EP0213165A1

EP0213165A1 - A straw compression apparatus

Info

Publication number: EP0213165A1
Application number: EP19860901456
Authority: EP
Inventors: James Timothy William Lyon
Original assignee: Individual
Current assignee: Individual
Priority date: 1985-02-28
Filing date: 1986-02-28
Publication date: 1987-03-11
Also published as: WO1986005140A1; AU5456686A

Abstract

Un compresseur de paille possède un piston (7) effectuant un mouvement alternatif dans un tube (8), le piston étant actionné par une liaison articulée (5) à volant (4) qui se redresse à la fin de chaque course de travail. La paille est délivrée latéralement dans une section (11) de la chambre de compression du tube (8) lorsque cette dernière n'est pas occupée par le piston, de sorte que des quantités de paille sont compressées progressivement contre la queue d'un bloc continu s'avançant à travers un étranglement terminal (15) du tube. Cet étranglement peut présenter un organe de réglage (17, 18). L'alimentation du tube peut être obtenue à l'aide de tambours dentés (21) qui entraînent la paille depuis la base d'une trémie (13). Le dispositif peut être mobile, remorqué et entraîné par un tracteur, ou stationnaire.A straw compressor has a piston (7) reciprocating in a tube (8), the piston being actuated by an articulated link (5) with flywheel (4) which straightens at the end of each working stroke. The straw is delivered laterally in a section (11) of the compression chamber of the tube (8) when the latter is not occupied by the piston, so that quantities of straw are gradually compressed against the tail of a block continuous advancing through a terminal constriction (15) of the tube. This constriction may have an adjusting member (17, 18). The tube can be fed using toothed drums (21) which drive the straw from the base of a hopper (13). The device can be mobile, towed and driven by a tractor, or stationary.

Description

"A Straw Compression Apparatus"

This invention relates to straw compression apparatus.

After the cereals harvest, the straw is mostly either baled up or burnt in the fields. Occasion- ally, it is ploughed in. Burning is dangerous and anti¬ social, and represents colossalwaste of potentially useful, material. In any event, in the United Kingdom there are now severe restrictions on burning and on occasions a total ban. Baled straw has extensive uses, mostly agricul¬ tural such as litter for cattle, strawberry beds and frost protection, although it is also used industrially to make slabs for roofing. However, present supplies are more than sufficient to meet these needs, and indeed it is quite common to see barns still well stocked with bales shortly before the next harvest. It is unlikely that any ^• larger quantity of bales in their present form can be absorbed by agriculture and industry.

It has long been proposed to use straw as a source of heat or energy, and there have been occasional practical examples. For example, straw burning traction or stationary engines were built, and they could consume what was discarded from the threshing machines that they were driving. However, any furnace or stpve that burns straw in loose form has an insatiable appetite. For a more manageable fuel, it is desirable to compact the straw so that it resembles logs or lumps or coal. Various devices have been proposed, but mostly for small quantities, and operated by hand. The real problem that now needs solving is a large field with tons of straw which should be compacted on the spot, before rain can affect it and preferably without the expense and trouble of preliminary baling. . It is this that the present invention aims to answer.

According to the present invention there is provided apparatus for compressing straw or other veg¬ etable matter characterised by a compression chamber, a piston reciprocal in and out of one end of the chamber, means for feeding straw laterally into the compression chamber, a delivery conduit leading from the other end of the chamber with a restriction through which compacted straw or vegetable matter is forced in steps by the piston, and drive means for the piston including a toggle linkage which is substantially aligned with the piston at the end of each working stroke. This means that, as that position is approached there is very high mechanical advantage, resulting in a great compressive force. The actuation of the toggle linkage is preferably by means of an eccentric on a flywheel coupled to its break point. Means may be provided for adjusting the restriction in the delivery conduit to suit conditions and the type of straw. Conveniently it has a split end, and a member surrounding this end may have an adjust¬ able embrace to vary the size of the split. Preferably, the piston face will not be flat, which might cause the straw to laminate in discs, thus allowing the eventual log to fall apart too easily. In the preferred' form, it will have an annular indent, with a central fowardly projecting conical portion and an outer, bevelled cutting edge portion.

The feeding means conveniently comprise two counter-rotating toothed drums which entrain the straw or vegetable matter and. feed it positively into the compression chamber. The drum teeth preferably inter- digitate with fixed combs for parting the straw or vegetable matter from the drums at the entry to the compression. chamber. Also, the drum teeth tips may co-operate with sharp edges between the roots of the comb fingers to chop the straw or vegetable matter entering the compression chamber. A cooling jacket will preferably be provided to co-operate with the compression chamber, and it may be used to keep the temperature at an optimum for promoting cohesiveness of the log. For a better understanding of the invention one embodiment will now be described, by way of example, with reference to the accompanying drawings, in which:

Figure 1 is a diagrammatic side elevation of a straw compressor, Figure 2 is a divided vertical section and rear end view of the lower portion of a hopper and compression chamber, and

Figure 3 is an axial section of the compression chamber. The compressor to be described is designed to be towed by a tractor and operated from the power take-off (PTO) now standard on such vehicles. However, other versions are contemplated; for example it could be adapted to operate in conjunction with a combine or a forage harvester, so that straw could be fed straight into it. However, ^'its power requirement is quite high and it would then probably need an independent power unit.

It could also be a static installation, for straw to be brought to it. The compressor has a chassis 1 with a hitch 2 at the forward end and a pair of wheels 3 towards the rear. Drive from the PTO (not shown) of a tractor, is transmitted to a flywheel 4. The transmission may take various forms, and is not illustrated as it does not form a critical part of the invention. Preferably, it will incorporate a slipping clutch assembly which will allow free-wheeling in one direction, and a shear bolt designed to break.on excessive loading. A toggle linkage 5 has one end pivoted to a forward fixed point 6 on the chassis and the other end to a horizontal piston rod 7 reciprocal in a tube 8 extending to the rear. The centre pivot or break point of the toggle linkage 5 is coupled by a rod 9 to an eccentric 10 on the flywheel 4, which acts as a crank alternately to straighten and bend the toggle linkage as it rotates and thus reciprocate the piston rod 7. Figure 1 shows the linkage in the two extreme positions, and when it is straight, it is aligned with the piston rod 7. Thus, at the end of the rearward stroke, the piston rod is being moved slowly but with great mechanical advantage.

The tube 8 develops into a compression chamber 11 over its middle section, having an opening 12 through which straw is delivered from a hopper 13. This contains a feed mechanism, to be described below, which is also driven from the tractor PTO. Downstream of the hopper 13 the tube 8 extends through a water jacket 14 and terminates in a collet 15. This has two diametric- ally opposed longitudinal slits 16 and it is embraced by a collar 17 which can be tightened or relaxed by a hydraulic actuator 18 to alter the^' amount of coning of the collet and the diameter of its outlet end. Such alteration may be made according to the condition of the straw and the density required. It is amenable to automatic control using the hydraulic pressure in the actuator 18.

This assembly of parts 8 to 18 is mounted on a massive box section beam 19, forming part of the^' chassis 1.

Referring now to Figure 2 , the base of the hopper has nacelles 20 partially to accommodate two parallel drums 21 constituting the feed mechanism referred to above. These have annular sets of teeth 22 of saw tooth form and they counter-rotate so that straw in the hopper is' drawn downwardly between them. Just below their minimum spacing they interdigitate with fingers 23 of combs projecting upwardly from blocks 24 defining a slot 25 over the opening 12 into the compression chamber 11. The base 26 of each gap between the comb fingers 23 is curved concentrically with the associated drum to give minimal clearance with the tips of the teeth 22, and at the upstream ends there are sharp edges or lips 27. The width of the slot 25 is somewhat less than the diameter of the chamber 11 so that straw parting from the drums at the lips 27 can be easily urged by straw above into that chamber once it is vacated by the piston rod 7.

The annular sets of teeth 22 may be at the same circumferential position along the whole length of each drum, or adjacent sets may be circumferentially off-set to create, in effect, interrupted shallow helical ribs.

With an overhead hopper 13, gravity assists the feed into the compression chamber 11. A cyclone could be substituted, giving more ordered delivery. It would also be possible to arrange for horizontal feed through an opening in the side of the piston tube 8. Referring to Figure 3, the rear end of the piston rod has a profiled head 28. Its working face has a central conical formation 29, pointing rearwardly, while near the periphery the cone is reversed so that there is an annular bevelled knife edge 30. This indented shape ensures that the straw is not compacted in flat disc sections, which would make the resulting log break too easily, but provides a form of interlock between sections compressed on each stroke. The knife edge 30 gives clean action, scraping straw from the wall of the tube 8. The head 28 is, however, of the same diameter as the rod 7 so that there is no danger of straw being entrained by a shoulder at the junction of the head and rod and being forced forwardly towards the toggle mechanism on the return stroke.

Upstream of the hopper 13, the rod 7 passes through an enlarged portion of the tube 8- fitted with a lubricating sleeve 31 fed from oil reservoir 32. Its connection to the toggle linkage 5 is by means of a cross pin 33 which is extended laterally to mount two wheels 34 These run between longitudinal members 35 of box-section bolted to massive cross-members 36^" and 3-7 at opposite ends. The member 36 at the rear end provides an anchorage for the leading end of the tube 8, while the member ^'37 at the forward end provides the fixed point 6. This structure is carried on framing 38 forming part of the chassis 1.

In operation, provided the hopper 13 is kept charged with straw, ^' the reciprocating piston will repeatedly ram the material fed into the chamber during its backstroke up against the continuous log disappear- ing down the tube 8 into the collet 15. The constriction provided by the collet ensures that the log will con¬ solidate and offer firm abutment for the compression of each batch, although on each stroke of the piston it will extrude a little further from the mouth of the collet.

When the log is projecting a certain amount, its own weight will cause it to break off, and this may happen with a consistent and convenient length. However, it would be possible to add a chopping device which would cut off logs of predetermined length,or act eachtime somany strokes of the pistonhave been completed,

The water jacket 14 will be in circuit with a radiator (not shown) , which may be thermostatically controlled. It prevents excessive heat being generated, but the temperature in that region will still be considerable. This will have a beneficial action on the cellulose in the straw, for the latter will become "sticky" and thus promote the cohesiveness of the log. Although described as a straw compressor it will be understood that it could be used to compact and "log" other vegetable material into cylindrical briquettes.

While it will be preferred to feed in straw directly, to save the time and expense of baling, it is possible to use the compressor with bales. As a stationary installation, for example, it might be used in the winter months transforming bales into logs as demand dictated.

The piston 7 and its tube 8 are circular in the embodiment described. Other shapes are possible, such as square or hexagonal, with the collet 15 made to match. Alternatively, ^'the nascent log may be of circular section, but the collet may be configured to change this to a different section as it extrudes.

Claims

1. Apparatus for compressing straw or other vegetable matter characterised by a compression chamber (11), a piston (7,28) reciprocal in and out of one end of the chamber, means (13,21) for feeding straw laterally into the compression chamber, ^'a delivery conduit (15) leading from the other end of the chamber (11) with a restriction through which compacted straw or vegetable matter is forced in steps by the piston (7,28), and drive means for the piston including a. toggle linkage (5) which is substantially aligned with the piston (7) at the end of each working stroke.

2. Apparatus as claimed in Claim 1, characterised in that an eccentric (10) on a flywheel (4) is coupled to the break point of the toggle linkage (5).

3. Apparatus as claimed in Claim 1 or 2, characterised in that means (17,18) are provided for adjusting the restriction in the delivery conduit (15) .

4. Apparatus as claimed in Claim 3, characterised in that the delivery conduit (15) has a split end, and a member (17) surrounding this end has an adjustable embrace to vary the size of the split.

5. Apparatus as claimed in any preceding claim, characterised in that the piston face (15) is indented.

6. Apparatus as claimed in Claim 5, characterised in that the indentation is annular, the end face having a central forwardly projecting conical portion (29) and an outer, bevelled cutting edge portion (30).

7. Apparatus as claimed in any preceding claim, characterised in that the feeding means comprise two counter-rotating toothed drums (21) which entrain ^• straw or vegetable matter and feed it positively into the compression chamber (11) ."

8. Apparatus as claimed in Claim 7, characterised in that the drum teeth (22) interdigitate with fixed combs (23) for parting the straw or vegetable matter from the drums at the entry to the compression chamber (11) .

9. Apparatus as claimed in Claim 7 or 8, characterised in that the drum teeth (22) tips co¬ operate with sharp edges (27). between the roots of the combs fingers (23) to chop the straw or vegetable matter entering the compression chamber (11) .

10. Apparatus as claimed in any preceding claim, characterised in that a cooling jacket (14) co-operates with the compression chamber (11) .