Sugar cane biomass chopper

Abstract

A sugarcane biomass chopper that can be attached to a harvester. The sugarcane chopper has a main support configured for attachment to arms of a harvester's top cutter or topper. The sugarcane chopper further includes a leaf deflector attached to said main support. The shredder is connected to said leaf deflector on one side and a pneumatic impulse resource on a second side. The pneumatic impulse resource is further connected to a flow concentrator; and a discharge pipe connected to said flow concentrator. The chopper is configured so that biomass is directed by the leaf deflector to the pneumatic impulse resource and into the shredder, which in turn discharges the shredded biomass through the flow concentrator and the discharge.

Claims

1. A sugarcane biomass chopper, comprising: a main support that attaches to one or more arms of a harvester's top cutter or topper, wherein the main support is configured to be raised and aligned with an upper section of a crop to be cut; a leaf deflector attached to said main support, a shredder connected to said leaf deflector on one side and a pneumatic impulse resource on a second side; the pneumatic impulse resource is further connected to a flow concentrator; and a discharge pipe connected to said flow concentrator, wherein the chopper is configured so that biomass is directed by the leaf deflector to the pneumatic impulse resource and into the shredder, which in turn discharges the shredded biomass through the flow concentrator and the discharge pipe.

2. The sugarcane biomass chopper of claim 1; wherein the main support comprises a hydraulic motor, which drives the chopper through flexible hoses.

Description

BRIEF DESCRIPTION OF FIGURES

(1) In order to materialize the advantages briefly commented above, to which users and experts in this specialty may add many more, and to facilitate the understanding of the constructive, constitutive and functional characteristics of the invented chopper machine, described below is a preferred example that is illustrated, schematically and without a given scale, in the attached figures. It is worth expressly clarifying that, precisely because it is an example, it should not be assigned a limitative or exclusive nature of the scope of protection of the present invention patent. It is simply provided for merely explanatory and illustrative purposes, regarding the basic conception on which the invention is based.

(2) FIG. 1 is a side-view scheme representing a conventional sugar harvester.

(3) FIG. 2 is a side-view scheme showing the general configuration of the chopper object of this invention.

(4) FIG. 3 is a front-view scheme showing the general configuration of the chopper object of this invention.

(5) FIG. 4 is a front view of the biomass chopper object of this invention.

(6) FIG. 5 is a side view of the same machine from the previous figure.

(7) FIG. 6 is a perspective view showing the outside of the same chopper object of this invention.

(8) FIG. 7 is an enlarged detail in perspective, showing the lower part of the invented chopper.

(9) FIG. 8 is a global view, showing a harvester working together with the invented biomass chopper.

(10) FIG. 9 is a perspective view of the main support in accordance with one embodiment of the present invention.

(11) It is worth pointing out that all figures, with the same reference letters and numbers, correspond to the same or equivalent constitutive parts or elements of the whole, according to the example chosen for the present explanation of the invented chopper.

DESCRIPTION OF THE INVENTION

Direct Advantages of the Application of this Invention

(12) As time went by, machinery became modernized. Maybe the greatest technological impact was made by the combine harvester, which made it possible to carry out a green harvest, leaving cane residues on the plot. Also, there was no need to burn them, as had been taking place with the Louisiana harvesting method, used in the 1980s.

(13) This modification in the environment entailed the need to modify the way to manage other practices, such as fertilization, weed control, etc.

(14) Looking to the future, this activity faces major challenges such as ensuring its economic, social, and environmental sustainability, as well as streamlining full bioenergetic use, with practices seeking to improve the energy balance of production systems.

(15) In this context, using the biomass chopper introduced in this invention attached on a sugarcane harvester provides a better energy balance in fuel consumption, as it carries out two tasks in one pass. Thus, it reduces exhaust gas emission, lowers operating costs, leaves a homogeneous straw blanket in lower quantity, and favors subsequent agricultural practices such as decompaction, fertilization and grubbing.

(16) It is worth pointing out that after the biomass chopper of this invention is used, two basic possibilities of use arise, i.e.:

(17) 1. Feeding livestock, ideal to prepare silage or daily intake.

(18) 2. Biomass fuel for the cogeneration (bagasse-fired boilers) or generation of electric energy (special biomass-fired boilers).

(19) Livestock Feeding

(20) Climate variability is a major problem for agriculturers today.

(21) Actually, the natural variability of rainfall, temperature and other climate conditions is the main factor that accounts for changes in agricultural production, which in turn is one of the main factors in the lack of food security.

(22) With the biomass chopper that is the object of this invention, it is possible to use the better share of sugarcane waste, green leaves and tops, turning them into an excellent high-energy food and with exceptional production. This allows our producers to face shortage situations—in the face of the worst droughts, we will always have a non-productive green blanket for the sugar-alcohol industry in our plantations, which so far has mostly been discarded, thrown on the field as straw.

(23) Biomass Fuel

(24) In our country and around the world, there still persists a tradition of burning cane fields, which generates multiple problems of an agronomic, environmental, and socio-economic nature.

(25) The incorporation of technologies for agricultural crop residue management regarding the cogeneration (bagasse-fired boilers) or generation of electric energy (special biomass-fired boilers) is crucial to eliminate this problem that increasingly compromises the sugar industry.

(26) Therefore, knowing the amount of residue available after sugarcane green harvesting and considering the most appropriate machinery for collection and baling are key aspects in the evaluation of strategies regarding the utilization and viability of using agricultural crop residue commercially.

(27) Currently, there is a process of tying and baling, whether in rolls or in mega bales, which accumulate an excessive amount of inorganic matter. This results in a loss of heating value that is carried to ashes, which results in a very large amount of ash and a significant erosion in the combustion chamber due to the high amount of earth.

(28) The biomass chopper object of this invention stands out because it allows to obtain clean fuel, without inorganic matter, as the collection is made from the cane tops.

(29) The received material is finely chopped homogeneously, and blown up to its own collection cart increasing its contact surface with air, which favors its drying inside the combustion chamber of the conventional bagasse-fired boilers, and thus significantly increasing its heating value and leaving minimum ashes.

(30) In terms of energy, according to the electricity generation potential in sugarcane mills, each ton of agricultural crop residue is estimated to produce 0.4 megawatts; this means that four tons of agricultural crop residue would amount to approximately one oil ton.

(31) Also, the field is left covered with a thinner, more homogeneous straw layer, made up by the remainder of the leaves, providing coverage and incorporating organic matter to the field. This facilitates subsequent agricultural practices such as decompaction and fertilization in dry canes, and grubbing and clearing in the cane fields that have already completed their cycle, without any need for undesirable burning.

(32) Without considering the inconveniences that would be caused by fully removing straw, we could said that with the current method of tying and baling of the post-harvest straw blanket, whether in rolls or in mega bales, an excessive amount of inorganic matter is accumulated. This results in a loss of heating value that is carried to ashes, which results in a very large amount of ash and a significant erosion in the combustion chamber due to the high amount of earth.

(33) The operational principle of the biomass chopper of this invention is based on collecting and processing sugarcane upper leaves and tops (60% of the agricultural crop residue) simultaneously with the operation of the combine harvester.

(34) In fact, the biomass chopper object of this invention is essentially different in that it processes the upper aerial part of sugar canes, resulting in a novel operation which allows to obtain the most virtues and energy potential from the crop.

(35) With this invented machine, the progression of the harvester is used to carry out the chopping and collecting of the upper leaves and tops at the same time, performing two operations in one pass.

(36) To this end, the special, novel adaptation of the chopper's mechanical resources was designed so that they are activated by using the same hydraulic system as the harvester. The work of both machines thus becomes automated and coordinated, without detriment to the harvesting operation.

(37) With the present invention, and a previous calculation of the necessary power for the work to be done, a conventional fodder chopper was used, of the type designed to operate attached on a tractor and mechanically activated by power take-off and provided with a three-point support.

(38) With the novel, specific design of this chopper machine, the support for assembly on the tractor was eliminated and a new support was designed to be placed at the end of the arms of the top cutter or topper of the cane harvester, so that it projects from that end.

(39) Also, activation was changed from a mechanical to a hydraulic drive-shaft transmission system, to which end a coupling support and a mounting sleeve are included. The latter relates to an activating hydraulic motor, which operates connected to the harvester's hydraulic installation, to which it is linked through the pertinent flexible hoses. In this way, the chopper can be directly activated from the harvester's cabin.

(40) If preferred, it will be possible to use a series M-300 hydraulic motor, which comprises a 300-cc gear motor, fitted with a relief circuit for its protection, directly activated from the machine cabin. It will be the actuator responsible for transforming the oil's hydraulic motion into mechanical motion.

(41) The correct placement of the chopper at the height of cane tops, together with a good selection and distribution of the chopping blades, guarantees excellent processing and collection.

(42) Equipment in Operation—Field Tests

(43) Before the harvest was started, the invented chopper was calibrated and tuned-up, duly mounted on the harvester, and the chopping size, height and orientation of the propeller tube for correct discharge were selected.

(44) In one same pass, sugarcane was collected and simultaneously biomass was finely chopped and discharged towards a first transfer. On a second transfer, programmed after the first, the cane destined to industry was unloaded.

(45) During the field tests, the load ratio between the two collected products was measured. The result was one load of biomass every four loads of cane for industry, depending on the yield and status of the cane field, as well as the time of the year and the preceding climate conditions.

(46) Also, measurements were made of percentage removal of the straw uniformly distributed by the primary and secondary roof turbine vents in charge of separating the impurities from the harvested cane. This determines a lower density of the agricultural crop residue blanket due to the collection of the upper leaves and tops by the chopper object of this invention.

(47) Actually, the chopper object of this invention was verified to obtain a collection of approximately between 50% and 60% of the full agricultural crop residue.

(48) Without a doubt, this reduction in agricultural crop residue improves soil permeability and allows subsequent tasks to be more effective, such as decompaction, fertilization or grubbing, avoiding the so undesirable straw burning that impairs both the crop and the soil.

(49) In summary, the biomass chopper machine object of this invention can be claimed to yield the following benefits:

(50) 1. Processing and collecting clean biomass.

(51) 2. Making it possible to feed and produce livestock.

(52) 3. Providing us with a renewable fuel with excellent characteristics.

(53) 4. Having lower collection costs and fuel savings.

(54) 5. Reducing workload by conducting two operations simultaneously.

(55) 6. Having excellent performance.

(56) 7. Generating a lower amount of exhaust gases, thus reducing environmental impact.

(57) 8. Reducing compaction and crop impairment.

(58) 9. Facilitating field tasks after the harvest: decompaction, fertilization and grubbing.

(59) Inventive Step

(60) No currently-known biomass chopper proposes, or even suggests, the constructive solution derived from the statements in the preceding paragraphs.

(61) Therefore, this is a proposal that, in addition to its novelty, presents a clear inventive step.

Detailed Description of a Preferred Example

(62) As explained above, the sugarcane biomass chopper object of this invention has been conceived to be placed mounted on and connected to a combine harvester as the one represented in FIG. 1. In this way, it makes use of the harvester progression to, at the same time, collect and process the sugarcane upper leaves and tops, with the material obtained (biomass) being unloaded as it progresses, independently.

(63) As can be seen especially in the detail of FIG. 7, the invented chopper includes a main support (1) planned to be incorporated and attached to the arms of the harvester's top cutter or topper (2).

(64) Also, by incorporating a support plate (3), a hydraulic motor (5) is added, which is fed by the hydraulic installation of the same harvester, through flexible hoses (4).

(65) If we take a look at FIGS. 2, 3, 4 and 5, we can see that the chopper object of this invention comprises a front structure to deflect leaves (6), with the function of orienting the upper leaves and tops that are harvested towards the shredder device (7), activated hydraulically.

(66) The same FIGS. 2 to 4 show the pneumatic impulse resource (8) through which the chopped material is led to the flow concentrator (9) associated to the discharge pipe (10).

(67) Especially FIG. 6 shows the invented chopper seen in perspective and mounted at the end of the arms of the harvester's top cutter. The main support (1) attaches to one or more arms (2) of the harvester's top cutter or topper so that the main support (1) (as shown in FIG. 9) can be raised until aligned to take the upper part of the plantation, and catch the leaves and tops as the harvester progresses.

(68) Finally, FIG. 8 shows how the invented biomass chopper operates, working on the upper leaves (H) of the plantation (P) and with its discharge nozzle (11) oriented towards the hopper (T) of the transport cart (12), which is laid out in tandem with the transport cart (13) where the harvested sugarcane is discharged, through the nozzle (14).

(69) The nature and main object of the present invention having been described and exemplified, as well as the way in which it can be taken to practice, the following claims are made as regards ownership and exclusive rights:

(70) 1. A sugarcane biomass chopper attached on a harvester, characterized by being a piece of equipment that cuts, collects, chops, and launches the biomass from the sugarcane upper ends (leaves and tops) for the purposes of biofuel production, livestock feeding and other applications. It has been conceived to use the harvester's progression and, at the same time as the cane is harvested, chop and collect the biomass coming from the sugarcane tops, taking the upper leaves and the tops from the plantation. In this way, two operations are simultaneously conducted in one pass, and such chopped material is used to obtain biomass for different purposes such as livestock feeding, as well as the production of biofuel with excellent physico-chemical characteristics, while reducing the percentage of agricultural crop residue. It is placed at the end of the arms of the cane harvester topper, attached to a robust support from where it projects. It is activated by a hydraulic motor that, through flexible hoses, is connected to the harvester's hydraulic installation and managed from the harvester's cabin.

(71) 2. The sugarcane biomass chopper attached on a harvester, as claimed in item 1, characterized because it is hydraulically activated as if it were the original sugarcane harvester topper.