RU2100921C1 - Agricultural product storage - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: storage has concreted platform 1 with areaway 2 in its center, wall 3 inclined in outward direction, corrugated column 4 mounted in areaway 2, product lowering device and receptacle formed as hermetically sealed chamber 8 connected with air ventilation system and provided with built-in agitator 9 and chute 10. Elongate basket 11 is hanged on end of chute 10. Cellular basket has wire brushes 12 arranged in basket cells. Dry air is supplied under pressure into chamber. Charging device is made in the form of inclined pipeline 18 extending in parallel with generatrix of conical cover 5 and fixed on concreted platform 1. Partition wall 19 is positioned adjacent to pipeline base. Container 20 for charging product into storage through charging hopper 27 is reciprocating within pipeline 18. Plate-shaped feeder 32 feeds product into hoses 44 mounted on pantographs 41, which are suspended on rotary platform 34. Discharge units are made in the form of grate pyramids 53 radially mounted on circular platform 1 of storage in equally spaced relation. Discharge units are served by movable conveyor 56. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 18 dwg

Description

 The invention relates to the storage of agricultural products, mainly root crops, such as potatoes, beets, carrots, etc. and can be used in agricultural, food and commercial machinery, as well as in farms of the country's agricultural industry.

It is known that they are stored in Moscow fruit and vegetable bases (for example, Kalinin ORPO) in standard (trellis) containers, which, although they make it possible to fully mechanize all work on loading, placement and unloading, have a number of disadvantages:
significant cost (initial and operational) of trellised containers;
the powerful ventilation systems that large standard storages are equipped for cooling products and creating equalized environmental conditions contribute to an increase in mass loss due to evaporation of moisture, and in addition, airflows transfer spores of pathogenic fungi and contribute to the spread of diseases throughout the store, weight loss and change in potato quality and carrots when stored in a container (for 220 days of storage according to the data of the K.A. Timiryazev Agricultural Academy). The data are given in the table.

 It is also known that potatoes, fruits and vegetables are stored in containers with gas-selective heat diffusion devices under the conditions of the Timiryazev fruit and vegetable office in Moscow (see V.E. Gul, "Polymers Preserve Products", M. Knowledge, 1985, pp. 76-84).

The main disadvantages of these containers include:
the significant cost of two-bladed gas-selective devices and the shortage of film in the country, which is practically used only once;
Significant costs for installation, dismantling, operation of gas-selective devices and their operational fragility lead to the impossibility of their use in the regional farms of the country's agricultural industry and in the field;
protruding sharp edges of the inner surface of the containers tear the plastic film, and the elimination of the film defect during multi-tier storage of containers is almost impossible and leads to spoilage of the product.

 The closest technical solution to the declared one is application N 4789630/33 17226 of 1990

 This is a storehouse containing a concrete site with a pit in the center of the site, a wall with an inclined outward, mounted motionless around the perimeter of the site, a perforated pipe column, mounted motionless and vertically in the pit, a ventilation system, a coating made in the shape of a concrete site and fixed along the perimeter with an overlap along the upper edge of the wall, and in the center, from the top to the column, a coating made of multilayer and divided by sealed partitions into autonomous sectors, inside each of which is laid and in the radial and circumferential directions, a network of air channels made of airtight flexible material having an inlet and an outlet, the outlet ending with a bypass valve, in addition, the outer coating layer is moisture-proof, and the coating layer facing the inside of the store has a hygroscopic heat-insulating surface. In addition, the ventilation system includes an air line installed around the perimeter of the outside of the wall with nozzles directed radially into the storage, and battery output pipes with command devices directed radially into the storage and located along the perimeter of the wall.

 The loading installation of the storage, made in the form of a dish-shaped spreader and placed at the top of the column, does not provide for a smooth and layer-by-layer descent of products into the storage.

 The laying of the stored material directly to the floor of the store makes it impossible to store long-term easily damaged products, such as vegetables.

 In addition, the design of the storage facility does not include an installation for the preliminary processing of mortgaged products from mortgaged diseases, for example phytoncides.

The above design flaws of the storage determine:
the impossibility of mechanized loading of vegetable products into the storage at the optimal filling height;
reduction of the effective storage of vegetable products.

 The aim of the invention is to reduce labor costs by mechanizing processes and organizing processes for storing large masses of products (mainly potatoes) in a single container with an increase in their shelf life.

The goal is achieved in that a storehouse for agricultural products containing a concrete platform, in the center of which a vertical hollow corrugated column is fixedly installed in the pit, and along the perimeter there is a wall inclined outward, a conical coating fixed to the column head and lap along the perimeter of the wall, loading and unloading devices, a loading hopper and an air ventilation and cooling system, it is also equipped with a product discharge unit and a receiving unit made in the form of a connected airtight chamber ventilation system with a built-in shaking mechanism and estrus, at the end of which an elongated mesh basket is suspended in cells with ruffs, on the inside of which there are stacked brushes, from the outer hoops with nozzles for supplying dry air under pressure, connected by rods with a shaking mechanism and from the lower end of the grid a gate and a loading device made in the form of an inclined pipeline located parallel to the generatrix of the conical coating, fixed at one end to onirovannoy site and the other on a portal column and connected to the top of the duct with an air ventilation system, wherein the conduit and sloping ramps ducts are connected together to form corners in terms of 120 ^o, and at the base pipe is provided with a partition within the container connected with a cable winch and electromagnetic orientators are symmetrically installed outside the pipeline, while the loading hopper, on which the cyclone is placed, is installed in the column head at the pipeline and is equipped with a visor, above the outer it is mounted with a disk feeder with a drive and is made with two holes, the upper of which is connected to the inclined air duct of the air ventilation system, and the lower one with the product discharge unit, made in the form of a platform mounted on the column with the possibility of rotation from the hydraulic motor, on which placed installation for the preparation and supply of aerosols from volatile, a hydraulic motor for rotating the platform with pantographs hinged to it through 90 ^o with hoses attached to them for layering feeding the product to different levels when laying, a pump station for driving hydraulic cylinders for turning pantographs, hydraulic cylinders for regulating the length of hoses and driving their gates, a compressor station, a column at the base are finished with a skirt, and unloading devices are installed on the storage floor uniformly along the radius of the circle and are interconnected by perforated visors and are made in the form of lattice pyramids of different sizes, in the cavity of which two pairs of rails are installed: on the lower plane, the rails of the mobile conveyor, and at the top, hanging guides of telescopic sliding canopies, vibrators are mounted outside the pyramids, and on the inclined wall against each pyramid there are sealed doors and pipes for supplying heat and cold carrier and other gas agents.

 In FIG. 1 is a longitudinal section through a vault; in FIG. 2 section BB, a plan view of a platform with suspended pantographs; in FIG. 3 section EE, pantograph rotation mechanism; in FIG. 4 view "N" on the pantograph vibrator; in FIG. 5 section "GG" according to the pantograph; in FIG. 6 view "F", the location of the pyramids in the cavity of the store; in FIG. 7 view "G" on the cavity of the pyramids; in FIG. 8 section "BB" along an elongated basket; in FIG. 9 view "F"; in FIG. 10 section "aa", on a grid with type-setting brushes; in FIG. 11 section "DD" along an inclined wall; in FIG. 12 view "θ" on a sealed door; in FIG. 13 view "H", storage in plan; in FIG. 14 view "Y", axinometric projection of the store; in FIG. 15 is a longitudinal section of the vault at the time the mobile conveyor starts operating; in FIG. 16 cut "II" on the hose; in FIG. 17 section "L-L" at the tip of the hose; in FIG. 18 node "L - Λ", pipeline jumpers.

The storage (Fig. 1) contains a concrete site 1 with a pit 2 in the center of the site, a wall 3 with an inclined outward, mounted motionless around the perimeter of the site, a corrugated column 4 monolithically vertically in the pit, and column 4 is made of a corrugated segments assembled together. The conical coating 5, mounted on the head of the column 4 and lapped around the perimeter of the wall 3, is made of a multilayer (not shown in the drawings) upper layer of moisture-proof material, the inner one, facing the inside of the storage, hygroscopic and heat-insulating, and between the layers there are sealed partitions that separate into autonomous sectors with a network of air channels, with bypass valves. The storage also includes a receiving installation, consisting of a skip hoist 6, a hopper 7, a sealed chamber 8 with a shaking mechanism 9, and the hopper 7 ends in estrus 10, on which an elongated basket 11 is suspended (see Fig. 8, 9) from a grid in cells with ruffs 12, on the inside of which there are type-setting brushes 13 (Fig. 10), and from the outer hoops 14 with nozzles 15 connected to the rods 16, the basket 11 ends with a slide gate 17. The storage loading device consists of an inclined pipe 18 fixed to its lower end to concrete the 1st platform and equipped with a partition 19 (Fig. 18), placed inside the container 20, connected to the cable 21 of the winch 22, and electromagnetic orientators 23 are symmetrically installed outside the pipeline (Fig. 13). The upper end of the pipe 18 passes into the duct 24 and connected at an angle of 120 ^o lattice racks 25 of the other ducts, forming a stable support column 4. The pipe 18 has two holes: one against the slide gate 17 for filling tubers into the container 20, the other 26 for unloading tubers from it in the loading hopper 27, in addition, on the partition 19 there is a fitting 28 and a sealing cover 29 for passing the cable 21. A cyclone 30 is installed on the loading hopper 27, the drive 31 of the disk feeder 32 and the suction duct 33 are installed on its cover. Below the hopper 27 on the column 4, a platform 34 is mounted for rotation, on which a disintegrator installation 35 for preparing and supplying volatile products in the form of an aerosol mist is placed, a hydraulic motor 36 for rotating the platform with gear 37, which is tightened around the stationary gear wheel 38, rigidly mounted on the column 4, pump station 39 of hydraulic cylinder drive, compressor station 40. Pantographs 41, of various lengths, on which rectangular hoses 42 are mounted (Fig. 2; 16), inside which scheny rods 43 composing the brushes 44 and the two hoses 45 supply Phytoncides aerosol. Hoses 42 adjacent to the openings of the loading hopper 27 are made with broadening, and the ends of the hoses 42 are provided with a chamber 46 for processing phytocides released by the tubers. Hoses 42 adjacent to the openings of the loading hopper 27 are made with broadening, and the ends of the hoses 42 are provided with a chamber 46 for processing phytocides released by the tubers. The hoses 42 at the outlet of the pantographs 41 are fixed with a pair of brackets 47 that fix their position and are equipped with hydraulic cylinders 48 for regulating the length of the hoses 42, stops 49, vibrators 50, in addition, the hoses 42 at the intake extensions are equipped with gates 51. Pantographs 41 are in cross section (see. Fig. 5) have stiffening ribs and are equipped with turning cylinders 52 (Fig. 3).

 On the floor of the storehouse, lattice pyramids 53 are installed evenly along the radii of the circle, and a 5-sided polygon in cross section (Fig. 6; 7).

 The pyramids 53 are made different in length, which makes it possible to distribute them evenly over the storage floor area, the pyramids 53 are connected by perforated visors 54, two pairs of rails are installed inside the pyramid: on the underside of the rails 55 of the mobile conveyor 56 (Fig. 15), and guide rails 57 of telescopic retractable canopies are suspended at the top 58. Vibrators 59 are mounted outside the pyramids 53. The inclined wall 3 is bent around the perimeter of the pipeline 60 (Fig. 11), from which the bends 61 extend towards the inner cavity Each pyramid 53, the taps have valves 62 with control devices 63. A sealed door 64 is made against each pyramid 53 on an inclined wall 3 for servicing by a mobile conveyor 56.

 The outer and inner surfaces of the inclined wall 3, the outer surface of the pipe 60 is coated by spraying with a heat-insulating material such as Ripor or Sulfur-polystyrene foam, and the concrete platform 1 under the storage is made with a heat-insulating gasket. Metal surfaces in contact with the stored product are gummed.

 The air-exhaust ventilation system of the storage consists of a ventilation station 57 into which the air ducts converge: a sealed chamber 58, a pipe 24, a hopper 33 (Fig. 13).

 The outlet duct 59 of the fan 57 is connected to a cyclone 30, which is connected to the duct 60 with a waste container 61. A manhole 62 is made on the conical cover 5 for servicing the mechanisms. A circular visor 63 is made on the hopper 27. A sling 64 is used to secure the conical coating 5 to the inclined wall.

 The storage operation is as follows.

 With the device for preparing the tubers for laying in the hopper 7 with a skip hoist 6, tubers are loaded that have passed through the rejection of rotten tubers, the drying and cleaning operation.

The tubers enter the elongated basket 11 and pass through the brushes 13 of the net and the brush 12, while the basket 11 is shaken by the shaking mechanism 9 through the rods 16; at the same time, sharp dry air is supplied from the nozzles 15, which carries the contaminated layer separated from the tubers outside the basket 11 into an airtight the chamber 8 and further into the slide gate 17 and the tubers are loaded into the container 20. Through the nozzle 28, air is supplied under pressure and the loaded container begins to rise through the pipeline 18 under air pressure, while the winch 22 is turned on and starts to sync Ronno pit cable 21 simultaneously come into effect magnetic orientation 23 of the pipeline 18 and the container 20 that help maintain the container 20 in position and to rise up to the end position effect orientator 23 is made of container rotation, around the longitudinal axis at 180 ^o, and the product was poured into the receiving hopper 27, and during transportation through the pipeline 18 and filling the product, the cleaning process does not stop. The action of the hydraulic cylinder 52 through the pumping station 39 rotates the longest cartridge 41 in parallel with the conical coating 5 position. The action of the hydraulic cylinders 48, starting from the lowest hydraulic cylinder 48, the hose 44 is displayed in the longest position, the pantograph vibrators 50 are turned on, the gate 51 is opened, the platform 34 starts turning on the hydraulic motor 36. At the same time, the cleaned shuttle is passed through the disintegrator unit 35 and the automation and compressor are turned on stations 40 with the prepared aerosol mixture begin to process tubers entering through the hose 44 into the chamber 46 and even when the tubers are lowered through the hose, the tubers are cleaned by brushes 44 and there is continuous suction cleaning products. The tubers are neatly stacked in layers from a small distance on the surface of the trellised pyramids 53 and perforated peaks 54, when laying the tubers, the radius of the cartridge 41 automatically changes and at the same time the hose length 44 automatically changes (shortens or lengthens). The loading process continues to the level of the long pantograph 44, after which closes its gate 48 and pantograph 41 is displayed in its original position, the hose 44 is shortened. The second pantograph 41 is included in the work, then the third and then the fourth - until the storage is fully loaded. The container 20 performs shuttle flights, the container (is pulled) to the lower position by means of a winch 22. The air-ventilation system consists of a ventilation station 57, which simultaneously sucks from the pressurized chamber 8 of the pipe 18 of the hopper 33 and the hose 44 and delivers the cleaning products through the fan 57 into the cyclone 30, through the duct 60 and the waste container 61.

 During storage, the agent required by the storage technology is pumped into the pipeline 60: dry air in the range from positive to negative temperatures, decontamination mixtures. The gas agent is supplied to the storage through the nozzles 61 in the cavity of the trellised pyramids, through valves 62, controlled automatically through command devices 63.

 Software for technological processes with their reflection on a light mnemonic circuit provides computers for individual technological processes (gas chemical treatment, desadorization, cold processing); it is built on a modular basis. This allows, for example, during storage, to make changes to the software package using the appropriate modules: in the quantity and composition of the coolant, depending on the information from the humidity and temperature signaling devices, to obtain high-quality tubers, with pre-programmed characteristics depending on the season, grade and purpose party. For this purpose, the computer is equipped with a device for reading from the punched tape the dosing instructions for the gas-air (or deodorization) mixture, which is the equation of the opening and closing times of the valves 62 depending on the future characteristics of the tubers.

 The product is unloaded using a mobile conveyor 56. A sealed door 64 is opened, the mobile conveyor 56, using its end stops 65, pushes the telescopic canopy element 58, the vibrators 59 are switched on at a time, the tubers are poured onto the conveyor belt, and from it onto the loaded car.

 When the unloading process is interrupted, the element of the telescopic canopy 58 returns to its original position.

 The use of a single container during storage of root crops eliminates the construction of expensive standard storages, reduces storage costs, eliminates manual labor and helps to save root crops without loss.

Claims (1)

A storehouse for agricultural products containing a concrete platform, in the center of which a vertical hollow corrugated column is fixedly installed in the pit, above which a cyclone and a loading hopper are installed, and along the perimeter there is a wall inclined outward, a conical coating fixed to the column head and lap along the perimeter of the wall, loading and unloading devices, air ventilation and cooling system, characterized in that, in order to reduce labor costs for laying agricultural products, To improve the quality of storage, it is equipped with a device for draining products and a receiving device made in the form of a sealed chamber connected to the air ventilation system with a shaking mechanism and estrus with a basket made of wire mesh hanging on its lower end with brushes on the inside of the wire mesh and with nozzles fixed to hoops for supplying dry air under pressure, connected by means of rods with a shaking mechanism, while the lower end of the grid is equipped with a gate and connected to a narrow device made in the form of an inclined pipeline parallel to the generatrix of the conical coating, fixed at one end on a concrete site and the other at the head of the column, and connected at the top by an air duct with an air ventilation system, the pipeline and inclined air ducts being connected to form angles in terms ^o 120, wherein said conduit is provided with a septum, placed inside the container and connected thereto and a cable winch mounted symmetrically and and its outer surface with electromagnetic orientators, while the hopper is equipped with a visor located above the external mount and located inside a disk-type feeder with a drive, and is made with two holes, the upper of which is connected to an inclined pipeline, and the lower one with a device for draining the product, made in the form mounted on a column of a platform with a rotation drive in the form of a hydraulic motor, equipped with a preparation and supply of the processed material and hinged to it through 90 ^o p anthographs with hoses attached to them for layer-by-layer delivery of the product to different levels during laying, a pumping station with pantograph turning cylinders, hoses for adjusting the length of the hoses and driving their gates, a compressor station, while the column at the base is equipped with a skirt and unloading devices are installed on the storage site evenly around the circumference of the circle, interconnected by perforated visors and made in the form of lattice pyramids of different sizes along the length, equipped with installed and in their cavities in tiered pairs of rails, on the lower of which there are rails for the mobile conveyor, and on the upper hanging rails of telescopic retractable canopies, the pyramids are equipped with vibrators mounted on their outer side, and on the inclined outer wall opposite each pyramid there are sealed doors and mounted nozzles for supplying a gas agent.

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