The invention relates to a debarking mechanism for the decortication or pretreatment of logs for separately performed final debarking and for the discharge of at least some of the bark removed from a log stream passing through the debarking mechanism, the debarking mechanism comprising a number of rotatable debarking shafts extending parallel to the advancing direction of the logs to be fed therethrough, which are provided with a number of teeth extending beyond the circumferential surface of the shaft and arranged to strip bark off the logs being processed, transversely to the longitudinal direction of the logs, and at the same time to convey the logs transversely relative to the said shafts, the said shafts, together with the teeth thereof, being arranged to form at least a part of a support surface, on which the logs being processed travel through the debarking mechanism, and the said debarking shafts being arranged relative to each other in such a way that the logs being processed perform a rotary motion in the debarking mechanism, in which motion the logs on the support surface formed by the debarking shafts, are forced, in their turn, by the effect of the rotary motion of the debarking shafts, into the upper position, from which they roll down into the lower position on top of the other logs in the debarking mechanism.
This type of prior known debarking mechanisms are provided with fingerplates between the uppermost debarking shaft and the side wall of the debarking mechanism—in some mechanisms also between the debarking shafts—to prevent logs from being wedged between the debarking shaft and the side wall of the debarking mechanism or between two debarking shafts, and thus to prevent the wedged log from being broken.
The bark can usually be discharged from between the debarking shaft and the fingerplate or between two debarking shafts. Bark detached from the logs in long strips causes problems by clogging the gaps between the uppermost debarking shaft and the related fingerplates, thus causing the bark to collect into big clots at these uppermost fingerplates.
In order to eliminate these disadvantages, the debarking mechanism of the invention has been arranged in such a way that of the debarking shafts forming the said part of the support surface for the logs, at least the uppermost debarking shaft has been moved sideways towards the inner part of the debarking mechanism in such a way that the said debarking shaft directs an impact effect on logs colliding with it and moved by the debarking shafts located in a lower position, due to the effect of which the direction of movement of the logs having collided with the said debarking shaft will change in such a way that, when dividing the movement into a horizontal and a vertical component, the horizontal component of movement will point towards the inner part of the debarking mechanism, that the circumferential speed of the debarking shaft is selected to be the greater the higher the debarking shaft is positioned, and that a free passage has been arranged for the bark passing over the uppermost debarking shaft, along which the bark is discharged from the debarking mechanism.
The new position of the uppermost debarking shaft has the effect that, at best, the logs cannot rise above this uppermost debarking shaft at all. The arrangement here is that a free passage is arranged for the bark passing over the uppermost debarking shaft, along which the bark is discharged from the debarking mechanism. This may be realized, for example, by arranging an opening in the side wall of the debarking mechanism at the uppermost debarking shaft, in such a way that the bark conveyed by the uppermost debarking shaft are removed from the debarking mechanism through the said opening.
It is further arranged that the higher the position of the debarking shaft, the greater the selected circumferential speed of the debarking shaft. On the one hand, this arrangement prevents the logs from being wedged between the debarking shafts and, on the other hand, facilitates the discharge of the bark from debarking mechanism.
After the said uppermost debarking shaft may of course also be arranged further debarking shafts or similar means, for example, for the further conveyance of the bark. What is essential, however, is that any such additional shafts are no longer comprised in the above-mentioned support surface formed by the debarking shafts, on which surface the logs being processed travel through the debarking mechanism. The purpose of the said uppermost debarking shaft is precisely to prevent the logs from entering the area above the said support surface.
Normally, however, provisions must be made for the logs at least occasionally rising above the uppermost debarking shaft. For such a case, the arrangement is preferably such that a guiding surface is fitted in conjunction with the uppermost debarking shaft, the said guiding surface forming, together with the uppermost debarking shaft, a slot converging in the direction of rotation of the debarking shaft. On the one hand, a guiding surface of this type facilitates the entry of the bark into the said slot and, on the other hand, prevents the logs from entering into the slot between the guiding surface and the uppermost debarking shaft.
The guiding surface is preferably provided with grooves for interlocking the said guiding surface and the teeth of the uppermost debarking shaft.
A freely rotating roller or a roller rotated by a suitable actuator has proven to be the most efficient embodiment of the guiding surface.
The invention will be described in greater detail in the following, with reference to the accompanying drawings, in which:
The debarking mechanism 1 shown in the drawings is intended for the decortication or pretreatment of logs 2 for separately performed final debarking and for the discharge of at least some of the bark removed from the wood stream passing through the debarking mechanism.
The debarking mechanism 1 comprises a number of rotatable debarking shafts 3, 3′ extending parallel to the advancing direction A (
To rotate the shafts 3, 3′, one or both of their ends is provided with, for example, a sprocket 14. The shafts 3, 3′ are rotated in the direction of the arrow 5 (
The debarking shafts 3, 3′ are provided with a number of teeth 4 extending beyond the circumferential surface of the debarking shaft and arranged to strip bark off the logs 2 being processed transversely to the longitudinal direction of the logs and at the same time to convey the logs transversely relative to the said debarking shafts.
The debarking shafts 3, 3′, together with the teeth 4 thereof, form a part of the support surface carrying the logs 2 through the debarking mechanism 1.
The debarking shafts 3, 3′ are arranged with each other in such a way that the processed logs 2 perform a rotary motion C 12 in the debarking mechanism, in which motion the logs 2 are forced on the support surface formed by the debarking shafts 3, 3′ by the effect of the rotary motion 5 of the debarking shafts 3, 3′ in their turn into the upper position, from which they roll down into the lower position on top of the other logs 2 being processed in the debarking mechanism 1.
In the prior art
However, especially bark detached in long strips sometimes causes problems by clogging the gaps between the uppermost debarking shaft 3′ and the related fingerplates 11, thus causing the bark to collect into big clots at these uppermost fingerplates 11.
To eliminate the said problem,
In a solution according to the invention, the circumferential speed of the debarking shaft 3, 3′ is selected to be the greater the higher the debarking shaft 3, 3′ is positioned. On the one hand, this arrangement prevents the logs 2 from being wedged between the debarking shafts 3, 3′, and on the other hand facilitates the removal of the bark from the debarking mechanism 1.
When the selected sideways movement of the debarking shaft 3′ is extensive enough, the logs 2 are prevented from passing beyond the uppermost debarking shaft 3′. Only the bark can pass beyond the uppermost debarking shaft 3′, whereby a free passage 7 has been arranged for this bark, along which it can be removed from the debarking mechanism 1.
In the example of
In the solution according to
In the example of
The guiding surface 8 is—regardless of whether it is a rotating or fixed guiding surface, or whether the guiding surface has a plate-like, cylindrical or some other form—preferably provided with grooves 10 for interlocking the said guiding surface and the teeth 4 of the uppermost debarking shaft 3′ and for thus forming a slot 9 of the desired size (
Number | Date | Country | Kind |
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20045140 | Apr 2004 | FI | national |
This application is a divisional of U.S. application Ser. No. 11/568,129 filed on Oct. 20, 2006 which is a US national phase of international application PCT/FI2005/050126 filed 19 Apr. 2005 which designated the U.S. and claims benefit of FI 20045140 filed 20 Apr. 2004, the entire contents of which are hereby incorporated by reference.
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Number | Date | Country | |
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20120024426 A1 | Feb 2012 | US |
Number | Date | Country | |
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Parent | 11568129 | US | |
Child | 13235734 | US |