AUTOMATIC GRAIN PROCESSING APPARATUS AND LOAD MONITORING AND TRACKING SYSTEM

Abstract

The present invention refers to an automatic grain processing apparatus comprising, in an integrated manner, that is, in a single apparatus, the following units: a cleaning unit (2); a drying unit comprising a dryer (18), a grain weighing and classification unit; and a grain packaging and labelling unit. The present invention also refers to a grain integrity monitoring and tracking system, comprising one or a plurality of sensors arranged in a package and configured to measure the properties, such as temperature and/or moisture and/or pressure and/or vacuum of the packaged grains, together with the location of the load; and at least one communication module configured to receive the data from one or a plurality of sensors and configured to transmit and store the information from said one or a plurality of sensors in a cloud or any high-performance repository. Said sensors arranged in the package (34) can identify exactly how, when and where the load, that is, the packaged grains, is stored, the temperature, vacuum and pressure conditions of the grains, and also provide agile location responses for monitoring by the end client.

Claims

1. An automatic grain processing apparatus (78) characterized by comprising in an integrated manner the following units: a cleaning unit (2) comprising at its upper end a reservoir (1) for depositing the grains; a pair of rotary sifters with different permeabilities (3), said sifters (3) being moved through a gearing system (4), wherein said gearing system (4) is connected by way of a pulley (6) to a main rotational shaft (13); a drying unit comprising a dryer (18), and said dryer comprises on the inside an air distribution means (20) connected by the piping (17) to a heat source (16); a grain conveyor means (23) connected at the upper end (21) of said dryer (18); one or more moisture measurement and classification means (37); a plurality of air permeable chutes (53) arranged inside said dryer (18); a grain conveyance means (19) coupled inside said dryer (18); and a reservoir (22) comprising a door (45) and an automatic opening system (44) at its lower end; a grain weighing and classification unit comprising a batch flow weighing scales (27) where a portion of the dry grains will be weighed, while another portion of the dry grains will be collected by way of probes (28), classified by the automatic classifier means (29) and returned to the weighing scales (27); wherein said weighing scales (27) has at its lower end a door (48) which is activated by the door opening and closing means (31); and a grain packaging and labelling unit comprising: a packaging means comprising forks (33) which position and support the packaging (34) inside the mold (55) for receiving the grain load; fork support (32), wherein said fork support (32) moves by rails (35) connected at the base (36) of said support (32); a packing securing and sealing means (46) positioned adjacently to the bagging means; an air withdrawal means (24) of the packaging (34); and a labeler (30), which applies a label (75) on the packaging (34).

2. The apparatus according to claim 1, characterized in that said cleaning unit (2) further comprises a grain directing means (8).

3. The apparatus according to claim 1, characterized in that said drying unit further comprises a ventilation means (10) and an air directing means (17).

4. The apparatus according to claim 1, characterized in that the cleaned grains, after passing through the rotary sifters (3), are directed through the chute (7) to the grain directing means (8), and a portion of the grains is directed to the moisture measurement and classification means (37) and the other part is directed to the grain conveyance means (23).

5. The apparatus according to claim 1, characterized in that the impurities arising from the cleaning unit (2) are discarded by the chute (5) back to the soil.

6. The apparatus according to claim 1, characterized in that once the grains pass through the cleaning unit (2), the cleaned portion is directed by the chute (7) to the grain directing means (8), a portion of the grains being directed through the duct (38) to the moisture measuring means (37); and wherein the greater portion of grain, that was not is directed to the moisture measurement and classification means (37) conveyed through a grain conveyor means (23) to the dryer (18).

7. The apparatus according to claim 1, characterized in that after the first passage of the grains inside the dryer (18), said grains are deposited in the reservoir (22) for measuring the moisture.

8. The apparatus according to claim 1, characterized in that once the required weight of the grains is attained, the grains are unloaded through the door (48) automatically activated by the door opening and closing means (31).

9. The apparatus according to claim 1, characterized in that the grains from the reservoir (22) are conveyed by the grain conveyance means (19) to the upper part of the dryer (18), if the desired pre-set moisture is not attained.

10. The apparatus according to claim 1, characterized in that the drying process is repeated until the desired pre-set moisture is attained.

11. The apparatus according to claim 1, characterized in that when the grains attain the desired moisture value, the door (45) is opened by way of the automatic opening system (44).

12. The apparatus according to claim 1, characterized in that the grains are conveyed by way of a grain conveyance means (23) to said weighing and classification unit (76) and cooled to ambient temperature.

13. The apparatus according to claim 1, characterized in that the dry grains are carried through the ducts (39) to a batch flow weighing scales (27).

14. The apparatus according to claim 1, characterized in that when the grains attain the required weight, said grain is released through the door (48) and unloaded inside the mold (55).

15. The apparatus according to claim 1, characterized in that vacuum is applied to the packaging (34) by way of a duct (26) connected to said packaging (34).

16. The apparatus according to claim 1, characterized in that the packaged grains obtained in the grain packaging and labelling unit are unloaded through the doors (47) arranged in the lower part of the apparatus (78).

17. The apparatus according to claim 1, characterized by comprising a reading sensor (57) coupled inside the mold (55).

18. The apparatus according to claim 1, characterized in that the grain packaging and labelling unit comprises a conveyor belt (42), comprising small blades (43).

19. The apparatus according to claim 1, characterized in that the grain packaging and labelling unit further comprises a grain directing means (60).

20. The apparatus according to claim 1, characterized in that the label (75) comprises a bidimensional barcode (QR Code) and/or a chip with a radiofrequency (RFID) sensor and/or a barcode and/or a global positioning systems (GPS) chip.

21. The apparatus according to claim 20, characterized in that the chip with radiofrequency (RFID) sensor comprises a grain moisture and/or pressure and/or temperature and/or vacuum sensor contained in the packaging (34).

22. The apparatus according to claim 1, characterized by comprising solar panel boards (11) arranged on the upper surface of said apparatus (78).

23. The apparatus according to claim 1, characterized by comprising a generator (49) for transforming the mechanical energy of the rotational shaft (13) into electric energy.

24. The apparatus according to claim 1, characterized by comprising a shaft set (50) at its lower end and one or more wheels (51) connected in a rotary manner to said shaft (50).

25. The apparatus according to claim 1, characterized by comprising a control panel (56).

26. A load monitoring and tracking system characterized by comprising: one or a plurality of sensors arranged in a packaging and configured to measure the temperature and/or moisture and/or pressure and/or vacuum properties of the packaged grains, together with the location of the load; and at least one communication module configured to receive the data from said one or a plurality sensors and configured to transmit and store the information from said one or a plurality of sensors in a cloud or any high-performance repository.

27. The system according to claim 26, characterized in that at least one communication module comprises a processor configured to transmit the information from said one or a plurality of sensors and a wireless communications unit configured to wirelessly transmit the information from the sensor to an external computer.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] The invention can be better understood by way of the following detailed description, in line with the accompanying drawings, wherein:

[0030] FIG. 1 represents a right side view of the apparatus of the present invention, with the units of which it is comprised;

[0031] FIG. 2 represents a front view of the apparatus of the present invention;

[0032] FIG. 3 represents a top view of the apparatus of the present invention;

[0033] FIGS. 4A and 4B represent, respectively, a right side and frontal view of the grain drying unit comprised in the apparatus of the present invention, where it is possible to note the path the grains will take from the input to the output from the dryer (18), being carried by way of a grain conveyor means (23);

[0034] FIGS. 5A and 5B represent, respectively, a view of the right side and front of the grain packaging and labelling unit comprised in the apparatus of the present invention;

[0035] FIG. 6 represents a front view of the release operation of the grain in bulk, comprised in the apparatus of the present invention;

[0036] FIGS. 7A and 7B represent, respectively, a view of the right side and front of the gearing system that will be part of the mechanical movement in the grain transport operations present in the apparatus of the present invention;

[0037] FIG. 8 represents a side view of the flow weighing scales comprised in the apparatus of the present invention;

[0038] FIG. 9 represents the packaging and its components;

[0039] FIG. 10 represents the electronic components present on the packaging obtained by the apparatus of the present invention;

[0040] FIG. 11A represents the flowchart of the grain post-harvest process carried out by way of the apparatus of the present invention; and

[0041] FIGS. 11B and 11C represent comparative flowcharts between the post-harvest stages carried out in the state of the art and the post-harvest stages employing the apparatus of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0042] In the detailed description below, various specific and non-limitative details, are presented, in order to provide improved understanding of the present invention.

[0043] In a first aspect, the objective of the present invention is to provide an apparatus that is more accessible, practical and efficient.

[0044] In particular, the present invention provides an automatic grain processing apparatus (78) comprising, in an integrated manner, that is, in a single apparatus, the following units: [0045] a cleaning unit (2) comprising at its upper end a reservoir (1) for depositing the grains; a pair of rotary sifters with different permeabilities (3), said sifters (3) being moved through a gearing system (4), wherein said gearing system (4) is connected by way of a pulley (6) to a main rotating shaft (13); [0046] a drying unit comprising a dryer (18), and said dryer comprises on the inside an air distribution means (20) connected by the piping (17) to a heat source (16); a grain conveyor means (23) connected at the upper end (21) of said dryer (18); one or more moisture measurement and classification means (37); a plurality of air permeable chutes (53) arranged inside said dryer (18); a grain conveyance means (19) coupled inside said dryer (18); and a reservoir (22) comprising a door (45) and a lever (44) at its lower end; [0047] a grain weighing and classification unit comprising a batch flow weighing scales (27) where a portion of the dry grains will be weighed, while another portion of the dry grains will be collected by way of probes (28), classified by the automatic classifier means (29) and returned to the weighing scales (27); wherein said weighing scale (27) has at its lower end a door (48) which is activated by the door opening and closing means (31); and [0048] a grain packaging and labelling unit comprising: [0049] i. a packaging means comprising forks (33) which position and support the packaging (34) inside the mold (55) for receiving the grain load; fork support (32), wherein said fork support (32) moves by rails (35) connected at the base (36) of said support (32); [0050] ii. a packing securing and sealing means (46) positioned adjacently to the packaging means; [0051] iii. an air withdrawal means (24) of the packaging (34); and [0052] iv. a labeler (30), which applies a label (75) on the packaging (34).

[0053] FIGS. 1, 2 and 3 represent the apparatus of the present invention. Initially, with the assistance of a harvester or auxiliary truck, the grains harvested are deposited in the funnel (1), which directs the grains to the cleaning unit (2), in order to sort the grains from the impurities. The cleaned grains, after passing through the rotary sifters (3), are directed through the chute (7) to the grain directing means (8), where a portion of the grains will be directed to the moisture measurement and classification means (37) and another portion will be directed to the grain conveyance means (23). The impurities generated, arising from the cleaning unit, will be discarded by the chute (5) back to the soil in the form of fertilizer.

[0054] Said moisture measurement and classification means (37) is responsible for determining the temperature of the heat source (16) and the hot air outflow inside the dryer through the blower (10).

[0055] Once the grains pass through the cleaning unit (2), the portion that is considered clean is directed through the chute (7), by gravity, to the grain directing means (8), where a portion of the grains will be directed through the duct (38) to the moisture measuring means (37), which controls the temperature of the heat source (16) and the speed of the air ingestion in the dryer through the ventilation means (10), which are required for the drying unit of the grains. The largest portion of the grain that was not directed to the moisture measurement and classification means (37) will be conveyed through a grain conveyor means (23), as presented in FIGS. 4A to 4B, to the dryer (18).

[0056] Preferably, said cleaning unit of the apparatus of the present invention further comprises a grain directing means (8).

[0057] The grains will be deposited in the dryer (18) through the upper end (21), and will pass inside the dryer (18) by gravity. The air permeable chutes (53) serve to decrease the speed of the grains inside the dryer (18), in order to keep them for a longer time in contact with the heated air. In order to carrying out equal drying of the grains on the inside, the air distribution means (20) is connected by the air director (17) to the heat source (16).

[0058] After the first passage of the grains inside the dryer (18), they will be deposited in the reservoir (22), where the moisture thereof will be measured. If the desired pre-set moisture has not been achieved, the grain conveyance means (19) will convey the grains from the reservoir (22) to the upper part of the dryer (18) so that they may be dried again. The drying process is repeated as many times as necessary, until the desired moisture value is attained. Upon attaining the desired moisture value, the door (45) will be automatically opened by way of the automatic opening system (44).

[0059] Further, said drying unit of the apparatus of the present invention further comprises a ventilation means (10) and an air directing means (17).

[0060] After passing through the drying unit, the grains are conveyed by way of a grain conveyance means (23) to said weighing and classification unit (76). When the grains attain a pre-set weight, they are unloaded through the door (45) automatically activated by the automatic opening system (44).

[0061] After the drying stage, the dry grains with the required moisture value will be conveyed by the grain conveyor means (23) and cooled to ambient temperature, injecting cold air through the fan (40) arranged directly in the grain conveyance means (23), which is arranged adjacently to said dryer (18). The dry grains will be carried by way of the grain conveyor means (23) to the batch flow weighing scales (27), comprised in the grain weighing and classification unit (76).

[0062] A flow weighing scales (27) will be responsible for partitioning and weighing the fractions of grain that should be packaged. For classifying the grains in this stage, samples are taken by way of probes (28), which take these samples directly to the automatic classifier means (29), the sample portion returning to said weighing scales (27) after classification. Upon attaining the required weight, the grains will be released through the door (48), illustrated in FIG. 7, automatically activated by the door opening and closing means (31), and unloaded inside the mold (55), comprised in the packaging and labelling unit, of grain.

[0063] Thereafter, the grains, which were classified and weighed, will be deposited inside the bagging mold (55), comprised in the grain packaging and labelling unit, where the packaging (34) will be positioned for receiving these grains. Thereafter, vacuum is applied inside the packaging through the air withdrawal means (24), through the duct (26) connected to the packaging, which will subsequently be secured and/or sealed by way of a packing securing and sealing means (46).

[0064] FIG. 5 illustrates a representation of the packaging and labelling unit of the grains. The forks (33) are responsible for positioning the packaging (34) inside the mold (55), and also for supporting them when they are loaded. The support for the forks (32) will be used both for supporting the forks (33), and, consequently, the packagings, and will also serve as door to replace the packagings and access the inside of the apparatus (78). Additionally, said support (32) will move by rails (35) connected to its base (36).

[0065] As can be seen in FIG. 6, the grain director (60) is used to direct the grains to the conveyor belt (42), which comprises small blades (43) that assist in conveying the grains. An electric motor (61) is used to move the belt (42) and the blades (43).

[0066] Thereafter, labelling (75) is carried out of the packaged product, that is, of the packaged grains, by way of a labeler (30) and the release of the load through the doors (47) present at the bottom of the apparatus (78). Accordingly, a reading sensor (57) is used, such as, for example, radiofrequency identification (RFID), coupled inside the mold (55) which takes the reading of the labels (75) present on the inside of the packaging (34), linking the characteristics evaluated by the automatic classifier means (29) to the packaging, to be unloaded.

[0067] According to the present invention, said labels (75) will comprise a bidimensional barcode (QR Code) and/or a chip with a radiofrequency (RFID) sensor and/or a barcode with the characteristics evaluated by the automatic classifier means (29) and/or a global positioning systems (GPS) chip. More particularly, the chip with radiofrequency (RFID) sensor of said label (75) will comprise a grain moisture and/or pressure and/or temperature and/or vacuum sensor contained in the packaging (34).

[0068] The control panel (56) is responsible for aligning the working of all the operations responsible for processing, classifying, weighing and vacuum-packing the grains, resulting in a more reliable and efficient operation. Accordingly, said control panel (56) performs an analysis through the sensors present in all the apparatuses with the intent of self-regulation of all the processing operations, such as, for example, temperature of the heater (16) and drying time. The control panel (56) is responsible for controlling the activities of all the units comprised in the apparatus of the present invention.

[0069] The rotational movement of the grain conveyor means (23) throughout the apparatus is carried out by way of sets of gearings (14) connected to the main rotating shaft (13) (illustrated in FIG. 6), latter may also be connected to the drive shaft of the very tow truck or, if the apparatus is arranged in a manner fixed to the warehouse, connected to an auxiliary motor.

[0070] In a preferred embodiment of the present invention, said apparatus comprises solar panel boards (11) arranged on its upper surface, as a source of power, the energy also being stored in batteries (12), when necessary. In a preferred embodiment, said apparatus further comprises a generator (49) capable of transforming the mechanical energy of the rotational shaft (13) into electric energy.

[0071] Additionally, in order to facilitate the movement of the apparatus of the present invention, said apparatus comprises a shaft set (50) at its lower end and one or more wheels (51) connected in a rotary manner to said shaft (50).

[0072] By way of example, and non-limitatively, of the apparatus of the present invention, in the case of bulk load, after passing through the weighing and classification unit, the grains will be released for the mold, comprising a grain director (60) which will direct the grains to the conveyor belt (42), where there will be the presence of a blade conveyor system (43), releasing the grains in bulk. Movement of the conveyor belt (42) is carried out by way of the motor (61).

[0073] In a second aspect, the present invention provides a grain integrity monitoring and tracking system, comprising one or a plurality of sensors arranged in a packaging and configured to measure the temperature and/or moisture and/or pressure and/or vacuum properties of the packaged grains, together with the location of the load; and at least one communication module configured to receive the data from said one or a plurality of sensors and configured to transmit and store the information from said one or a plurality of sensors in a cloud or any high-performance repository.

[0074] Preferably, said at least one communication module of the grain integrity monitoring and tracking system of the present invention comprises a processor configured to transmit the information from said one or a plurality of sensors and a wireless communications unit configured to wirelessly transmit the information from the sensor to an external computer,

[0075] FIG. 9 shows the sensors arranged in the package (34), which can identify exactly how, when and where the load, that is, the packaged grains, is stored, the temperature, vacuum and pressure conditions of the grains, as well as bringing agile location responses for monitoring by the end client. The information measured by said sensors, such as temperature and/or moisture and/or pressure and/or vacuum of the packaging (34), will then be sent to and stored, in real time, in a cloud or any high-performance repository for subsequent analysis employing a logistics management software, such as, for example, the software AtlasSuíte by Império Assessoria em Informações LTDA.

[0076] FIG. 10 illustrates in further detail the electronic components of this system, which will be comprised of moisture (66), temperature (63), pressure (64) and vacuum (65) sensors, coupled to a reduced size single board computer (62), capable of storing and sending the data to the cloud or any high-performance repository, through a log recording device (67) and a communications device for data transfer (70), respectively.

[0077] Said reduced size single board (62) will also comprise a USB (72) port for accessing the information and adjustments in loco.

[0078] Additionally, said system of the present invention comprises a global positioning systems (GPS) (68) module responsible for the geolocation of the load, a high-durability battery (69) and a fan (74) for cooling the board (62), as well as an air input and output control valve of the packaging (73).

[0079] It should be understood that although the invention has been described in detail and with reference to specific embodiments thereof, it will be obvious for persons skilled in the art that various changes and alterations could be made to the invention now claimed, without straying from the scope and spirit of the invention.