This utility model relates to a shed for the air curing and drying of tobacco plants which permits use of the space throughout the whole year, making it possible to pre-wilt tobacco and grow seedlings alternately.
At the present time the type of tobacco which is cured in air, for example Burley, is cured naturally, that is without a forced supply of air, in sheds of type: (a) the conventional type, of various sizes, length and number of layers of plants; (b) GB2, which are sheds 4 to 8 meters wide by 32 meters long with two levels of plants; (c) G3, which are sheds 8 meters wide by 32 meters long with three levels of plants; and (d) GB1, which are sheds 4 and 6 meters wide and 32 meters long having one layer of plants and a roof of conventional transparent plastic.
Processes for the curing and drying of tobaccos vary with the type of tobacco and the conditions required for each type. For example, Virginia type tobacco requires a curing process in which a forced and/or convected air supply and artificial heating are required to achieve the temperature required to cure it.
According to this utility model provision is made for a shed for the air drying and curing of tobacco and the growth and production of seedlings, comprising: (i) a plurality of columns (2) spaced at intervals; (ii) a structure (4) mounted on those columns; (iii) a removable flexible roof (5) stretched over the said structure (4); (iv) removable flexible side panels (3) which extend between the said columns; (v) fixing elements (8) to secure the said side panels (3) and the flexible roof (5).
The standard shed (1) according to this utility model comprises: (i) a plurality of columns (2) made of an appropriate material, for example, wood, concrete or metal, to support the protection for the sides (3) of the shed; (ii) a structure (4) made of appropriate material, for example wood, plastic, for example polycarbonate, or metal, to support the transparent roof (5) of the shed; (iii) a set of substantially horizontal supports (6) to support the supports (7) for the tobacco plants (FT) for pre-wilting, curing and drying, the said supports (7) being preferably provided as a system of rods or a system of wires; (iv) fixing elements (8) for the side protection (3) and the transparent roof (5) at the junction between the top of the plurality of columns (2a) and the lower part of the structure (4a) over the entire perimeter; and (v) a space (9) located on the floor of the shed to accommodate the containers for tobacco seedlings (PT).
All conventional types of sheds for air curing tobacco mentioned above, especially those of the GB1 type, have serious problems as regards the durability and difficulty of attaching the plastic roof. The damage caused by natural weather and the constant occurrence of storms with strong winds is causing producers to lose interest in constructing curing units of these types and also to not repair those already in existence.
In addition to this, the arrangement of the tobacco leaves when drying is a very important aspect for preventing the proliferation of microorganisms which degrade and prejudice the quality of the tobacco leaves which have to be subsequently processed to produce tobacco meeting market requirements. Moreover the environment in which tobacco curing and drying takes place has to have relative humidity and temperature conditions which ensure the quality of the tobacco being produced.
Necessarily, environments where tobacco curing and drying take place must be protected from the weather, and must be strong and durable to withstand extreme conditions, such as gusts of wind, hail, high exposure to the sun's rays and others which might destroy not only these structures, such as sheds, but also the harvest of tobacco leaves being processed.
Advantageously, sheds or other structures intended for the air drying and curing of tobacco leaves have to be located in rural areas, close to plantations. In addition to this they have to be made of materials which, although strong, are not very expensive and are suitable for practical structures which are easily built and do not require specialist labour, so that the expenditure of financial resources is consistent with the capabilities of the growers producing tobacco.
In the state of the art document CA1012862 describes a multipurpose rural structure which can be used for curing and drying or as a building for growing plants, using solar radiation. The structure is made of fiberglass (roof and sides, where the material at the sides may differ from that of the roof) to allow solar radiation to pass through. The advantage of this structure is its use at times when there are no tobacco leaves that have to be dried, optimising the construction cost of the structure. However, this structure is very complex to construct, requiring the use of technical and financial resources which are disproportionate to growers' capabilities. In addition to this, this known structure in the state of the art requires a greater amount of labour when carrying out the tasks of filling with tobacco leaves and tobacco plant seedlings and emptying them out.
Thus a shed which is at the same time consistent with the capabilities of tobacco growers and market requirements with regard to the quality of the tobacco produced is not at present known.
The object of this utility model is to provide a shed for the air curing and drying of tobacco with a combination of materials of excellent quality and aspects of construction offering better quality and durability of construction, in addition to creating a sustainable alternative with a view to reducing labour in the field and increasing the average age of growers. The shed according to the utility model has the advantages that: (a) it facilitates the stages of filling the shed with tobacco and emptying it, with both mechanised or manual harvesting systems, being more convenient for growers; (b) the cured tobacco leaves are of good quality and health as a result of increasing the rate at which plants are dried and removed, due to a higher temperature and better ventilation in comparison with conventional models, mainly during periods of greater humidity in the environment outside the shed; (c) the systems for attaching the roof and the side curtains which are designed to be more practical for erecting and constructing the curing and drying shed, not requiring specialist labour; (d) managing drying and curing is easy and convenient, given that the enclosure system using agricultural sheeting does not require labour for operating it, improving natural ventilation and curing conditions for the tobacco; and (e) the shed structure is close to the fields, reducing labour in the process of harvesting.
Because of the combined improvements in the structural elements and the aspects of the material introduced in this utility model the following advantages are achieved in comparison with the state of the art: the increase in ventilation and temperature within the shed brings about a substantial reduction in processing time, of approximately 25% in tobacco processing time (pre-wilting, drying and curing); and an increase in processing capacity (number of plants) of at least 32% as a result of it being possible to have more plants in the shed without losing the high quality of the tobacco processed.
The shed according to this utility model combines the simplicity required for construction and use in a rural area where there are tobacco plantations with the efficiency of a structure which can be used throughout the year, even during the period between harvests when no tobacco plants are available for drying and curing. During these periods the shed may be used to sow and grow tobacco plants to a suitable size for transplanting seedlings into the fields. It is also essential that the shed should be built of materials of a robustness and format which are suitable to withstand the weather.
As illustrated in
The shed according to this utility model constructed in this way, that is with a roof and side protection supported by columns or pillars which provides the shed with resistance to the weather, is provided within with a set of substantially horizontal supports (6) to permit the tobacco plants undergoing processing, which includes pre-wilting, drying and air curing, to be positioned substantially vertically. This set of supports (6) supports rods to which the tobacco plants are attached.
Plants are positioned in two ways, one with the plants attached to rods, placing for example 5 to 6 rods with 6 plants per square meter of floor space, totalling an average of 33 plants per square meter of floor space (5.5 rods with 6 plants) (see
The roof (5) is attached using a wooden edging piece, for example, attached to the sides, to which sections of metal, for example, aluminium, are attached (see
The side protection or enclosure (3) is made of a material which allows some of the light to pass through and provides natural ventilation within the shed, for example 65% agricultural sheeting, preferably attached by wire (as detailed in
Attachment of the metal sections, for example aluminium, to the sides is brought about by means of suitably spaced screws, for example 60 by 60 centimeters, using wood screws on a metal edging piece attached to the ends of the cross-members by large nails (for example 23×60). At the end-members the sections are attached to the cross-members.
As shown in
As shown in
The seedlings are produced according to the Float system on isopor or plastic trays.
After curing of the tobacco plants is complete, the shed is emptied, the plants being removed manually for picking apart, separating and bundling the tobacco.
Despite the fact that particular embodiments have been described, these have been presented only as an example and there is no intent to restrict the scope of protection. In fact the new embodiments described here may take a variety of other forms; but various omissions, replacements and changes in the form of the embodiments described here may be made without going beyond the scope of the utility model.
Number | Date | Country | Kind |
---|---|---|---|
2020130018762 | Jan 2013 | BR | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/IB2014/000181 | 1/21/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/115028 | 7/31/2014 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
646218 | Hollingsworth | Mar 1900 | A |
1853423 | Harris | Apr 1932 | A |
2105848 | Touton | Jan 1938 | A |
2343345 | Touton | Mar 1944 | A |
2986150 | Harold | May 1961 | A |
3450192 | Hay | Jun 1969 | A |
3866334 | Huang | Feb 1975 | A |
3935648 | Cox | Feb 1976 | A |
4021928 | Johnson | May 1977 | A |
4069593 | Huang | Jan 1978 | A |
4490926 | Stokes | Jan 1985 | A |
4961271 | Butler | Oct 1990 | A |
6846177 | Hutchens | Jan 2005 | B1 |
7748137 | Wang | Jul 2010 | B2 |
7963048 | Pollard | Jun 2011 | B2 |
Number | Date | Country |
---|---|---|
EP 2949838 | Dec 2015 | BR |
1012862 | Jun 1977 | CA |
2376921 | Aug 1978 | FR |
WO 2014115028 | Jul 2014 | GB |
101320271 | Oct 2013 | KR |
Entry |
---|
European Patent Office—International Searching Authority; Notification of Transmittal of the International Search Report and the Written Opinion of the International Searching Authority; Jun. 5, 2014; NL. |
Number | Date | Country | |
---|---|---|---|
20150366261 A1 | Dec 2015 | US |