EP2302997A1 - Abatteuse-ébrancheuse pour l'exploitation forestière et procédé de récolte du bois employant l'abatteuse-ébrancheuse - Google Patents

Abatteuse-ébrancheuse pour l'exploitation forestière et procédé de récolte du bois employant l'abatteuse-ébrancheuse

Info

Publication number
EP2302997A1
EP2302997A1 EP09793998A EP09793998A EP2302997A1 EP 2302997 A1 EP2302997 A1 EP 2302997A1 EP 09793998 A EP09793998 A EP 09793998A EP 09793998 A EP09793998 A EP 09793998A EP 2302997 A1 EP2302997 A1 EP 2302997A1
Authority
EP
European Patent Office
Prior art keywords
delimbing
harvester
tree
blades
frame
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP09793998A
Other languages
German (de)
English (en)
Inventor
Jussi-Pekka Usenius
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP2302997A1 publication Critical patent/EP2302997A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27LREMOVING BARK OR VESTIGES OF BRANCHES; SPLITTING WOOD; MANUFACTURE OF VENEER, WOODEN STICKS, WOOD SHAVINGS, WOOD FIBRES OR WOOD POWDER
    • B27L1/00Debarking or removing vestiges of branches from trees or logs; Machines therefor
    • B27L1/005Debarking by non-rotatable tools
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G23/00Forestry
    • A01G23/02Transplanting, uprooting, felling or delimbing trees
    • A01G23/08Felling trees
    • A01G23/083Feller-delimbers

Definitions

  • the invention relates to a harvester for timber harvesting, which includes a frame to be attached to the boom of a work machine, to which frame are fitted
  • delimbing-blade arrangement which includes one or more delimbing blades, and - a feed device equipped with rotating members for delimbing a tree using the delimbing-blade arrangement .
  • the invention also relates to a method for timber harvesting using the harvester.
  • delimbing harvesters known from the prior art become mechanically complicated, if a bundle-tree processing functionality is implemented in them.
  • a bundle-tree processing implementation requires additional claws. These can be used to hold trees already gathered to the harvester while additional trees are gathered to the harvester. The additional claws require their own operating device, which complicates the technical implementation of the harvester.
  • the invention is intended to create a delimbing harvester for timber harvesting, the power requirement of which is substantially smaller than that of the prior art and which can thus also be used with low-powered harvesters.
  • the invention is also intended to create a corresponding method, in which the delimbing to be performed during timber harvesting can be performed using a substantially smaller power require- ment.
  • the harvester includes pulsed-feed means, which are arranged to be activated when a resistance according to a set criterion is detected in the feed device.
  • the delimbing functionality is divided surprisingly into two parts.
  • the available power is divided ingeniously, in such a way that basic delimbing and problem locations interfering with it can be dealt with using a relatively small power requirement.
  • the problem-free basic delimbing is based on a relatively fast low-power feed, which is performed using a feed device.
  • a short impact with a relatively large force is directed at the delimbing location, for example a branch whorl, which when repeated one or more times allows the recom- mencement of the basic delimbing using the fast and low-power feed.
  • Both stages which take place at different times, permit a relatively small power requirement, so that the harvester according to the invention can also be used in work machines with a limited power output.
  • a harvester can be equipped with a relatively low-power feed device.
  • the resistance in the passage of a tree can be detected, for example, by monitoring the operation of the feed device, for example, from an increase in the pressure of the feed device, or by an action by the operator of the harvester.
  • pulsed-feed means are arranged to pull the tree through the delimbing-blade arrangement.
  • the harvester can include gripping members to grip the trunk of the tree and pull it through the delimbing-blade arrangement.
  • the gripping members are 'arranged to be supported by the pulsed-feed means, relative to the frame of the harvester. The rotation movement takes place at a large radius .
  • At least some of the delimbing blades are installed to be movable axially, i.e. parallel to the feed direction of the tree and they are operated by the operating device in axial direction.
  • the relative pulsed motion between the tree and the one or more delimbing blades can be .repeated until the feed-device drive can again transport the tree through the delimbing-blade arrangement.
  • the pulsed motion can be boosted by locking the feed device, or by using mechanical gripping members to hold the tree in place.
  • it is possible to exploit the inertia of the mass of the harvester and the tree being delimbed. It is not even necessary to lock the feed device, because the rapid and short stroke is partly supported by the mass inertia.
  • a compact delimbing arrangement in which the blades delimbing the tree from different sides can rotate to overlap each other enables, for its part, the shortness of the stroke.
  • the work edges of the blades delimbing the tree from different sides are close to each other axially.
  • the harvester according to the invention is eminently suited to work machines with limited power output, for example, tractors.
  • the frame of the harvester can be made very light, which is advantageous in many ways.
  • Figures 1 - 4 show one embodiment of the harvester, seen from different directions
  • Figure 5 shows a cross-sectional side view of the harvester
  • Figure 6 shows a front view of the delimbing-blade arrangement when closed
  • Figure 7 shows a top view of the delimbing- • blade-arrangement according to Figure 6,
  • FIGs 8 and 9 show the delimbing-blade arrangement, with the blades in the tightest position
  • Figure 10 - 12 show the delimbing-blade arrangement when opened wide
  • Figures 13 - 16 show examples of the opening angles of the delimbing-blade arrangement
  • Figure 17 shows a cross-section of the delimbing-blade arrangement together with a tree being delimbed
  • Figure 1! shows the principle of another way to implement pulsed delimbing
  • Figures 19 - 23 show one embodiment based on the principle shown in Figure 18.
  • Figures 1 - 4 show a first embodiment of the harvester for timber harvesting, seen from different directions, while Figure 5 shows a vertical cross-section from the centre of the harvester.
  • the harvester is shown in an angled front view, in Figure 2 in a rear view, in Figure 3 in a bottom view, and in Figure 4 in a top view.
  • the timber harvested by the harvester can be, for example, energy timber, fibre timber, or even logs.
  • the harvester is suited to harvesting small trees, which are generally harvested, for example, in connection with first thinning, or when clearing out a neglected forest, because the work machine, to which the har- vester can be attached, can even have a very light construction.
  • Small timber is typically defined as trees with a trunk diameter of, for example 40 - 300 mm, and more particularly 50 - 250 mm. Small timber can be harvested, for example, one trunk at a time, or also as bundle harvesting, in which case there can be several trunks at the same time in the harvester grab for processing.
  • the harvester includes a frame 10 that can be attached to the boom (not shown) of a work machine.
  • the attachment can be made by means of a rotator, a tilting device (not shown) and an adapter piece 21.
  • the two-arm adapter piece 21 can be pivoted to both sides of the frame 10 and permit a slightly swinging motion for it.
  • the tilting device 34 can also be in the harvester itself ( Figure 2) .
  • a cutting device 11, 12, a delimbing-blade arrangement 13, and a feed device 25 are fitted to the harvester's frame 10 as basic functionalities.
  • the cutting device includes two cutting blades 12 fitted to the lower part of the frame 10 and equipped with an operating device 11, at least one of which blades can be pivoted to the frame 10.
  • the cutting device can also be a chain saw (not shown) , pivoted to the frame 10, or the single blade 12 shown in Figures 19 - 23.
  • the delimbing-blade arrangement 13 which is in the upper part of the frame 10, includes one or more delimbing blades 13.1 - 13.3 arranged to form a delimbing circle, the detailed construction of which will be returned to slightly later hereinaf- ter.
  • the feed device 25 remaining between the cutting device 11, 12 and the delimbing-blade arrangement 13 includes rotating members 14 equipped with an operating device 15, which are, in the case according to the embodiment, rollers.
  • the roller-feed device 25 can be, for example, one according to the prior art.
  • the feed can also be based on crawler tracks, or even on a feed device implemented by hydraulic cylinders.
  • the following is a depiction of the joint operation of the basic functionalities when processing timber with a harvester according to the first embodiment.
  • the cutting blades 12 and the feed rollers 14 can be in the open position, i.e. ready to receive a tree for processing by the harvester.
  • the delimbing-blade arrangement 13 can also be in the open position, or alterna- tively also surprisingly still closed due to its special pick-up principle, which will be explained slightly later hereinafter.
  • the delimbing-blade arrangement 13 makes contact with the tree, as a result of which the blades 13.1 - 13.3 belonging to the arrangement 13 surround the tree mainly entirely from each side.
  • the blades 13.1 - 13.3 adjust to the thickness of the trunk of the tree and remain close to the trunk 22 of the tree at the base of a branch.
  • the trunk of the tree can be cut through by means of the blades 12 moving against each other and pivoted to the frame 10 of the harvester.
  • the feed rollers 14 pivoted to the frame 10 can be pressed against the tree, in order to run the tree through the harvester and thus to strip it using the delimbing-blade ar- rangement 13.
  • the compression cylinder 26 of the feed roller 14 is visible in Figure 5.
  • the cutting blades 12 are opened and the tree, which has been felled as a result of the cutting is delimbed by running it axially through the delimbing-blade arrangement 13 by means of the feed device 25.
  • the tree can then move relative to the blade arrangement 13, when the feed device 25 moves the tree, or also the blase arrangement 13 can move relative to the tree, in which can the feed device 25 moves the harvester totality itself in the axial direction of the tree.
  • the arrangement 13 strips the branches off the tree when they pass the blades 13.1 - 13.3 of the arrangement 13. In a normal case, i.e.
  • the harvester includes pulsed-feed means 19, 30, which are arranged to be activated when a resistance according to a set criterion is detected in the feed device 25, when the movement of the tree 22 essentially stops, or substantially slows, for example, due to insufficient power and/or adhesion in the feed device 25.
  • At least one of- the delimbing blades 13.1 - 13.3 of the delimbing-blade arrangement 13 sur- prisingly includes pulsed-feed means 19 for delimbing ' the tree 22.
  • the pulsed-feed means 19 By means of the pulsed-feed means 19, the local jam in the travel of the tree can be overcome and the tree can then continue its journey through the harvester, for example, by means of the feed device 25 based on rotary movement.
  • a jam in the passage of the tree i.e. the meeting of a set criterion concerning the travel of the tree through the delimbing-blade arrangement 13 can detected, for example, by detecting a resistance according to a set criterion in the feed device 25. If the feed device 25 is driven by an incompressible liquid, its flow through -the feed device 15, 25 can be monitored and the stopping of the feed device 25, or a corresponding exceptional situation can be detected, for example, by an increase in pressure or similar change in the liquid, for which at least one criterion value is set.
  • the pulse-feed means 19 can activate and consequently create at least one axial impact movement in the delimbing-blade arrangement 13, which is directed to the point in the tree that has caused the resistance of the magnitude of the criterion set for it.
  • the impact movement consists of a two-way movement, a powered impact directed to the tree point and the return movement of the delimbing-blade arrangement 13.
  • the rotation of the feed rollers 14 can be locked, but in some cases they can even be left un- locked.
  • the tree 22 is intended to remain mainly immobile during the use of the pulsed-feed means 19 connected to the delimbing-blade arrangement 13.
  • the resistance can also be understood as a loss of adhesion appearing in the feed device 25, in which case the rollers 14 of the feed device 25 slip and rotate on the trunk of the tree 22 without transmitting power.
  • points in a tree that cause resistance are branches and particularly branch whorls, for example, at points of yearly growth, especially in coniferous trees.
  • the jamming of the travel of the tree can also be caused by a single branch or equally by a local bend in the trunk of the tree.
  • the stropping of the movement of the tree can also be detected by the operator of the harvester, who can then activate the pulsed feed manually.
  • the pulse-feed means 19 can be given in a sustained-fire form as long as the resistance criterion is seen / detected to be met.
  • the blade arrangement 13 can be used to impact the branches located at the corresponding point until they are totally cut through, or their attachment to the tree is substantially weakened and the tree can again be made to move and be delimbed using only the feed-device drive.
  • Intermediate cutting with the cutting blades 12 can also form part of the delimbing of the tree.
  • Figures 6 - 16 shows the basic principle of the delimbing-blade arrangement 13 seen from different directions and with the blades in different positions.
  • the 10 can include a total of three delimbing blades 13.1 - 13.3. At least two of the delimbing blades 13.1, 13.3 can be rotatable horizontally relative to at least one pivot point 35, while one delimbing blade 13.2 remains between the rotatable blades 13.1, 13.3.
  • the rotatable delimbing blades 13.1, 13.3 can be on arms
  • the delimbing blades 13.1, 13.3 and their arms 16 also simultaneously form a loader grab.
  • the delimbing blades 13.1, 13.3 that turn inwards permit the tree 22 being delimbed to be gripped and picked up into the
  • delimbing circle formed by the delimbing-blade arrangement 13 when closed ( Figures 7 and 8).
  • the delimbing blades 13.1 - 13.3 are operationally arranged relative to each other in such a way that they can be used mainly to strip the tree entirely. This property is improved by the double-pivoting of the delimbing
  • the delimbing blades 13.1 - 13.3 are arranged at different heights relative to each other. Thus, as they rotate, they turn towards each other and overlap each other.
  • the delimbing blades 13.1 - 13.3 are arranged at different heights relative to each other. Thus, as they rotate, they turn towards each other and overlap each other.
  • the delimbing blades 13.1 - 13.3 are arranged at different heights relative to each other. Thus, as they rotate, they turn towards each other and overlap each other.
  • the delimbing blades 13.1 - 13.3 are arranged at different heights relative to each other. Thus, as they rotate, they turn towards each other and overlap each other.
  • the delimbing blades 13.1 - 13.3 are arranged at different heights relative to each other. Thus, as they rotate, they turn towards each other and overlap each other.
  • the delimbing blades 13.1, 13.3 at the opposite end of the arms 16 are at different heights. This permits the blades 13.1, 13.3 to rotate to overlap each other. Thus, trees can be delimbed irrespective of their diameter, because the delimbing circle formed by the blades 13.1, 13.3 can be made surprisingly small ( Figure 8) .
  • the rotation of the blades 13.1, 13.3 to overlap each other also permits the required pulse length S to remain surprisingly short (Figure 5) .
  • the static blade 13.2 remaining between the blades 13.1, 13.3 has a flange-like asymmetrical construction. The asymmetry allows the rotatable blades 13.1, 13.3 to be rotated to overlap the static blade 13.2, thus making the blade pack 13 low and allowing the pulse to be surprisingly short.
  • Figure 8 shows very clearly the overlapping of the blades 13.1 - 13.3, in which the blade 13.1 is on top of the static blade
  • the blade 13.2 and the blade 13.3 is under the static blade 13.2.
  • the asymmetry of the blade 13.2 allows even a slightly slicing cut to be directed to a branch to be cut.
  • the slanting nature of the blade 13.2 also allows the tree trunk to rotate slightly as it travels through the arrangement 13. The slight rotation of the tree trunk improves its delimbing throughout.
  • the fixed blade 13.2 can also be slightly curved in the circumferential direction of the tree ( Figures 7 and 8) .
  • Both arms 16 are pivoted in vertical guides 17 fitted to both edges of the frame 10.
  • the arms 16 can move axially in the guides 17 when the pulsed-feed means 19 move them, so- that the guides 17 on both sides provide the blades 13.1, 13.3 with a directionally stable motion, which is directly precisely at the base of the branch to be delimbed.
  • a vertical operating member 19 is fitted to the auxiliary frame 18 and to one end of the frame 10, in order to create a pulsed feed for at least one of the delimbing blades 13.1 - 13.3 fitted to the auxiliary frame 18. Only the piston rod 19' of the operating member is shown in Figure 17.
  • the arms 16 in the guides are of a very light construction, they are nevertheless very durable.
  • the arms 16 rotating horizontally can also have their own guides in the frame 10, but being in common linear guides 17 with the auxiliary frame 18, the construction remains simple.
  • the feed rollers 14 need not necessarily be locked at all during pulsed delimbing, though delimbing with the rollers 14 locked will ensure that the tree . does not move axially during pulsed delimbing. Leaving the feed rollers unlocked achieves the advantage of permitting the feed-roller drive to be recommenced more rapidly.
  • the delimbing-blade claws 13.1 are identical to one embodiment.
  • the delimbing blades 13.1 - 13.3 can be pivoted to the arms 16 in such a way "that -they can be used to gather additional trees into the delimbing circle formed by the blades 13.1 - 13.3, as well as the trees that may be there already.
  • the delimbing blades 13.1 - 13.3 can be mounted on the arms 16 in such a way that they return spontaneously to the delimbing position defined by the delimbing circle, i.e. they turn back to return by themselves.
  • One example for implementing a self-returning enclosure and the inwardly opening of the delimbing circle 13.1, 13.3 is a spring or some elastomer.
  • the springs 41 and stops can be integrated, for example, in the pivots 35 at the ends of the arms 16 ( Figure 7) . One end of the spring 41 can then be se- cured to the arm 16 and the other end to the pivot point 35 of the rotatable delimbing blades 13.1, 13.3.
  • the blades 13.1, 13.3 fitted to the ends of the arms 16 can be equipped with an opening device (not shown) . This can be used to alter the position of the blades 13.1, 13.3 relative to the rotatable arms 16 ( Figure 12) . By means of the opening device, the blades 13.1, 13.2 are made to rotate to separate even more from each other and, on the other hand, also to close.
  • the circumferential frame 10 of the harvester can be formed of a tubular framework.
  • the harvester is made relatively light, which will release machine power, for example, for the drive of the feed rollers 14.
  • the light frame 10 such a great supporting capacity will not be required of the boom of the work machine.
  • the tubular frame allows the weight of the frame 10 to be as little as only a few tens of kilograms .
  • the delimbing-blade arrangement 13 can also include members 36 for performing bundle processing and delimbing.
  • a member 36 can be at least one wedge-like member, which divides the delimbing circle delimited by the delimbing blades 13.1 - 13.3 for the bundle processing of trees. If necessary, the member 36 can be retracted behind the blade 13.2 fitted to the auxiliary frame 18, between the attachment flanges 20 of the auxiliary frame 18 ( Figure 11), or then it can be rotated out of the way by a spring loading ( Figure 17, reference number 24), as shown by the cross-section of Figure 17.
  • a single wedge-like member 36 two trees at a time can be delimbed while with two members up to four trees can be delimbed at one time.
  • the member 36 can be part of the pulsed feed, or it can also lack pulsing.
  • Figure 8 shows an embodiment, in which the member 36 divides the delimbing circle formed by the blades 13.1 - 13.3 clearly into two parts.
  • the cross-section in Figure 5 shows an example of the. definition of the length of the pulse.
  • the length S of the stroke of the delimbing-blade arrangement 13 can, according to one embodiment, be determined on the basis of the distance H between the cutting edges of the rotatable blades 13.1, 13.2 and the maximum branch thickness of the trees intended to be delimbed by the harvester, being particularly the sum of these two factors. More particularly, the distance H refers to the distance from the cutting edge of the blade 13.3 in the lowest position to the cutting edge of the blade 13.1 in the upper position. In this case, the cutting edges of the blades 13.1, 13.3 their upper edges.
  • One example of the stroke is 5 - 250 mm, and even more particularly 40 - 150 mm.
  • the stroke is substantially shorter than the stroke of pulsed-feed harvesters known from the prior art, in which the tree is moved through the harvester by a pulsed feed.
  • the closing of the blades 13.1, 13.3 to overlap each other makes them low in height and thus the length of the pulse S remains surprisingly short.
  • the thickness of the branch depends, of course, on the tree being delimbed, but on average it can be 20 - 100 mm, more particularly 20 - 60 mm.
  • the length S of the pulse is arranged to be such that with a single stroke it is possible to cut through all the branches in a branch whorl.
  • the pulse length that remains relatively short accelerates the processing of the trunks.
  • delimbing blades 13.1, 13.3 equipped with pivots can be closed when approaching the tree 22.
  • the trunk 22 of the still standing tree is pressed against the delimbing blades 13.1, 13.3, at the same time opening the delimbing circle slightly using the arms 16, the blades 13.1, 13.3 of the closed system
  • the trunk 22 of the tree is used to load the return spring 41 fitted to the pivot 35 of the delimbing blades 13.1, 13.3, which gives way and allows the tree 22 to enter the delimbing circle when the arms 16 open.
  • the opened arms 16 are also turned towards each other, by means of which the delimbing circle is closed and a tight delimbing circle is ensured by a grab formed around the tree by the arms 16 and the blades 13.1,
  • this a dd i t i o n a 1 - c 1 a w 1 e s s bundle-processing implementation of the delimbing blades 13 can be applied in all harvesters, and is thus in no way restricted to the special roller-feed-pulsed-delimbing application described as an individual embodiment in the present application.
  • the delimbing blades 13.1, 13.3, which rotate inwardly and are pivoted on the arm 16 to return can permit a tree 22 to enter the delimbing circle formed by the delimbing blades 13.1 - 13.3, 36, if the tree 22 is pressed against the delimbing blades 13.1, 13.3 and at the same time the arms 16 are opened slightly.
  • the arms 16 and the blades 13.1, 13.3 fitted to them are arranged to permit the tree 22 to enter the delimbing circle formed by the delimbing blades 13.1 - 13.3, 36, if the tree 22 is arranged to be pressed against the delimbing blades 13.1, 13.3 by opening the arms 16 slightly, and then to return spontaneously to the basic position defined by the delimbing circle.
  • Figures 19 - 23 show a second embodiment of the harvester for performing pulsed delimbing, in which the delimbing of branches is boosted by a relatively short linear pulse in a drive based on a rotating motion. The rough operating principle of the embodiment is shown in the schematic Figure 18.
  • the embodiment can be implemented either together with the pulse arranged in the delimbing-blade arrangement 13 described above, or else by itself.
  • the delimbing-blade arrangement 13 can essentially linearly immobile in the frame 10 and thus very simple, because the linear-motion guides 17, the auxiliary frame 18, and the cylinder 19 attached to it are omitted from the construction.
  • the pulsed-feed means 30 can be used to pull a tree 22 through the delimbing-blade arrangement 13.
  • the traction takes place surprisingly from the opposite side of the feed device 25 to the delimbing-blade arrangement 13.
  • this embodiment provides advantages over the embodiment shown in Figures 1 - 17, because now the pulse cylinder 30 can be arranged closer to the tree 22 being delimbed and the edge of the frame 10 of the harvester guiding the travel of the tree 22.
  • One way to pull the tree 22 through the delimbing-blade arrangement 13 is to arrange gripping members 31.1, 31.2 in the harvester.
  • the gripping members 31.1, 31.2 can surprisingly be rotated relative to the frame 10 of the harvester by the pulsed-feed means 30.
  • the rotation movement is a rotatory movement with a wide radius .
  • a rotation frame 33 is pivoted at one end 37 to the frame 10, in the lower part of the harvester, i.e. on the opposite of the delimbing-blade arrangement 13 relative to the feed rollers 14.
  • a ⁇ tail' 38 is fitted to the main frame 10 of the -harvester .
  • horizontally rotating gripping members 31.1, 31.2 which can move towards or away from each other, are pivoted to the frame 33.
  • the gripping members 31.1, 31.2 are arranged as a compact package, being in connection with the cutting device 5 11, 12.
  • the blade 12 too can act as a gripping member.
  • the cutting device 11 consists of only a single rotating knife blade 12.
  • the rotating frame 33 can be formed of an open and hollow box-type structure, which provides a protected space 32 for the gripping claws 31.1, 10 31.2, the blade 12, and their rotation pivots and operating devices (not shown) .
  • the piston rod of the cylinder 30 returns the frame to the position shown by the reference number 33;
  • the grip of the grab claws 31.1, 31.2 on the tree 22 can be slackened and thus the tree 22 can be made to move over the
  • Figure 19 shows the harvester without a tree 22 and with the gripping claws 31.1, 31.2 ready to receive a tree. In normal,
  • the length of the pulse can be 100 - 250 mm, more particularly 100 - 150 mm, for example 120 mm.
  • the delimbing blades 13.1, 13.2 grip the trunk of the tree 22 in the line of the frame of the harvester during
  • a blade 12 in which there can be cutting toothing, can also be applied to adhesion. As the gripping claws 31.1, 31.2 and/or the blade 12 are in continuous contact with the trunk of the tree 22 when the tree
  • the toothing 40 or similar in them also breaks the bark of the tree 22 by peeling it, which beneficially affects the drying of the timber, particularly when collecting energy timber.
  • the gripping surface 40 of the claws 31.1, 31.2 can be arranged to react to the direction of movement, i.e. to activate in the direction of the work pulse.
  • the grip on the tree 22 will then tighten, when the pulse is activated and the claws 31.1, 31.2 move with the rotation frame 33, delimbing the tree 22 in the blade arrangement 33.
  • the grip on the tree 22 of the gripping surface 40 of the claws 31.1, 31.2 slackens and the tree 22 remains stationary in the axial direc- tion during the transfer.
  • the direction-of-travel-activated grip 40 achieves the advantage that during the activation of the pulse it is not essential to particularly increase the compressive force directed to the tree 22 by the claws 31.1, 31.2, but instead the surprisingly operating principle of the grips ensures that the grip on the trunk of the tree is sufficient to move the tree 22.
  • the elimination of the compression stage accelerates operation, thus saving time.
  • the invention also relates to a method in timber harvesting using a harvester.
  • the tree 22 is cut and run axially through the harvester using a feed device 25 while simultaneously delimbing the branches from it using a delimbing-blade. arrangement 13.
  • the operation of the feed device 25 is also monitored while the tree 22 is being run through the harvester. When a set criterion concerning the operation of the feed device 25 is met, the delimbing is performed momentarily as pulsed delimbing.
  • the delimbing-blade arrangement 13 and the tree 22 being delimbed are brought into a motion relative to each other in order to create at least one impact on at least one branch that is at the location of the delimbing-blade arrangement 13.
  • the delimbing-blade arrangement 13 can be used to give at least one branch at the location corresponding to it at least one impact and/or the tree 22 can be moved by an axial pulse, relative to the delimbing-blade arrangement 13.
  • the set criterion can be, for example, that the feed device 25 ceases to rotate and/or slips, relative to the tree 22.
  • the impacts can be given as a series, by repeating them, for example, until the set criterion concerning ⁇ the feed device 25 is met.
  • At least one tree 22 is picked into the delimbing circle formed by the delimbing arrangement 13 formed by the delimbing blades 13.1 - 13.3, 36 by approaching the tree 22 with the delimbing blades 13.1, 13.3, equipped with pivots 35, closed.
  • the pivoting 35 of the blades 13.1, 13.3 then permits the delimbing blades 13.1, 13.3 to move out of the way of the tree 22 being picked up.
  • the delimbing blades 13.1, 13.3 When the tree 22 is pressed against the delimbing blades 13.1, 13.3, and when the delimbing blades 13.1, 13.3 are opened slightly by rotating the arms 16, the delimbing blades 13.1, 13.3 turn inwards out of the way of the tree 22 and allow the tree 22 to enter the delimbing circle and return, for example spontaneously, to the delimbing position, in which they define the delimbing circle. After this, the delimbing circle can be closed around the trees by the arms 16 and the tree 22 can be cut. This is repeated, until the desired number of trees are in the delimbing circle. After this, delimbing is performed using the delimbing-blade arrangement 13.
  • the harvester's power requirement is surprisingly small relative to harvesters according to the prior art. For example, in pilot-stage tests delimbing could be performed on 200-mm tree trunks using a power of as little as only 15 kW, whereas in device according to the prior art the power requirement could be as much as 150 kW.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Forests & Forestry (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • Ecology (AREA)
  • Environmental Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Wood Science & Technology (AREA)
  • Harvesting Machines For Root Crops (AREA)
  • Harvesting Machines For Specific Crops (AREA)

Abstract

L'invention concerne une abatteuse-ébrancheuse pour l'exploitation forestière, qui comprend un cadre (10) à fixer sur le bras d'une machine de travail, et ce cadre est muni d'un dispositif de coupe (11,12), d'un ensemble de lames d'ébranchage (13), qui comprend une ou plusieurs lames d'ébranchage (13.1-13.3, 36), et d'un dispositif d'alimentation (25) équipé d'éléments rotatifs (14) pour ébrancher un arbre (22) au moyen de l'ensemble de lames d'ébranchage. L'abatteuse-ébrancheuse comprend des moyens d'alimentation pulsée (19,30) conçus pour s'activer lorsqu'une résistance conforme à un critère défini est détectée dans le dispositif d'alimentation. En outre, l'invention concerne également un procédé d'exploitation forestière employant l'abatteuse-ébrancheuse.
EP09793998A 2008-07-11 2009-07-10 Abatteuse-ébrancheuse pour l'exploitation forestière et procédé de récolte du bois employant l'abatteuse-ébrancheuse Withdrawn EP2302997A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FI20085725A FI20085725L (fi) 2008-07-11 2008-07-11 Harvesteri puunkorjuuseen ja menetelmä puunkorjuuseen harvesterilla
PCT/FI2009/050623 WO2010004095A1 (fr) 2008-07-11 2009-07-10 Abatteuse-ébrancheuse pour l'exploitation forestière et procédé de récolte du bois employant l'abatteuse-ébrancheuse

Publications (1)

Publication Number Publication Date
EP2302997A1 true EP2302997A1 (fr) 2011-04-06

Family

ID=39677606

Family Applications (1)

Application Number Title Priority Date Filing Date
EP09793998A Withdrawn EP2302997A1 (fr) 2008-07-11 2009-07-10 Abatteuse-ébrancheuse pour l'exploitation forestière et procédé de récolte du bois employant l'abatteuse-ébrancheuse

Country Status (3)

Country Link
EP (1) EP2302997A1 (fr)
FI (2) FI20085725L (fr)
WO (1) WO2010004095A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111546453A (zh) * 2020-05-07 2020-08-18 安徽绪稻康建筑工程咨询有限公司 一种全自动立式构树取皮工艺

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9554524B2 (en) * 2012-06-06 2017-01-31 Waratah Nz Limited Delimb knife with integrated side blades
MX357015B (es) * 2013-04-24 2018-06-06 Alaska Hitch S A De C V Máquina para despuntar las pencas de plantas de agave y prepararlas para su jimado.
JP6982571B2 (ja) * 2016-07-15 2021-12-17 良三 松本 林業用ハーベスター
AU2021391884A1 (en) * 2020-12-03 2023-07-13 Hudson Strategic Limited Apparatus for pruning live trees

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SE315384B (fr) * 1968-07-05 1969-09-29 Oestbergs Fabriks Ab
SE444132B (sv) * 1981-12-23 1986-03-24 Jan Eriksson Apparat for avkvistning av tredstammar
DE3324203A1 (de) * 1983-07-05 1985-01-31 Werner Dipl.-Ing. 8000 München Teupe Vorrichtung zur entastung und entrindung von baeumen mittels beweglich angeordneter und variabel einstellbarer schlagmesser auf forstlichen entastungsmaschinen
SE502203C2 (sv) * 1991-05-03 1995-09-18 Valmet Logging Ab Förfarande vid kvistning liksom trädupparbetningsaggregat härför
US5465771A (en) * 1994-11-15 1995-11-14 Stone & Wood, Inc. Wood processing apparatus with impact hammer

Non-Patent Citations (1)

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Title
See references of WO2010004095A1 *

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111546453A (zh) * 2020-05-07 2020-08-18 安徽绪稻康建筑工程咨询有限公司 一种全自动立式构树取皮工艺

Also Published As

Publication number Publication date
FI20085725L (fi) 2010-01-12
FI20085725A0 (fi) 2008-07-11
WO2010004095A1 (fr) 2010-01-14
FI20095783A0 (fi) 2009-07-10
FI20095783A (fi) 2010-01-12
FI121696B (fi) 2011-03-15

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