CA1076006A - Chipper with means for separating debris from chips - Google Patents

Chipper with means for separating debris from chips

Info

Publication number
CA1076006A
CA1076006A CA311,935A CA311935A CA1076006A CA 1076006 A CA1076006 A CA 1076006A CA 311935 A CA311935 A CA 311935A CA 1076006 A CA1076006 A CA 1076006A
Authority
CA
Canada
Prior art keywords
debris
slot
chipper
chamber
air
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.)
Expired
Application number
CA311,935A
Other languages
French (fr)
Inventor
Joseph A. Lapointe
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.)
Domtar Inc
Original Assignee
Domtar Inc
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 Domtar Inc filed Critical Domtar Inc
Priority to CA311,935A priority Critical patent/CA1076006A/en
Priority to SE7907727A priority patent/SE435196B/en
Priority to FI792892A priority patent/FI792892A/en
Priority to DE19792938215 priority patent/DE2938215A1/en
Priority to JP12188879A priority patent/JPS5544397A/en
Priority to US06/083,452 priority patent/US4247053A/en
Application granted granted Critical
Publication of CA1076006A publication Critical patent/CA1076006A/en
Expired legal-status Critical Current

Links

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
    • B27L11/00Manufacture of wood shavings, chips, powder, or the like; Tools therefor
    • B27L11/02Manufacture of wood shavings, chips, powder, or the like; Tools therefor of wood shavings or the like

Landscapes

  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Wood Science & Technology (AREA)
  • Forests & Forestry (AREA)
  • Crushing And Pulverization Processes (AREA)
  • Disintegrating Or Milling (AREA)

Abstract

ABSTRACT
CHIPPER WITH MEANS FOR SEPARATING DEBRIS FROM CHIPS
A debris separating chipper having a rotor with a cutting face and at least one knife mounted on the cutting face, a housing enclosing said rotor, a debris chamber in said housing having one wall thereof formed by said cutting face, a slot through said cutting face into a space, means for feeding logs to said cutting face, means for directing chips cut by said knife into said space, means for ejecting air out from said slot into said debris chamber, a debris outlet from said chipper for ejecting debris from said debris chamber and a separate chip outlet from said chipper adapted to communicate with said space for ejection of chips from said chipper. The air flow may be directed as a curtain across the slot to effect a further separation by deflecting lighter materials out of their normal trajectory into a dust chamber that empties into the debris chamber.

Description

1076()~6 FIELD OF THE INVENTION
The present invention relates to a wood chipper, more specifically the present invention relates to an impro-ved wood chipper for separating debris from chips during the chipping operation.
PRIO~ ART
Applicant's previously filed Canadian Patent 1,029,284 issued April 11, 1978 discloses a debris separating chipper comprising of a rotor having a cutting face that forms one wall of a front or debris chamber which has a debris outlet. Chips cut by the knives on the rotor are conveyed away from the front chamber into a chip space or chamber and are rejected from the chipper through a separate chip outlet whereby chips and debris are separated and are ejected from the chipper in separate streams through their respective outlets.
Conventional disc type chippers are provided with impellor blades at the back of the disc which draw air through the back wall of the housing into the chip chamber and blow it out with the chips through the chip outlet. The pumping effect created by these blades also draws air in through the knife slots (the slots leading each knife and through which the chips pass after they are cut) and this air drawn through the knife slots entrains small debris particles including grit leaves needles lose bark etc. into the chip chamber where they remix with the chips.
It has also been proposed to provide chip pockets on the rear face of the disc to receive chips cut by the chipper knives and prevent them from hitting the rear face of the chipper housing (see for example Canadian patent 962,921 issued Feb. 18/75 to Gaitten). These pockets hold the chips until the chip outlet is reached and then ejects them di-A

107601)6 rectly into the chip outlet. These chip pockets, by preventing impact of the cuts chips against the rear facè of the housing, reduce chip damage during the chipping operation.
It has also been proposed in an earlier Canadian patent 759,747 issued May 30, 1967 to Kirsten to provide chip pockets, to open the pockets to the atmosphere and to provide a volute housing whereby air is pumped through the pockets as the disc rotates. It will be apparent that any air entering the pocket will tend to enter adjacent axes of rotation and be ejected tangentially from the periphery.
BRIEF DESCRIPTION OF THE INVENTION
The present invention provides an improvement over the separator disc chipper described in Canadian patent 1,029,284 referred to hereinabove by providing air flow through the chip slot into the front or debris chamber and thereby substantially eliminating the possibility of en-trainment of light material through the chip slot and in some cases to actually blow material away from the slot so that it cannot pass through the slots into the accepted chip area. It is also possible to traverse the chip path with a jet of air to deflect and thereby separate light material passing with the chips and reject this material with the debris.
Broadly, the present invention relates to a chip-per comprising a housing, a disc mounted for rotation in said housing, said disc having a cutting face, at least one knife on said cutting face, a debris chamber formed between said cutting face and said housing, a slot through said cutting face for passage of chips cut by said knife to a chip space separated from said debris chamber, a debris outlet from said debris chamber for ejecting debris from said chipper, and a separate chip outlet communicating with said space for removal of chips from said chipper, the improvement com-comprising means for providing air under pressure, a compart-ment on said rotor adjacent said slot, means for directing air from said means for providing air under pressure to said compartment so as to eject air from said compartment through said slot towards said debris chamber, whereby air flows through said slot into said debris chamber during at least a substantial portion of the revolution of said disc.
BRIEF DESCRIPTION OF THE DRAWINGS
Further features, objects and advantages will be evident in the following detailed description of the preferred embodiments of the present invention taken in conjunction with the accompanying drawings in which;
Figure 1 is a schematic elevation view of a chipper constructed in accordance with the present invention.
Figure 2 is a section along the line 2-2 of Figure 1.
Figure 3 and 4 are sections along line 3-3 of Figure 1, illustrating two modifications incorporating the present invention.
Figure 5 is a view similar to figures 3 and 4 illus-trating a more sophisticated arrangement of *he present inven-tion and is a partial section along the lines 5-5 of figure 6.
Figure 6 is a section along the lines 6-6 of figure 5.
Figure 7 is a section along the lines 7-7 of figure 6.
Figure 8 is a section along the line 8-8 of figure 7.
Figure 9 is a view similar to figure 5 illustrating the preferred and simplest arrangement of the present invention.

1076~06 Figure 10 is a partial section along the lines 10-10 of figure 2.
Referring to Figures 1 & 2 the chipper is formed of housing 10 having a peripheral wall 12, a front wall and a rear wall 16. A chipper disc 18 is rotably mounted within the housing on a suitable shaft 20 and divides the housing 10 into a front or debris chamber 22 and a rear cham-ber 24. An internal annular partition wall 23 combines with the disc 18 to isolate the front and rear chambers 22 and 24 so that substantially the only communication between the two is through the knife slots 36 as will be described hereinbe-low. A tangential outlet 26 is provided adjacent a front wall 14 in communication with the front chamber 22 and functions as a debris outlet for debris entering the front chamber 22. A tangential chip outlet 28 communicates with a read chamber 24 and provides an outlet for chips cut by the chipper.
A feed inlet 30 is provided through the front wall 14 for feeding logs to the chipper disc 18.
The chipper disc 18 has a front cutting face 32 mounting at least one knife 34. In the illustrated arrange-ments a knife slot 36 extends through the disc 18 to the back-face 38 thereof and is positioned immediately adjacent and in front of each knife 34 so that chips cut by the knife 34 may pass through the disc 18 via the passage 36.
In the embodiment of figures 2 to 4 positioned on the back of the disc to receive the chips passing through the disc via each slot or passage 36 is a chip compartment or pocket 38 (see also Figures 3 & 4). These chip pockets 38, as will be apparent from Figures 3 & 4 may be smaller adja-cent the shaft 20 and taper so that they expand at a substan-tially uniform rate toward the peripheral wall. The outer edge 40 of each pocket 38 conforms with the inner periphery 1076~)~)6 of the peripheral wall 12 and is positioned relatively close to this wall 12 thereby to inhibit the flow of air from the pockets 38 except through the slots 36, throughout a major portion of the rotation of the disc 18 and except when the pocket 38 is in communication with the chip outlet 28.
An angular ring 42 interconnects the narrow ends of all pockets 38. This angular ring 42 is provided with apertures 44 substantially radially communicating the inside of the ring 42 with each pocket 38 i.e. an aperture 44 is provided at the narrow end of each of the pockets 38.
Within the angular ring 42 may be mounted a valve disc 46 which is connected to a plenum chamber 48 that sur-round the shaft 20. The plenum chamber 48 is connected by a pipe 50 to an air compressor 52 which in the illustrated arrangement is shown driven by the shaft 20. Communication between the plenum chamber 48 and each of the pockets 38 is governed by the valve disc 46 which is cut away as indicated at 54, so that communication between the plenum 48 in each of the pockets 38 may be controlled as desired i.e. when the aperture 44 are aligned with the cut way area or areas 54.
It shouId be noted that in some cases the valve disc 46 may be eliminated so that the plenum 48 simply com-municates directly with the inside of the angular ring 42 and each of the pockets 38 is constantly in communication with the plenum 48, see particularly the figures 5 to 9 embodi-ments. In the figures 2 to 4 embodiments it is preferred to isolate each pocket 38 from the plenum 48 as the radial out-let of each pocket communicates with the chip outlet 28 by providing solid areas on the valve disc 46 at the location ;
when each pocket is ejecting through outlet 28 (see fig. 10).
It will be apparent from Figures 3 & 4 that the pocket 38 may be positioned in front of the slot 36 in the direction of movement of the disc as shown in figure 3 or ` 1076~06 alternatively toward the rear of each slot 36 as indicated at 38a in Figure 4.
As indicated in Figure 2, suitable apertures 56 may be provided in the rear wall 16 to permit air to be drawn in through the rear wall into the rear chamber 24 in the spaces between the pockets 38 (which will function as vanes) and facilitate the pumping of air out through chip outlet 28 -- thereby to aid in conveying the chips. Also it will be noted that blades or paddles 58 are provided on the disc 18 in the front chamber 22 to aid in ejecting debris through the outlet 26.
In the embodiments shown in figures 5 to 9 inclu-sive, the pockets 38 are optional as indicated by the dotted line in figure 5 and these pockets need not be connected with the source of air under pressure.
Referring specifically to the embodiment illus-trated in figures 5 to 8 inclusive which is the more elabor-ate embodiment of the present invention incorporating a further separation stage for dust and fines separation subsequent to cutting of the chips. It will be noted that the pockets 38 have been replaced by paddles 100 which in the illustrated arrangement project from a structure 102 that forms a dust chamber 104 on the back side of the disc 18.
Paddles 100 need not be integral with the housing 102 and could in fact be spaced therefrom rearwardly in the direction of rotation of the disc 18. As shown in figure 6 and 7 the structure 102 (in the illustrated arrangement only one such structure is shown, however in a multi-knife chipper there would be one such structure for each knife) are interconnected at their outer periphery by an annular flange 106 which projects rearwardly from disc 18. The flange 106 co-operates with the partition 23 to seal the front chamber 22 from the rear chamber 24 as illustrated in figure 7.

Each of the dust chambers 104 communicates with the front chamber 22 via the peripheral outlet 108 which is formed through the rim 106 between the partition wall 23 and the rear face of disc 18.
A nozzle 110 is formed by an elongated slot in a duct 112 having an internal compartment 114 which communi-cates with the front end of chamber 48, which as above de-scribed is supplied with air from the blower 52 via pipe 50 (see figure 2), through the opening 116 (see figure 6) in the arrangement of figures S to 9 inclusive. The front end of chamber 48 is opened ended and telescopes in sealing relation with an annular member 118 that is provided with suitable openings 116 for each duct 112 (one for each knife) on the chipper disc (only one is shown). This annular member is similar to the annular ring 42 of the figures 2 to 4 embodi-ment, however, no valve 46 is necessary in the figures 5 to 9 embodiments since the nozzle 110 functions as a metering mechanism and can be connected to the source of air pressure at all times regardless of position of the duct 112 to the outlet 28 without significantly reducing the pressure in the duct 112 as the chips are ejected through outlet 28.
The nozzle 110 extends substantially the full length of the knife slot 36 and is aimed at the edge 129 formed between the trailing wall 120 of the chip slot 36 and the rear wall 122 (wall opposite the cutting face 35) of the disc 18. Air flow through the nozzle 110 forms a curtain across and along the length of the slot 36. The air curtain in part is deflected out through the slot 36 and in part is deflected towards the dust chamber 104 when no chips are pas-sing through the chip slot 36.
In the embodiment of figure 9 in the nozzle 110has been replaced by a similar nozzle 126, however, since the dust chamber 104 has been eliminated, this nozzle 126 (in the 1076~)6)6 form of an elongated slot extending the length of the chip slot 36) is aimed to direct air as a curtain from the duct 112a into the slot 36 from the leading side of the slot to deflect off trailing wall 120 and into the front chamber 22.
Also the duct 112a and this compartment 114a have been en-larged in a direction parallel to the axis of the disc to in-crease the volume and size of the opening 116 to ensure a supply of sufficient volumes of air. The duct 112 could be similarly enlarged in the figures 5 to 9 embodiment.
It will be apparent that the nozzles 110 and 126 are essentially the same and that they form a curtain of the air extending across the chip slot 36. Flow could be paral-lel to the slot 36 i.e. not traverse it but the air nozzles would be more difficult to build and more susceptible to dam-age and plugging by chips.
In opeeation, wood is fed to the chipper in the conventional manner via the feed spout 30 and is chipped by the knives 34. The impacts of these knives against the log shake debris and like from it, particularly in whole trees chipping where a significant quantity of bark, grit, small branches and needles, leaves, etc. are present and may be separated from the tree and fall into the front chamber 22.
The cut chips pass through the slots 36 into the pockets 38 or rear chamber 23 in the case of figures 5 to 9.
Air is drawn into the blower 52 as indicated by the arrows 60 and is fed from the blower 52 via line 50 into the chamber 48.
In the figur~s 2, 3 and 4 embodiment the chamber 48 communicates via the cut away section 54 and apertures 44 or directly through the apertures 44 with the pockets 38 to force air out through the slots 36 into the chamber 22. The amount of air that can escape through the outer ends tradial extremities) of the pockets 38 is limited due to the close ` 10760C~6 fit between the edge 40 and the inner periphery of peripheral wall 12 of the housing 10, except when the pockets 38 are in communication with the outlet 28 and the chips and air are ejected through the outlet 28. Also in some cases ~when apertures 56 are provided), air may be sucked in through the openings 56 in the back wall 18 into the spaces between the pockets 38 and blown out through the outlet 28 with the chips. Not too much air will be drawn in this way since the spaces between the pockets 38 are sealed in substantially the same manner as the pockets 38 except in the area of the out-let 28. In the event a greater air flow from between the pockets 38 is desired, rear wall 16 should be moved to in-crease the size of chamber 24 and provide more clearance be-tween the pockets 38 and the rear wall and thereby permit air from between the pockets to expand and be forced out the out-let 28 during substantially the full rotation of the disc also paddles could be added in the spaces.
Debris in the front chamber 22 is ejected from the housing 10 through the outlet 26 by means of the paddles - 58. The air pressure within the pockets 38 injects air through the slots 36 into the chamber 22 which substantially eliminates the tendency for small dust particles and like de-bris to be entrained into the pockets 38 and remixed with chips (as would be the case in a conventional chipper not in-corporated to the present invention) and thereby ensuring better separation of the debris from the chips.
The operation of the figures 5 to 9 embodiments is basically the same as the operation of the embodiments of figures 2 to 4 inclusive. ~owever, in the figure 5 to 7 ar-rangement, the air from the nozzle 110 when no chips arebeing cut deflects in part into the chip slot 36 and into the dust chamber 104. When chips are being cut they block the passage 36 i.e. when the knife 34 is cutting, much of the slot is blocked by wood and the air blown through the passage 36 into the front chamber 22 is reduced whi-ch tends to deflect the air jet issuing from the nozzle 110 towards the pocket 104. In any event, even if there is no deflection of the jet that portion of the jet split by the edge 124 and which tends to sweep through the stream of chips or around it into the chamber 104 carries with it some of the fines and dust particles accompanying the chips thexe~-further cleaning the chips. The chips themselves are not deflected significantly as their inertia is too high and they travel substantially in their normal trajectory into the back chamber 24 from which they are ejected by the paddles 100.
The fines and light materials entering the dust chamber 104 move radially outward along this chamber 104 and pass through the outlet 108 at the circumference of the disc into the front chamber 22 and are ejected through the debris opening 26 by the paddles 58.
In the embodiment of figure 9, there is no further separation of fines and dust of the chips. Directing the air jet or curtain issuing from the nozzle 126 into the slot 136 also similar to the air ejected through the slots 36 in the 5 to 7 embodiment and effectively prevents the sucking of air in through the slot by the pumping action of the vanes lQQ _ and any tendency for material to be entrained through the slots and contaminate the chips is essentially eliminated.
The air flow through the slots 35 should be at the speed of at least about 1000 ft/min to clear light materials in the debris chamber from in front of the knife and preferably above about 5000 ft/min.

B

1076~06 In the embodiments of figures 5 to 9 the width of the nozzle should be at least about l/4 inch and preferably above 1/2 inch and the pressure within the duct 112 be at least about 5 inches of water and preferably above 10 inches for low pres-sure operation. If higher pressures are used smaller nozzles may be used but this requires more sophisticated blowers.
Only substantially radial introduction of air in-to the compartments 38, 38a, 114 or 114a have been shown in the drawings i.e. via an axial passage 48, however, other modes of air introduction may be used. For example in the fig 1 to 4 embodiments a plenum chamber could be provided be-hind the rear wall 16 of the housing and the rear wall be provided with a slot equivalent to the slot 54 adapted to communicate with the pockets 38 through suitable holes in the rear wall of the pockets 38 positioned in alignement with the slot. This construction would require some form of slot - sealing means mounted on the disc 18 (such as a radial wall) between the holes leading into circumferentially adjacent pockets.
The term "disc" in relation to the chipper rotor as used herein is intended to include discs with a planer (radial) cutting face as well as those with conical cutting faces including rotors formed by a pair of conical discs combined to form what is sometimes referred to in the trade as a V-drum chipper Modifications will be evident to those skilled in the art without departing from the spirit of the invention as defined on the appended claims.

Claims (8)

1. A debris separating chipper comprising; a disc, means for mounting said disc for rotation around an axis, a cutting face on said disc, at least one knife mounted on said cutting face, a housing for said disc, a debris chamber in said housing, said cutting face forming one wall of said debris chamber, a chip slot through said cutting face leading to a chip space; a compartment on said disc communicating with said slot, means for connecting said compartment to a source of air under pressure so as to eject air from said compartment through said chip slot into said debris chamber, a chip outlet from said chipper communicating with said space and a debris outlet from said chipper for ejecting debris from said debris chamber.
2. A chipper as defined in claim 1 wherein said compart-ment comprises a chip pocket surrounding said slot, said pocket having its outlet end in close proximity to a peripheral wall of said housing except when said pocket is in communication with said chip outlet thereby air pressure is maintained in said pocket so that air will flow out through said chip slot during a major portion of a rotation of said rotor.
3. A chipper as defined in claim 1 wherein said compart-ment comprises a duct having nozzle means extending substantially the full length of said chip slot, said nozzle being aimed to direct air from said nozzle means as an air curtain through said slot toward said debris chamber.
4. A chipper as defined in claim 3 wherein said nozzle means is aimed to direct air as a curtain across said slot from the side of said slot leading in the direction of rotation of said disc to the trailing side of said slot.
5. A chipper as defined in claims 3 and 4 wherein said nozzle means is positioned in front of said slot in the direction of rotation of said disc and is aimed at the inter-section between a trailing wall of said chip slot and a wall of said rotor opposite said cutting face and further comprising means forming a dust chamber immediately adjacent said inter-section and positioned to receive fines and dust material reflected by said air jet while permitting chips to pass thereby an outlet from said dust chamber communicating with said debris chamber.
6. A chipper as defined in claims 1, 2 or 3 further comprising paddle means in said debris chamber for forcing debris out of said debris chamber to said debris outlet.
7. A chipper as defined in claim 4 further comprising paddle means in said debris chamber for forcing debris out of said debris chamber to said debris outlet.
8. A chipper as defined in claim 1 wherein said compart-ment comprises an air passage, nozzle means communicating with said air passage, said nozzle means extending a significant distance along said slot and being aimed to direct air from said nozzle means through said slot toward said debris chamber.
CA311,935A 1978-09-22 1978-09-22 Chipper with means for separating debris from chips Expired CA1076006A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
CA311,935A CA1076006A (en) 1978-09-22 1978-09-22 Chipper with means for separating debris from chips
SE7907727A SE435196B (en) 1978-09-22 1979-09-18 Waste separating chipping machine
FI792892A FI792892A (en) 1978-09-22 1979-09-18 FLISHING PLATE WITHOUT FOER ATT SEPARERA AVFALLET FRAON FLISEN
DE19792938215 DE2938215A1 (en) 1978-09-22 1979-09-21 CRUSHING DEVICE, ESPECIALLY FOR WOOD
JP12188879A JPS5544397A (en) 1978-09-22 1979-09-21 Chipper provided with chip separator
US06/083,452 US4247053A (en) 1978-09-22 1979-10-10 Chipper with means for separating debris from chips

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CA311,935A CA1076006A (en) 1978-09-22 1978-09-22 Chipper with means for separating debris from chips

Publications (1)

Publication Number Publication Date
CA1076006A true CA1076006A (en) 1980-04-22

Family

ID=4112438

Family Applications (1)

Application Number Title Priority Date Filing Date
CA311,935A Expired CA1076006A (en) 1978-09-22 1978-09-22 Chipper with means for separating debris from chips

Country Status (4)

Country Link
JP (1) JPS5544397A (en)
CA (1) CA1076006A (en)
FI (1) FI792892A (en)
SE (1) SE435196B (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113695032B (en) * 2021-08-20 2023-09-12 孟子悦 Biological particle environmental protection recovery unit

Also Published As

Publication number Publication date
SE7907727L (en) 1980-03-23
JPS5544397A (en) 1980-03-28
FI792892A (en) 1980-03-23
SE435196B (en) 1984-09-10

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