiment can be provided that the supply of compressed air done continuously.  

It is possible that the stored energy is only in addition to that for Actuation supplied kinetic energy is provided. This means that the kinetic energy of the knife is composed a portion of energy supplied through the actuator and a portion of stored energy. But it is also possible that the kinetic energy of the knife stored 100% from the implementation Energy results.

The invention is described below by way of example with reference to figures will.

Show it:

Figure 1 shows a first embodiment of a tee knife according to the invention with a compressed air chamber as an energy store.

FIG. 1a shows a modified form of the first embodiment according to FIG. 1 with a compressed air chamber as an energy store and a locking device for a prestressed tee knife;

2 shows a second embodiment of a cutting blade according to the invention with a spring element as an energy store and a pneumatic cylinder.

Fig. 3 shows a third embodiment of the invention with a spring element and a pressurized air chamber as an energy storage;

Fig. 4 shows a fourth embodiment of the invention with a pulse generator as the energy storage;

FIG. 5 shows a cutting blade according to the prior art;

Fig. 6 shows an embodiment of a cutting blade according to the invention with a centrally located pivot point for the blade and a spring element as an energy store;

Fig. 7 shows a further embodiment of the invention with a centrally arranged center of rotation of the cutting blade, and a pressurized air chamber as an energy storage;

FIGS. 8 and 9 an embodiment of the invention, in which the actuation means of a compressed air jet.

In the case of tee knives according to the prior art, as shown in FIG. 5 and known from DE 38 15 277, the tee knife 1 is arranged below a paper web 4 running over two rollers 2 , 3 . The knock-off knife 1 is fastened to a bearing 5 so as to be pivotable about the axis of rotation. On the side of the bearing opposite the knife there is a holder 6 for articulating the knife by means of a pneumatic / hydraulic cylinder 7 via the rod 8 connected to the piston of the hydraulic cylinder 7 . Instead of a pneumatic / hydraulic cylinder, electric, piezo-electric, magnetostrictive, magnetically or inductively operating elements are also conceivable as driving actuation devices. The knife is shown in FIG. 5 in the rest position. For this purpose, the pneumatic cylinder 7 is filled with a certain amount of air from the compressed air chamber 10 via the air line 11 , so that the piston 12 is brought into the desired position in the pneumatic cylinder. Then the valve 13 introduced into the air line is closed. If the paper web 4 is now to be cut by means of the cutting blade 14 of the knock-off knife 1 , the valve 13 is opened, compressed air from the pressure chamber flows into the pneumatic cylinder and presses the piston 12 downward, whereby the knock-off knife 1 moves in the direction of the paper web and cut it after covering a certain distance. Due to the rigid coupling of the tee knife and pneumatic cylinder, the speed of the tee knife movement is determined by the speed of the air introduction into the pneumatic cylinder. This means that the knock-off knife experiences an acceleration exactly by the energy that is introduced into the pneumatic cylinder via line 11 .

Fig. 1 shows a first embodiment of the invention.

Again, the knock-off knife 1 with cutting blade 14 is arranged below a web in the vicinity of the roller 2 , which can be an adhesive roller, for example. The tee knife is made relatively thin in cross section and rigidly attached to a bracket 20 , which is not shown in detail. Between the holder and the knock-off knife there is a pressure chamber 21 , which is part of a compressed air device and can be designed as an expandable, tubular body and is connected to a compressed air system (not shown here). If the pressure chamber, which is designed as a hose, is now filled with compressed air, the tubular body expands in cross section and thereby presses the knock-off knife into the rest position shown. The stretching of the tubular body introduces potential energy into the system. If the pressure chamber is now vented, the arrangement does not have the necessary counterforce to the restoring force of the curved knock-off knife, and this cuts the rest of the dotted position by cutting the paper web. A large part of the potential energy stored in the tubular body designed as an energy store is converted into kinetic energy of the tee knife. By refilling the pressure chamber, the knife can again be brought into the rest position shown after cutting the web. The tee knife shown in Fig. 1 has the advantage over the tee knives according to the prior art that by quickly and suddenly venting the pressure chamber, the stored energy is converted into kinetic energy in a very short time, hence the tee knife in a very short time to the cut necessary high speeds are accelerated. In the embodiment according to FIG. 1, the actuating device of the cutting knife comprises only one energy storage device.

In a modified embodiment according to FIG. 1 a, a pressure chamber 21 is arranged between the holder 20 and the cutting knife 1 , which in the present case is designed as an expandable, tubular body. As shown in FIG. 1a, the knock-off knife is pretensioned and the tubular body is compressed in the process. In the rest position shown, the prestressed knock-off knife is held by a locking device 23 . If the knife is triggered, the locking device is pivoted into the position shown in dashed lines, the prestressed knife relaxes and is accelerated in the direction of the web 4 . The acceleration movement of the knife 1 is supported in that the compressed compressed air hose relaxes, so that the energy stored in this compressed system is also converted into kinetic energy of the knife.

FIG. 2 shows a further embodiment of the knock-off knife according to the invention, in which a spring element 30 is used as the energy storage device. As in FIG. 1, the knock-off knife 1 with the cutting blade 14 is arranged below the paper web 4 in the rest position. The spring element, which is fastened with its one side on a bearing block 31, for example by means of screws 32 , and its other end rests on the knock-off knife. In order for the tee knife to be held in the rest position, the force exerted by the prestressed spring must be compensated for. The hitting knife thus has potential energy. The compensation of the restoring force of the spring is applied by a pneumatic cylinder 33 with a piston 34 to which a rod 36 is attached. This is done in that the rod 36 hinges the bearing on which the knock-off knife 1 is pivotally attached. If you want to operate the knife to cut it, this can be done, for example, by suddenly evacuating the pneumatic cylinder, which has been filled with compressed air via line 40 , via line 42 . This eliminates the counterforce to the restoring force exerted by the prestressed spring on the tee knife, and the potential energy stored in the spring is converted in a very short time into kinetic energy of the tee knife 1 , which cuts the web at high speed. In the embodiment according to FIG. 2 too, the actuating device comprises only one energy storage device.

FIG. 3 shows a further embodiment of the invention, in which a spring element 30 in combination with a compressible, tubular pressure chamber is used as the energy storage device as the energy store. As in FIG. 2, the counterforce to the repelling force of the energy storage elements 21 , 30 is applied by a filled pneumatic cylinder 33 with a piston 34 . Here, as in FIG. 2, an air line 40 with a built-in valve 50 is provided, via which compressed air enters the pneumatic cylinder, so that the piston is moved into the desired position 34 to compensate for the restoring forces. In addition to this, however, it is provided that the other part of the pneumatic cylinder 33 can be supplied with compressed air via a further compressed air line 52 which is connected to a compressed air reservoir 54 . A valve 56 is connected in line 52 . In the rest position the valve 56 is in the closed position, ie no compressed air can flow into the upper part of the pneumatic cylinder, and the valve 50 in the open position. The actuation or triggering of the knock-off knife 1 now takes place in that the valves, which are mechanically coupled to one another via a rod 58, are brought into a second position, so that air flows out of the lower region of the pneumatic cylinder, as a result of the restoring force of the energy storage elements 21 , 30 the piston 34 is moved downward and the knock-off knife is accelerated in the direction of the paper web. The kinetic energy of the knock-off knife can additionally be increased by the fact that, as in the present example, compressed air flows from the pneumatic accumulator of the chamber 54 into the upper part of the cylinder via line 52 as in the prior art according to FIG. 5.

3 therefore shows an exemplary embodiment in which the actuating device comprises both an energy storage device and a driven actuating element.

In FIG. 4, a fourth embodiment of the invention is shown, a pulse generator 60 is used as in the energy storage device. In the rest position shown in Fig. 4 is the pulse generator 60 , which can also be a pneumatic component that is supplied in a non-illustrated manner with compressed air in its rest position, which is characterized in that the pulse generator does not come into contact with the tee meter. The pulse generator is triggered shortly before the valve 64 is opened and the pneumatic cylinder, with the aid of which the tee knife is articulated, moves. The mass 62 is accelerated with the aid of the energy stored in the pulse generator on the route from the rest position to the point at which it comes into contact with the knock-off knife. The kinetic energy gained on this route is transferred to the tee knife by means of a pulse. After the pulse transmission, the kinetic energy is then composed of the energy supplied via the driven actuating element, in the present case the pneumatic cylinder, and the kinetic energy of the accelerated mass, which was transmitted to the knock-off knife by the energy storage device by means of a pulse.

The embodiments according to FIGS. 6 and 7 are characterized in particular by the fact that the bearing about which the knock-off knife with the cutting blade 14 rotates centrally between the energy storage element 21 or 30 and the actuating element 70 , which is a pneumatic or also a Hydraulic element can be arranged. Referring to FIG. 6, the actuating element is a hydraulic cylinder, with a support element 71. If the tee knife is actuated, the support element is brought out of contact with the tee knife, for example by evacuating the hydraulic cylinder. As a result, the compensation of the restoring force exerted by the spring 30 is no longer applied, and the potential energy stored in the spring is converted into kinetic energy of the knock-off knife for severing the web 4 . Referring to FIG. 7, the operating member as in the preceding figures comprises a pneumatic cylinder, the hinging the cutting blade. If the hydraulic cylinder is actuated and the tee knife is triggered, the potential energy stored by compression of the pressure chamber 21 can be converted into kinetic energy of the tee knife, and the paper web 4 is severed.

FIGS. 8 and 9 show further embodiments of the invention, in which the actuation of the cutting blade is carried out by means of a compressed air jet. The tee knife 1 is rotatably supported in a bearing in a solid bearing block 20 . The bearing block 20 has a V-shaped cutout 83 . In the bottom 84 of the V-shaped cutout 83 of the bearing block 20 , a plurality of openings 90 are arranged one behind the other. The openings 90 are connected via channels 91 to a compressed air hose 92 which is embedded in the bearing block 20 and which lies within a pressure chamber 21 . In the rest position, the tee knife is in contact with the underside of the V-shaped cutout 84 . If the knife is to be actuated, compressed air flows from the compressed air hose 92 through the channel 91 to the opening 40 . By the entrained with the flow, the tee knife 1 is actuated and accelerated to a speed V₂ at which the paper web 4 is cut.

The rotational movement of the knife 1 is limited by the top of the V-shaped cutout 84 .

Optionally, according to the embodiment shown in FIG. 9, it would also be possible to combine an energy storage device or an energy storage system with a pulse acceleration device in the form of a spring 30 . Other energy stores such as filled elastic compressed air hoses etc. would also be conceivable. The spring is in the compressed state when the cutting knife 1 , as shown, assumes the rest position. So that the knife is not activated unintentionally by the energy stored in the spring, the knock-off knife is fixed in the position shown by a hold-down device 95 . If the knife is released, a flow pulse is applied to the knock-off knife in a time-coordinated manner and the hold-down device 95 is pivoted into the position shown in broken lines, as a result of which the energy stored in the spring is suddenly released and the knock-off knife is accelerated in addition to the pulse transmission. As a modification to the embodiment according to FIG. 8, 90 nozzle heads 97 are attached above the openings according to FIG. 9. The compressed air nozzles 97 thus formed can be arranged so as to distribute the stored compressed air from the pressure chamber over the width of the machine, so that a relatively homogeneous pressurization of the knife when actuated is ensured.

With the present invention, it is possible compared to the prior art Technology a significantly higher speed of the cutting knife Cut through a running web. This makes it u. a. possible to achieve very straight cutting lines.

Claims (25)

1. Tee knife for cutting a running web, in particular a paper web

• 1.1 with an actuating device for actuating the cutting knife, characterized in that
• 1.2 the actuating device comprises at least one energy storage device, wherein at least part of the stored energy after actuation is converted into kinetic energy of the acceleration movement of the knock-off knife.

2. Device according to claim 1, characterized in that the energy storage device comprises a pressure chamber ( 21 ). 3. Apparatus according to claim 2, characterized in that the pressure chamber ( 21 ) is arranged such that the energy stored therein is fed to the knock-off knife ( 1 ) when actuated as a compressed air jet and converted into acceleration movement of the knife. 4. The device according to claim 2, characterized in that the pressure chamber ( 21 ) is arranged such that the stored energy by discharging the compressed air from the pressure chamber ( 2 ) is fed to the knock-off knife ( 1 ) upon actuation and is converted into acceleration movement of the knife . 5. The device according to claim 1, characterized in that the energy storage device comprises a biased knock-off knife ( 1 ) which relaxes when actuated. 6. The device according to claim 1, characterized in that the energy storage device comprises a spring ( 30 ). 7. The device according to claim 1, characterized in that the Energy storage device a device for accelerating a Mass includes. 8. The device according to claim 7, characterized in that the acceleration device comprises a pulse generator ( 60 ) for the tee knife ( 1 ). 9. The device according to claim 1, characterized in that the energy storage device comprises a combination of a pressure chamber ( 21 ) and a spring ( 30 ) or a prestressed knives ( 1 ). 10. The device according to claim 3 or 9, characterized in that compressed air nozzles ( 97 ) are distributed over the machine width for supplying the stored compressed air from the pressure chamber ( 21 ). 11. Device according to one of claims 1 to 10, characterized in that the knock-off knife ( 1 ) comprises materials with a particularly small, moving mass. 12. Device according to one of claims 1 to 11, characterized in that the knock-off knife ( 1 ) and the actuating device are arranged such that the speed at the tip of the knife is greater than the speed at the articulation point. 13. The device according to one of claims 1 to 12, characterized in that the cutting blade ( 14 ) of the knock-off knife ( 1 ) is inclined against the web running direction. 14. The apparatus according to claim 13, characterized in that the cutting blade ( 14 ) of the cutting knife is inclined so that the angle that results during the cutting process between the cutting knife and the web is less than 45 degrees. 15. The apparatus according to claim 14, characterized in that the cutting blade ( 14 ) of the knock-off knife ( 1 ) is inclined during the cutting process against the web running direction and the angle that results during the cutting process between the knock-off knife and the web ( 4 ) and the The speed of the material web and the feed speed of the cutting knife are coordinated with one another in such a way that the cutting edge on the material web is approximately a straight line. 16. A method for severing a running material web, in particular a paper web with the help of a knock-off knife, comprising the steps:

• 16.1 energy is supplied to a tee knife ( 1 ) which is in the rest position and is introduced into an energy store assigned to the tee knife;
• 16.2 the tee knife ( 1 ) is triggered by an actuating device after the energy store has absorbed at least part of the maximum storable energy, and the stored energy is transferred to the tee knife and converted into kinetic energy of the tee knife.

17. The method according to claim 16, characterized in that as an energy storage device, a compressed air is used and stored in the pressure chamber (21) energy is fed to the cutting blade by leakage of compressed air from the pressure chamber (21). 18. The method according to claim 16, characterized in that a compressed air device is used as an energy store and the energy stored in the pressure chamber ( 21 ) is supplied by discharging the compressed air from the compressed air chamber ( 21 ) when actuating the knock-off knife. 19. The method according to any one of claims 17 to 18, characterized characterized in that the compressed air reservoir continuously compressed air is fed. 20. The method according to claim 16, characterized in that a spring element ( 30 ) acts as an energy store. 21. The method according to claim 16, characterized in that a pneumatic cylinder ( 33 ) acts as an energy store. 22. The method according to claim 16, characterized in that a pneumatic cylinder in combination with a pneumatic storage chamber ( 54 ) acts as an energy dispenser. 23. The method according to claim 16, characterized in that as Energy combinations according to any combination of the energy stores claims 17-22 are used.   24. The method according to claim 12, characterized in that the stored energy to the tee meter by momentum transfer from a mass moving due to the stored energy a pulse generator is supplied. 25. A method for severing a running material web, in particular a paper web with the help of a knock-off knife, comprising the following steps:

• 25.1 energy is supplied to a tee knife in the rest position, which is introduced into an energy store assigned to the tee knife;
• 25.2 the knock-off knife is triggered by an actuating device after the energy store has absorbed at least part of the maximum storable energy, in such a way that a large part of the knife's kinetic energy is made available by the energy store.