This application is a U.S. national phase application based on International Application No. PCT/SE2009/050767, filed 18 Jun. 2009 that claims priority from Swedish Patent Application No. 0801602-4, filed 4 Jul. 2008.
The present invention relates to a device for cutting and removal of wires from bales, such as pulp bales, paper bales and the like.
When pulp or paper in the form of bales is to be dissolved for the final production of paper, the wires that keep the bales together must be removed. This may be done manually or mechanically. It is especially important to make sure that no wire remains with the pulp since this could cause great damage to the equipment in the following process steps.
The mechanical removal is usually carried out as a two-step operation. At first, the wires are cut off by means of one or more cutting devices and then the cut wires are removed. The removal is normally carried out by means of winding devices, which grab one end of the wire, or the centre of the wire and then rotate such that the wires are wound onto the device.
One such device is known from the American patent document U.S. Pat. No. 4,850,087. This known device is equipped with gripping members for transferring the wires from the place of cutting to the place of winding. This, however, adds another step, which makes the operation sensitive to possible errors.
In WO 9213768, a device is described in which the cutting and the removal are combined in one single elongated arrangement having an inner element and a surrounding tubular element, both comprising an indented edge, whereby the two elements rotate in relation to each other such that the wire is cut off and caught between the two elements, after which the elements rotate together to wind the cut wire around the arrangement.
A problem with this device is that the arrangement does not always grip the wires correctly, or on the contrary, the wires get caught between the two parts such that the operation has to be interrupted to release the wires. Furthermore, the arrangement needs a fairly complicated driving mechanism in order to accomplish all the steps.
Another problem is that it risks fraying the entire side of the bale since the cutting is carried out over the whole side of the bale instead of being centred at the positions where the wire is actually located. This results in wastage, which is undesired since it requires cleaning of the working area as well as decreases the degree of capacity utilisation of the bale material.
An object of the invention is to provide an improved device for the cutting and removal of wires from bales, which is reliable and easy to implement and which solves the above mentioned problems.
The said objects are obtained by means of the device, as disclosed in the claims, for the cutting and removal of wires from bales, such as pulp bales, paper bales and the like, which device is intended to remove all wires from a bale that is provided with at least two wires. The device comprises two cutting units and two winding units that are positioned pairwise opposite each other, on one side each of a working location W, for the pairwise cutting off and removal of two wires that are arranged in parallel.
Preferably, a turning tool or turning plate is arranged at the centre of a working location W, in which the bale is intended to be positioned when its wires are cut off and removed from it, whereby the cutting unit and the winding unit are positioned opposite each other, on one side each of the working location (W), and whereby the turning tool or turning plate is arranged to be able to turn the bale 90° to relocate it into a position in which wires placed crosswise with respect to the first wires may be cut off and unwound.
Preferably, there are also driving units arranged to move the cutting unit and the winding unit towards and from the centre of the working location, between a working position, in which they are to be positioned when the wires are to be cut off and unwound, and a resting position, in which they are to be positioned out of reach of the bale when it is turned.
Moreover, conveyor belts may be arranged to transport the bale into and out of the working location (W), respectively.
As a result of the above disclosed device and cutting unit, an efficient and reliable cutting of bale wires is achieved, which reduces the wastage of pulp in connection with cutting of the wires.
An additional advantage of the invention is that the driving of the different tools for winding and for cutting may be the same. The only thing that has to differ between the two devices is the head of the tool, where the cutting tool shall be provided with two opposite surfaces, of which at least one is sharp, while the winding tool is instead provided with a gripping appliance for picking up the wires.
The invention, together with further objects and advantages thereof, are best understood with reference to the accompanying description and the enclosed drawings, of which:
In the drawings, similar or corresponding details are indicated by the same reference signs.
In the following, the general function of the device will be described with reference to the
The cutting units 2, which in
The winding units 3 are positioned opposite of the cutting units 2 and are designed correspondingly. Accordingly, the winding units 3 each comprise an winding tool 30 (shown in
The first step in the process for wire removal involves bringing the bale to the working location W, in which its centre of gravity is intended to rest directly above the sliding plate 4. This is achieved by means of the first conveyor belt 6a, which drives the bale towards the working location W at the same time as the cutting units 2 and the winding units 3 are retracted in order not to disturb bringing in the bale to the working location W. When the bale has been brought in, such that it is positioned directly in front of the cutting units 2 and the winding units 3, it should however be adjusted such that its sides are completely aligned with the units 2 and 3. The bale normally has the form of a rectangular parallelepiped but is seldom shaped like a cube. It is usually provided with 1-4 wires. In the case where it is provided with four wires, these run pairwise around the bale in two directions, whereby the first pair is removed at a first position, after which the bale is rotated 90° such that the second pair may be removed.
The positioning of the bale is carried out by raising the sliding plate 4, after which the units 2 and 3 are being brought towards the bale. Since the weight of the bale is positioned directly above the sliding plate 4, the bale may be rotated freely with respect to the sliding plate without a risk of turning over. Consequently, the bale will automatically become positioned when the units 2 and 3 are brought in towards the bale. At this moment, the tools 20 and 30 of the units 2 and 3, respectively, are retracted such that the bale can only come into contact with the flat front portion 21 and 31 of the units 2 and 3, respectively, such that it can slide with respect to these and thereby straighten itself up to the desired position. Once the bale has been positioned, it is time to position the respective tools in front of the wires. This is achieved by means of sensors 27, 37 (shown in
After said positioning has been completed, the cutting and removing of wires may start. The tools are thus being brought out through the fronts 21, 31, respectively, in recesses 22, 32 designed for this purpose. When the tools are being brought out they are arranged in a gripping mode such that they catch the wires on each side of the bale. Next, the wire is cut off on one side of the bale, whereupon it is wound onto the wire removing tool on the opposite side of the bale. During this moment, the bale may advantageously still remain standing on top of the sliding plate 4, such that there is no risk of the wires getting caught between the bale and the conveyor belts as they are being wound onto the wire removing tool 30 and one end of the wire is being drawn under the bale. A further advantage of this is that the edges of the bale do not risk getting destroyed, which otherwise often happens as the wire is being drawn under the bale when resting on a flat base.
The next step constitutes rotating the bale such that the remaining two wires may be removed. This is done by retracting the cutting units 2 and the winding units 3, after which the turning tool 5 is being raised into contact with the bale. The turning tool 5 is formed as an antenna and provided with eight spikes that are designed to pin the bale in order to fix it to the turning tool. Subsequently, the turning tool 5 and the bale are turned 90°, at which the second pair of wires will face the tools such that they may be removed. After the said turning, the turning tool 5 is lowered while the sliding plate 4 stays in its raised position, such that the bale again rests on the sliding plate. Next, the units 2 and 3 are brought in towards the bale, and the steps described above are repeated for the remaining two wires.
In the following, the cutting units 2 and the winding units 3 will be described more in detail with reference to
As described above and which is apparent from
In
In
The cutting is achieved by rotating the shaft 10 clockwise such that the cutting edge of the inner cutter 29 catches the wire 9 and brings the said wire towards the cutting edge of the outer cutter 28, and the wire is cut off when the cutting edges of the cutters pass each other. The cutting edges of the cutters are slightly inclined inwards to catch the wire 9 more easily and thereby prevent the wire from sliding out from between the cutters. After the cutting is completed, the cutters of the cutting tool may be brought back to the starting position and the entire tool may advantageously also be retracted through the recess 22 in order to be protected by the front portion 21.
It is very advantageous that the cutting units 2 and the winding units 3 are constructed in the same way. The only constructional difference between the respective units is the tools 20 and 30 and the form of the recesses, i.e. how the recesses are formed on the respective front 21 and 31. As to the rest, the units may be identical, which of course yields large profits, both as a result of lower production costs and thanks to less complicated maintenance due to fewer different components.
The two kinds of units are also functionally very similar. Thus, to localise the wire and position the winding unit 3 correctly with respect to the wire 9, the sensor 37 is utilised. After the winding unit 3 has been positioned in front of the wire 9, the winding tool 30 is brought out through the recess 32 in the front portion 31. As the tool is brought out, the tongues 38a of the reel 38 are preferably positioned to the sides such that a vertical opening is formed between them, in which the wire 9 may be picked up. As the wire is then cut off on the opposite side of the bale, the winding may be started immediately. Consequently, there is suitably some kind of steering device that correlates the performance of the winding unit to the performance of the cutting unit.
The winding of the wire from the bale is carried out by letting the reel rotate counter clockwise to make use of the skew setting of the tongues and to grab the wire between them until the whole wire is wound onto the reel. Once the wire is wound up to the extent shown in
The invention has been described with reference to an exemplifying embodiment. To a person skilled in the art it is however obvious that the invention may be designed in a large number of ways without departing from the inventive thought or its scope of protection, which is only limited by the enclosed claims.
While the present invention has been described in accordance with preferred compositions and embodiments, it is to be understood that certain substitutions and alterations may be made thereto without departing from the spirit and scope of the following claims.
Number | Date | Country | Kind |
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0801602-4 | Jul 2008 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE2009/050767 | 6/18/2009 | WO | 00 | 12/22/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2010/002336 | 1/7/2010 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3513522 | Thomson | May 1970 | A |
4850087 | Gronau | Jul 1989 | A |
5052098 | Thumm | Oct 1991 | A |
5163216 | Ercums et al. | Nov 1992 | A |
5297329 | Santin et al. | Mar 1994 | A |
5680691 | Marom et al. | Oct 1997 | A |
6393688 | Axner | May 2002 | B1 |
7152634 | Peters et al. | Dec 2006 | B2 |
8160748 | Pienta et al. | Apr 2012 | B2 |
20110100174 | Norberg et al. | May 2011 | A1 |
Number | Date | Country |
---|---|---|
06-239323 | Aug 1994 | JP |
WO-9217373 | Oct 1992 | WO |
Number | Date | Country | |
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20110113941 A1 | May 2011 | US |