Method and machine for production of cylindrical bales of plant material

专利摘要:

公开号:SU1837742A3
申请号:SU884356465
申请日:1988-09-02
公开日:1993-08-30
发明作者:Uilyam Mik Nigel；Khenri Li Frogbruk Kennet
申请人:Khenri Li Frogbruk Kennet；
IPC主号:

专利说明:

UNION OF SOVIET
SOCIALIST
REPUBLIC
..... SU 1837742 AZ (51) 5 A01 F 15/07 ____
STATE PATENT
DEPARTMENT OF THE USSR (GOSPATENT USSR)
DESCRIPTION OF THE INVENTION
GATENT (21) 4 '(86) P (32) (33) G
356465/15 ’2T / GB 87/000153 (04.03.87) (22) 02.09.88.
(46) 08/30/93. Bull. No. 32) 8005301
2) 03.03.86 (71) Contact Henri Lee Frogbrook (GB) (72) Liege William Mick and Kenneth Henry Lee FrogZruk (GB) (56) Application FRG 3232160, class A01 F15 / 18.1984.
yarn of France No. 2407660,
D 85/00, 1979.
class A
- (54) Method for the production of bale and bale
PACK
DRIVES OF CYLINDRICAL ROLLS AND ITS TRANSITION UNIT
FROM VEGETABLE MATERIAL, TURNING MACHINE FOR PRODUCTION (57) Summary of the invention: a baling machine for the production of cylindrical rolls of plant material is provided with means for packing the mat into the sheathing material, means for using the sheathing material and laying it above and below the mat from the plant material. Strips of net material are applied on the mat of plant material, stapled at least along the edges, after which the mat is folded into a bale. The plant material mat can be placed in a mesh holding sleeve before folding into a bale. On the grid there are longitudinal stripes through which the upper and lower parts of the sleeve are fastened together. 4 sec and 4 z.p. f-ly, 6 ill.
acquisition refers to batching
And to all machines and packaged products and have a katanata. from solomiya there is a special relation to the production of 1x bales of ma enclosed; prepared from a material such as a, intended for use in various fields, including the elimination of oil leaks,
Oil bobs represent a serious contamination. To develop a mesborrion of discarded oil in water or forces. The use of cleaning agents for the screening of spilled oil was satisfactory, since detergents themselves pose a danger of a rusting medium, and oil is often dangerous again for other methods of neutralizing the threat posed by spilled oil.
FOR O) appears after it has been visually scattered. During the collection of oil, oil retaining booms were used that prevented the spread and drift of spilled oil. However, such booms were too expensive if used to trap a significant amount of spilled oil.
A large number of methods for collecting spilled oil have been proposed. Some of them use a medium that absorbs oil and that is immediately eliminated as soon as the oil has been absorbed as an oil recovery medium. Other methods proposed to use a medium that allowed the removal of collected oil from it and could be reused.
It is known that some plant materials, especially straw, are capable of collecting oil from 1837742 AZ. In the past, attempts have been made to collect spilled oil on water through floating bales of straw. The use of individual bales in this way is nevertheless not practical enough, especially over a large area in terms of the difficulty of managing such individual bales and in terms of the tendency of these bales to soak in water almost immediately, as a result of which straw soaked in oil cannot It’s easy to be assembled.
Known mat made of cellulose fibers, processed to a water-repellent state, placed in a wire mesh frame and twisted for storage, ready to be used as an absorber of oil, as a pollutant, on the ground or on the water. Previously known methods of using unbound straw as an absorbent are considered unsuitable due to their inefficiency.
A known method of using straw as a carrier of atactic polypropylene, which is placed in a retina to absorb spilled oil, which also refers to the previous methods of using unbound straw, because it is ineffective.
It was also proposed to enclose other plant materials (e.g., wood bark) in the casing to absorb oil.
These methods have not proved to be effective enough and economically enough to be able to distribute them well. Straw is light and voluminous, resulting in increased costs for its transportation for processing. Are required. methods and equipment for packing straw or other similar plant materials in a shell, which should be used in close proximity to the place of growth of that straw or even on the fields themselves where it is extracted in order to reduce the cost of its transportation. Moreover, if the straw is simply placed in a shell of a net, then it will tend to be unevenly placed in the shell, completely closing it at the moment when these shells of the net are deployed in order to absorb spilled oil on the ground or water.
The Applicant has found that plant material such as straw in the form of a mat packaged in a waterproof sheathing material such as a net is suitable for use as an oil absorber in many cases, including floating oil and beached ashore, in order to catch oil as it nails ashore. The applicant further found that by securing the opposite sides of the sheathing material by flashing through the mat, the clumping of straw when using the mat is practically eliminated, which increases the significance of such a product.
An elongated mat is known from stem plant material, preferably from straw, placed in a casing, for example, from a net through which oil can pass and be absorbed by the straw.
It was found that products of this kind are quite effective in relation to oil emissions in water. A sheathed mat can be unwound from a bale and can be kept afloat to absorb oil. Subsequently, contaminated mat can be eliminated by burning. Such mats can also be used as boom booms, and they can be scattered along dirty shallows or shores to protect them from oil that nails ashore.
If packaged mats of this kind must be produced manually, then this process of their manufacture is a time consuming process.
Baling machines that produce large round bales are already known, and some of these famous baling machines produce bales, which are rolled mats. Bundling machines of this kind pick up straw from a window, passing it between the rollers in order to form a mat from it, and collecting this mat in a stretched twisted bale in a bale chamber, in which the mat is fastened with flexible tapes that hold the bale when it is collected, allowing him to crack down. Although such well-known baling machines produce a bale in the form of a twisted mat and they can be provided with means for sheathing the entire bale with protective material, these machines are not intended, naturally, to pack the mat before it is rolled into a bale,
The invention provides a baling machine for the production of cylindrical rolls of plant material, which contains devices for forming a receiving channel, where the mat is formed, means for producing an elongated mat from the material obtained in the specified receiving channel, a baling chamber for translational collection of ca5 gave the formation of a feed channel for ipnoro material through the batching box from the receiving compartment through the indicated devices to the batching chamber devices for supplying sensible material intended If the year of the lining material of the posts forming the specified mat and the lining material is fed with the upper and lower strips of the lining material, then they are provided for in the node in the feed channel of the element for installing the second meme of feeding the specified material, bringing the bale from the specified mat, and adapting the decree of the machine Needed, covering the foam in the feed channel, in order to at least place it above or below the mat made with the help of a fixture for supplying the casing material from the decree Foot feed mechanism for use in the feed channel at the top or bottom of the mat produced decree nnym mat forming means.
E as a slave for fastening together the upper and lower tea) of the sheathing material through the specified mat at the edges of this mat.
In a sharp way, it is desirable that the indicated means for fastening the hearth mechanism ¹ and the sheathing material include a first element for mounting a first mechanism for feeding said material and a second; hani;
means for supplying material from the first and second feeding mechanisms simultaneously from above and below the specified mat corresponding to the node in the feed channel of the means for fastening the upper and lower parts of the casing material at the edges of the mat.
Means for attaching the sheathing supply mechanisms should each be used to install the sheathing roller so that it is wound up gradually in order to supply said material.
Therefore, in such a construction, as a rule, the fact will occur that the mat will be formed in such a way that its transverse axis will be in a horizontal position, and the sheathing material from the first feed mechanism will be on top of the mat, while the sheathing material served from the second feeder bottom mat.
Preferred is a design in which the sheathing material is supplied to the molding means so that the formation of the mat and its sheathing occur simultaneously.
|] It is natural that this bagging machine further includes
The means for processing the material in the mat should include two pressure elements, such as two closed tapes having opposite feeds, 5 moving in the same direction, or two oppositely rotating pressure rollers between which the material is fed.
Where there are first and second mechanisms for supplying cladding material, devices should be provided for supplying cladding material from the first and second feeding mechanisms to the input of the clamping device formed by the indicated pressure rollers or tapes due to their converging first and second movement, as well as the passage of material through the clamping device. Means must also be provided 20 for supplying the material forming the mat to the inlet of the pressing device between the first and second supply of casing material.
As an alternative to the separate separate first and second sheathing supply mechanisms, means can be used to fasten the sheathing supply mechanism to install a narrow sleeve with sheathing 30 material in the form of an axially assembled sleeve, which is positioned as a result so that the material from which a mat is made, inserted into said sleeve for sheathing with said sheathing material 35 either before or after receiving the mat.
However, it is desirable that the means for installing such a sleeve be placed so that in reality the material from which the mat is made is included in the specified sleeve above the specified means of forming the mat.
So, where this method is used, fixing the opposite layers of sheathing material through the mat can be eliminated if the clumping of the plant material does not matter, i.e. in the event that the bale should be used as feed.
Where there are separate feeding mechanisms for the sheathing material, means should be provided for feeding the edge portions of the sheathing material from the first or second feeding mechanism so as to stretch55 around the longitudinally moving edges of the mat above or below the edge parts of the sheathing material from the other of the indicated feeding mechanisms. As a result of this design, the sheathing material is rolled around longitudinal ί
183/742 edges of the mat, thereby ensuring a neat appearance and better tightness. However, within the scope of the claims, it is possible for the casing material located above and below the mat to extend beyond the mat and fasten the casing material in this protruding part.
The cladding should preferably be a mesh. In order for the untwisted sheathed mat to be towed in practice on water or on the ground, the design should preferably be such that the sheathed mat has sufficient tensile strength. This can be achieved by using a mesh having a sufficient tensile strength, for example at least 500 kg, preferably more than 750 kg, most preferably more than 1000 kg, and most preferred strength over 1500 kg.
As an alternative to providing a sheathing material having a tensile strength uniform and high, as mentioned above, reinforcing elements passing either through or along the sheathing material can be included. Such elements include stretched tapes, cords, cables and strings passing directly through sheathing material.
However, it is more preferable that the sheathing material include longitudinally extending strips of relatively closed structural material.
This can serve two purposes. First, such structures can be areas of increased strength. Secondly, they can be used as an additional element for binding or fastening together the upper and lower parts of the sheathing material, i.e. by providing areas where the bonding elements can have a point of application of force. The longitudinally extending strips can be separated from the cladding material and can be superimposed on the surface of the cladding material, preferably one that lies farther away from the mat in the cladding mat, and these strips can be used either before the cladding material is attached to the mat, or after how the mat was treated with sheathing material. It is desirable that they are located on both main surfaces of the mat. These strips can be made from; for example, heavy paper, fabric, dense mesh, plastic materials, and a woven metal dase.
Alternatively, said strips may be embedded in the sheathing material. For example, if the sheathing material is a mesh, then such strips may be zones of a finer mesh or of an even denser structure, such as tightly woven regions or a sheet region. Where the mesh is a braided or knotted structure, strips can be formed as more densely woven or knotted longitudinally spaced zones or edge portions.,
Where the sheathing supply mechanism includes two roll rollers forming the sheathing material, strips can be obtained along the longitudinally spaced edge zones of one or two strips of sheathing material. They can be made additionally or instead of at least one longitudinally spaced inner zone of one or two of these strips of casing material.
Preferably, the joining of the casing material together is carried out so that the fastening is inside these bands.
Means should be provided for compressing the mat into longitudinally spaced areas within which the sheathing material is joined together, and these means should preferably be installed immediately in front of the work unit where the bonding takes place.
The bonding of the layers of cladding material can be accomplished by any suitable means, such as stitching, pinning, welding, bonding, ultrasonic welding or the application of interconnecting means to the parts of the cladding that must be joined and interact;
Stitching is especially preferred for most bale applications. For example, to use them as feed, it is advisable to avoid using parentheses, and use stitching. For such end use, there is usually no need to fasten the layers of sheathing material together, except at the edges of the bale, since the problem of bundling of plant material in the bale is probably not so acute.
The baling machine may include means for feeding at least one continuous fastening tape to a specified work unit on top of the front surface of the sheathed mat, a tape that consists of a fastened set of connecting elements, and means for feeding the tag of said connecting elements through the mat for fastening sheathing material on the opposite side of the mat.
Such a continuous fastening tape can be, for example, a plastic tape holding the tapered elements protruding from the surface of the tape, and these taped elements can simply hook the sheathing material on the opposite side of the mat, or, more preferably, the second retaining tape can be applied against The same element could be located in any position inside the indicated retaining net, the opposite side of the mat, in which the charged elements should be located. It is imperative that the design of the indicated you be such that everyone is pointed.
.It is desirable that the connecting device in the work unit is located so that • the indicated upper and lower parts of the sheathing material along at least one longitudinally located inner zone.
The baling machine includes a voltage controlled valve to eject bales from the baling chamber. Pack nov for the go material at the end of the mat section at the top of the hour and the packaging chamber.
Preferably, the operation of the valve can be applied to the stapler also includes guillotines: the faces for cutting off the upholstered mat or for cutting off the blank sheathing and guillotine shears are connected, as a result of which they work synchronously, so that they can be met ip so that the valve included a predetermined interval of time after the action of the guillotine shears. The baling machine may be a stationary machine to which material, such as straw to be bundled; , transported by other means.
However, the baling machine should preferably be mobile and therefore, as a rule, be equipped with wheels or tracks.
The machine should preferably include a crop grapple used to grab that crop, i.e. chopped straw, and feeding it to the inlet of the machine. The machine has means for controlling, at a predetermined laziness, turning off the exciting time interval before turning on the guillotine shears. This leads, as a rule, to the fact that the unfilled part of the sheathing material will be in the area of action of the guillotine shears at the moment when they are switched on, thereby cutting off the material forming the mat emerging from the end of the sheathed mat.
The second object of the invention is a transition block for a bale machine, designed to turn it on, so as to produce a rolled-up sheathed mat in the form of a bale, this transition block includes a receiving channel for material in the form of a mat, means for forming into a mat and means forming an output channel for interfacing with the input channel of the corresponding bale wrapper, the material feed channel from the receiving channel through the mat forming means to the output channel, the means for installing the feed mechanism of the material used to supply encasing material progressively in the feed channel so that it is located at least above and below said mat, and preferably the cutting unit in the feeding channel comprising means for fastening together the upper and lower portions of the encasing material.
Therefore, such a transition device provides bolting for baling machines designed simply enough to assemble a rolled bale of unlined mat, to turn an existing bale machine into a bale machine in accordance with the invention.
The transition device is such that it can give the converted baling machine all or any of the desired characteristics of the packaging machines in accordance with the invention described above.
A third aspect of the invention provides for the production of a sheathed mat from a material, such as plant stem material, in which the sheathing is a mesh equipped with longitudinally elongated bands of material of a relatively dense structure, these tapes are fastened together with the upper and lower parts of the sheathing material through the mat. These tapes can be integrated into the cladding mesh material or may be above the surface of this cladding material.
The invention includes a method of manufacturing sheathed mats using a bale machine of the type described.
In a further embodiment, the invention includes a mat sheathing machine intended for producing sheathed mat, which includes a material receiving channel for forming a mat and an outlet channel for sheathed mat, means for forming said material into an elongated mat, a feed channel for said material through the machine from the receiving channel to the output channel through the indicated means of forming the material, means of fastening the feeding mechanism of the casing material intended for supplying the casing material and translationally in the feed channel so that it is located at least above and below the specified mat, the working unit in the feed channel, including means for connecting together the upper and lower layers of sheathing material through the specified mat.
The sheathed mat produced by such a machine can be rolled up at a certain stage for the production of bales. This can be done by feeding the sheathed mat to a conventional baling machine, which can be done by moving the baling machine along the unfolded mat to be gripped by a gripping device,
Figure 1 shows a vertical side section of a baling machine in accordance with the invention; figure 2 is a view in plan of the mat in accordance with the invention; in Fig.Z - section aa in Fig.2; figure 4 is the same, alternative design of the mat; figure 5 is a vertical side section of a second variant of implementation of the packaging machine d in accordance with the invention; Fig. 8 is a schematic illustration of a bale produced by the bale wrapping machine shown in Fig. 1 and partially unwound.
As shown in figure 1, the bale machine includes a receiving channel 1 for straw, which must be packaged, a bale chamber 2 for the progressive collection of the rolled bale, two oppositely rotating pressure rollers 3 and 4 for forming straw into mat 5, the upper roller of the sheathing mesh tape 6 and the lower roller of the tape of the sheathing mesh 7, installed in the corresponding grooves 8, 9, holding the rollers, and a working unit, including a set of firmware devices 10 for through-flashing the mat 5.
Packing machine in more detail. shown in Figure 1 is a mobile baling machine that must be towed to grab the straw from the window and form a sheathed, packaged mat. The baling machine is equipped with wheels 11, 12 and a gripping device 13 for grabbing straw or other crops. The baling machine has a front part of the housing 14 with a window forming a receiving channel 1 for supplying the crop inside the baling machine. A recess 8 is provided at the upper end of the front of the housing 14 for mounting the roller, into which the roller 6 of the sheathing mesh is laid in practice. The output slot 15 is made between the front upper end of the recess 8 and the removable cover 16. and the first rotation of the mesh tape 17 is through the slot 15 and into the buncher through the second slot 18 in the upper part of the housing 14
At the lower end of the body of the machine 14, a receiving recess 9 is provided for the lower roller, which holds the second roller 7 of the sheathing tape, from which the second web of mesh material 19 is fed in an upward direction towards the front of the baling machine.
The pinch rollers 3 and 4 are installed inside the housing 14 immediately after the input channel 1 so that the straw captured by the pickup roller 13 is sent directly to the clamping device between the rollers 3 and 4. The first rotation of the mesh material 17 is carried out along the guide rollers 20 and 21, and from here along the roller 3 to the entrance of the clamping device above the straw. The second ribbon of mesh material 19 is fed along the guide roller 22 and from here along the roller 4 to the input of the pressing device under the straw. The straw mat formed by the pinch rollers is stitched, therefore, simultaneously due to the upper and lower movement of the sheathing tape.
From the rollers 3 and 4, the sheathed mat enters the work unit, which contains a set of stitching devices 10 and a support table 23. There are four sets of stapling devices here, and in a row located transversely to the main movement. Therefore, only one fixture can be seen in the figure. Each such device is located on top of the mat against the support table 23, in order to submit several rows of brackets for the mat when it passes through the work site.
The action of the flashing devices can be controlled by measuring the rotation of the pinch rollers to feed the mesh from the feed mechanism in order to guarantee 13 watts □ even placement of brackets along the mat.
From the working unit, the mat is fed to the clamp by a device consisting of two pushing rollers 24 and 25. Instantly installed; the lower part of the pushing roll is piled;
Oti ZatU, mate, when necessary.
4k, and voltage-controlled wire <26 is adjusted so that the guide surface 27 is provided in order to provide a mat.
the supply of mesh material after the action of the guillotine shears in the clamping device, consisting of rollers 28 and 29, which are discussed below.
The next opposite rollers and 29 feed the mat into the bale chamber 2 onto the pushing roller 30, which forces the mat, which accumulates in the bale chamber, when it enters the bale chamber to rotate, raising it thereby.
Packing chamber contains a node of the bordering strips 31 parallel to y. Each of these strips 31 is closed and drapes around the first roller 32, which bows to the surface on which the bale is piled in the bale chamber, po: star 36, movable in front and rear position in the bale chamber. Decree with the mat pos at soblique 33 in front of the stacking chambers per <
35 riksirovannyh rollers and set roller
NEP;
The attached garland of rollers 35 and 36 makes it possible to change the length of strip 31. On the back side, along a given wall of the packaging chamber, see:
It can be seen that lanes 31 enclose the bale. arr;
YOU ARE T!
will be selected from the festoon formed by rollers 35 and 36 in order to collect the resulting elongation.
bi, the guide roller 34 in the upper right corner of the bale chamber, the embossed strip 31 passes. along the indicated line to the fixed roller 37 in the upper corner of the bale machine, down to the fixed roller 38 from here onto the fixed roller 39, which is with the push roller 30 and immediately assembled the bale and finally the voxo bale back to the roller 32.
when it is collected in the chamber, in such a way that the bale is free for yagging in a restrained form, and the strip
Finally, the back wall of the stacking hera is formed as exit 40, which spills relative to the upper zakam
POC!
the bottom corner of the packaging chamber and interacts with the roller 39 so that the bale wounded in the chamber becomes free to lower it back down the packaging machine and push it out by tensioning the strips 31.
As a rule, there should typically be about five to ten such strips 31, following in parallel around the described rollers.
The rear wall of the baling machine is brought into the open state by two hydraulic plungers 41 mounted on one side of the baling machine. Desirably, controls are provided to synchronize the operation of the plungers 41 with the operation of the guillotine shears 26.
Therefore, in practice, straw or another agricultural plant is captured by means of a pickup roller 13 and fed through a receiving channel 1 between the pinch rollers 3 and 4, where this material is formed into a mat and at the same time receives an upper and lower covering of mesh material. A sheathed straw mat passes through the working unit, where the upper and lower layer of the sheathing mesh material and reinforcing tapes are fastened together by means of fastening devices 10 along parallel to the longitudinal races olagayuschihsya zones. As a rule, it seems necessary to stop the operation of the gripping device 13 for a short time before the bale is formed so that the empty tension of the net is transmitted to the guillotine shears 26. The guillotine shears 26 are then turned on and cut the net, and the bale is ejected through exit 40. When the gripping device being switched on again, the push roller 30 pushes the net along the guide surface 27 into the pinch rollers 28 and 29. in order to allow the sheathing material to pass into the packaging chamber.
Naturally, in addition to the illustrated components, appropriate means can be used to drive the various rollers that have been described and to provide movement separately from the rollers when it is necessary to take into account changes in the thickness of the mat. However, these additions may be of a normal nature.
A conventional baling machine is usable since it bears a close resemblance to the back of the machine illustrated here. Thus, in a conventional machine, the front body part 14 and the recesses for receiving the rollers 8 and 9 are eliminated, but exciting! the roller and wheels are installed in a conventional machine in approximately the same position as for now
The lower one, the roller under the sheathing net 7. Therefore, the captured crop goes directly to the rollers 28 and 29, as well as to the packaging chamber. Therefore, it is obvious that has been described with reference to the right part. figure 1, the transition block in action for installing it in a packaging machine of this type to convert it into a machine that can simultaneously pack and sheathe.
Figure 2 shows a plan view of a mat in accordance with the present invention. The mat shown includes the upper and lower layers of the sheathing mesh, for example, of high tensile nylon mesh. One of the acceptable mesh shapes for this purpose is the so-called ponofiber mesh, which consists of thick fibers that are crossed by a substantially rarer network of thin fibers, covering the entire network structure with extremely high strength.
A mesh with a relatively dense structure is formed along each longitudinally moving side 42 of the mesh tape above and below the mat and along two internally located longitudinal strips 43. Accordingly, longitudinally spaced stripes of dense structure are separated up to 900 mm, while a distance of 400 mm is preferred.
As can be seen from FIG. 3, the upper mesh layer 44 is wound around the edge of the mat under the lower surface of the lower mesh layer 45. The longitudinally located zones 46 of the mat between the upper and lower mesh layer with a relatively dense structure 42 and 43 are made equal and are fastened with brackets 47, which are skipped through the corresponding dense structure of the mesh strip to connect the upper and lower mesh strip. Accordingly, the brackets are located at a distance of 15 to 30 cm.
As shown in FIG. 2, the rows of brackets 47 on the sides of the mat were arranged so that each bracket was placed in the longitudinal direction relative to the mat, while the brackets in the center strips of the mat 43 were placed across these strips.
In the modification shown in FIG. 4, the structure of the mat is the same as in FIGS. 2 and 3, except that the edges of the upper and lower strips of the net extend transversely above the mass of straw making up the mat and are attached one above the other without twisting under the edge of the mat, as shown in Fig.Z.
The mats obtained in a baling machine, as described above, are folded, as shown schematically in FIG. 6, to form large round bales,
Bales of this type can be formed, as a rule, with a weight equal to 500 kg. Usually they should be made weighing from 300 to 450 kg,
Bales of this kind should be made, as a rule, with a width of about 1.5 m and a length that allows you to get a bale with a diameter equal to about 1.5 m.
However, the size of the bale is just a matter of convenience.
Many modifications and variations of the present invention, if specifically described, may be made within the scope of the claims. In particular, instead of strips of a dense structure material combined with the corresponding mesh tapes, as shown in FIG. 2-4, braid or other tapes may be used laid over the surface of the mesh sheathing mat, either before or after the mat sheathing step has been completed.
Baling machine shown in figure 1. may include appropriate guide means for producing the effect of rolled edges, as shown in FIG. _E
The bale wrapping machine З can be a stationary machine, not equipped with a specially grabbing roller or wheels for movement, as shown in Fig. З, but it requires the supply of material to the machine, which should be formed into a mat.
Instead of a baling machine equipped with recesses for mounting two separate rollers for the tape material of the skin, as shown in FIG. 1, the bale machine can be equipped with a device for installing a sleeve with assembled mesh material between the pickup device 13 and the pinch rollers 3 and 4. In this design, the crop that forms the mat passes into the hole of the specified sleeve and the wound net is gradually wound from the sleeve and fed with material for the mat in the clamping device formed by rollers 3 and 4. As an option, a sleeve with sheathing net material can be installed after the clamping rollers 3 and 4 and before side by side.
Thus, as a further modification, FIG. 5 shows a packaging machine similar to that shown in FIG. 1. except as given below. The front part of the machine is extended to connect an oval ring-shaped sleeve 48 to it, the longitudinal axis of which passes through the bale machine and in which the sleeve with a mesh 49 assembled on it is located, one end is brought out from the hopper to the entrance of the pressure rollers 3 and 4. The guide the plug 49 serves as the basis for supporting the sloma coming from the receiving channel to the input of the pressing device, consisting of rollers 3 and 4, and the second guide plate 50 serves as the upper guide of the straw, so that the input of this solo we are in the bushing hole 48.
This enables various options for the '-' hearth and tube-shaped sheathing material.
The most suitable straw mat sheathing material in accordance with the present invention is a knotless nylon mesh in which the joints are made by brazing, i.e., by ultrasonic welding, from a material which is, for example, knotless knox type 30 C nylon (cord ) with a diameter of 1.25 mm, having a rg burst strength of 1700 kgf and a high puncture resistance.

权利要求:
Claims (3)
[1]
Claim
1. A method of producing a bale from plant material, which consists of a material in fossil fuels, in order to use the plant batching machine in a centric manner, forming a mat of plant material into a roll, feeding mesh sheathing material and trimming the mat from plant material and mesh sheathing material after forming a roll, distinguishing with its own possibilities, before folding into a roll, a mat of plant material is sheathed with mesh material, the upper and lower parts of which are fastened; huddle together at least around the edges.
in order to expand the function
[2]
2. A bale of plant material, made in the form of a rolled up mat and a plant material, characterized in that, in order to improve quality, the plant material mat is placed in a holding sleeve made of mesh with longitudinal protruding strips, through which the upper and lower arms are fastened together through a mat of ρί material, while a strip of material containing a packaging chamber for the gradual accumulation of plant material and folding it into a bale, means that form the input Noah 5 channel, for receiving material of the means for forming an elongated mat from plant material supplied to the inlet channel, means forming a channel for supplying material from the input channel through 10 means for forming an elongated mat to the packaging chamber, as well as means for installing the mechanism for supplying lining material , characterized in that, in order to expand the functionality of 15 capabilities, it is equipped with means for packaging the mat in the casing material, having a mechanism for the gradual supply of casing material and by means for setting at least the feeding mechanism in the feeding path 20 on top and bottom and means for guiding encasing material and placing it above and below the mat of plant material.
4. The machine according to claim 3, characterized in that the means for installing the supply mechanism of the sheathing material have devices for fastening together the upper and lower mesh tapes along the edges of the sheathing material.
30 5. The machine according to paragraphs. 3-4, on the basis of the fact that the means for forming an elongated mat from plant material have two clamping elements installed in the supply channel one above the other.
35 6. The machine according to claim 3, with the fact that the means for installing the supply mechanism for the sheathing material are made in the form of a sleeve covering the feed channel, on which a mesh sleeve assembled in the axial 40 direction is placed sheathing material.
7. The machine according to paragraphs. 3-4, on the basis of the fact that the means for packing the mat are equipped with a device for fastening
45 together the middle parts of the upper and lower ribbons of the sheathing material installed in the feed channel.
8. The transitional unit of the baling machine for the production of cylindrical ru-
50 bosoms of plant material, comprising a housing, means forming an inlet channel for receiving material, a feed channel formed between the inlet channel and the exit window, means for forming plant material into a mat made of material whose structure density exceeds the density of the mesh structure.
[3]
3. Baling machine for the production of cylindrical rolls from a plant that means for installing the mechanism for supplying the sheathing material, means for supplying the sheathing material above and below to the feed channel, means for guiding the sheathing material and means for fastening the upper and lower sheathing material through the mat, I distinguish -, which, in order to expand the functionality, it is equipped with means for connecting to the packaging machine. 5, means .. for combining the output channel with the input channel baling machine and means for packaging the mat of plant material encasing material which has a network structure.
Figure 1
Figure 4
1837742 i *
Figure 5

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同族专利:

---

公开号 | 公开日

---

CN87101755A|1987-09-23|

---

EP0236121A1|1987-09-09|

---

WO1987005185A1|1987-09-11|

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US4838016A|1989-06-13|

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CA1296944C|1992-03-10|

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JPH0799978B2|1995-11-01|

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AU6964987A|1987-09-10|

---

CN1010916B|1990-12-26|

---

JPH01501835A|1989-06-29|

---

AU607128B2|1991-02-28|

---

GB8605301D0|1986-04-09|

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法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

GB868605301A|GB8605301D0|1986-03-04|1986-03-04|Baling machines & products|

---

PCT/GB1987/000153|WO1987005185A1|1986-03-04|1987-03-04|Baling machines and baled products|

---