RU2073421C1 - Arrangement for growing green fodder - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: arrangement for hydroponic growing of fodder has multitier rack, carriages with pans, mechanism for moving carriages with pans along tiers, guide members for moving carriages, vertical lifts located at ends of racks with lift platforms and guide members for their movement, and also power-operated lift for bringing material needed in growing green fodder. Lift is provided with two vertical uprights which carry guide members and with movable cart having removable deck. Carriages with loaded pans are raised to upper tier of rack by means of power-operated lift. EFFECT: high efficiency. 5 cl, 5 dwg

Description

 The invention relates to a device for growing green feed for livestock, poultry and fish farming.

 A known installation for the industrial cultivation of plants, in particular green feed, containing a carrier device in the form of a belt sieve located horizontally, in addition, it is equipped with devices for supplying a nutrient solution or water and air, installed with the possibility of movement along the belt sieve (USSR patent N 1665861, CL A 01 G 31/00).

 This installation is designed for the industrial cultivation of green feed, structurally complex and energy-intensive.

 Known hydroponic installation containing interconnected conveyors for transporting pallets, a preparatory department for pre-germination of grain, a department for growing green feed containing several tiers, a means of moving pallets from tier to tier and grinding department. In this case, the tiers of the green fodder growing department are made in the form of racks equipped with fixed supports for installing pallets on them and a step conveyor for moving them, while the means for moving pallets from tier to tier are made in the form of lifts installed along the ends of the shelves and equipped with each tiers with swivel bearings and fork tacks movable in a vertical plane through the tier (AS USSR N 931133, class A 01 G 31/02).

 Significant disadvantages of the installation are its structural complexity and high energy intensity.

 As a prototype, a plant for growing green fodder was used, including a multi-tiered rack, trolleys with pallets, a mechanism for moving pallets along tiers, and elevators with elevator platforms located at the ends of the rack, each tier of the rack equipped with guides and placed on them in at least two rows trolleys, pallets are mounted on trolleys, and the mechanism for moving trolleys with pallets along the tiers is made in the form of a reversing winch with a cable stretched along the tiers between the rows of trolleys, on which Pushers, elevator locks and elevator platforms themselves are staggered through the tier in a checkerboard pattern across the tier (RF patent 1732873, class A 01 G 31/02).

 This mechanized installation is simpler than known analogues, however, its significant disadvantages include insufficient reliability of its individual elements and insufficient mechanization of operations for unloading and unloading green feed, which ultimately reduces the productivity of the installation and limits its possible distribution area.

 During the development of the claimed technical solution, the problem of mechanizing the loading of the installation with material (grain) for growing green fodder without increasing the energy consumption of the installation and the complexity of its maintenance while increasing the productivity of the installation and the reliability of the elevator lifts was solved.

 To solve the problem in a plant for growing green feed, including a multi-tiered rack, trolleys with pallets, a mechanism for moving trolleys with pallets along tiers, guides for moving trolleys along tiers, vertical elevators located on the ends of the rack with elevator platforms and guides for moving them, and also means for loading the installation with material for growing green feed, means for loading the installation with material for growing green feed made in the form the front part of the installation of two vertical racks with rails and a movable carriage equipped with a removable platform and connected to the drive, at least one emphasis is placed in the upper part of the installation along the direction of the carriage, vertical racks are located near the elevator with elevator platforms, inclined inclined guides constituting an acute angle with a horizontal plane in which the emphasis is placed, and the magnitude of the acute angle is chosen from the condition that the carts can be moved from the pallet and the inclined guide by gravity.

 Also, to solve the problem, the elevator guide rails are made in the form of a rail, and the elevator platforms are equipped with wheel sets.

 Also, to solve the problem, the movable carriage and the removable platform are equipped with detachable locking elements, the removable platform is equipped with guides placed in the same direction as the guides on the tiers and connected to the carriage with the possibility of rotation along the guides.

 When developing the lifting mechanism, the related task of expanding the functionality of the removable platform was solved.

 To solve this problem, an opening was made in the lower part of the installation casing for unloading finished products, moreover, on the installation casing two axles are placed near the opening with the possibility of fixing a removable platform in them covering the opening as a shutter.

 In addition, to solve the problem of increasing the productivity of the installation, at least two pallets with material for growing green feed are placed on each trolley, and holes for draining the solution are placed at the opposite ends of the pallets.

 The claimed technical solution allows to efficiently mechanize the loading process of a known plant for growing green fodder with a material for its cultivation, in particular, sprouted grain, which significantly reduces the labor costs of servicing this plant without significantly increasing its energy consumption. In addition, the reliability of the operation of elevators with elevators of a known installation is increased, and it becomes possible to increase its productivity without additional significant costs for modernization. These advantages make it possible to ensure the operation of this mechanized installation for growing green fodder for a long time in an autonomous mode without significant labor costs and constant energy sources, i.e. use it on farms in various climatic conditions with a limited number of staff.

 In FIG. 1 shows the installation, a General view; in FIG. 2, section AA in FIG. one; in FIG. 3 view B in FIG. 2; in FIG. 4 node I in FIG. one; in FIG. 5 - node II in FIG. one.

 The installation includes a multi-tiered rack 1, located in the case, divided by a blank partition 2 into two lower chambers with fluorescent lamps 3 and the upper 4 darkened.

 In addition, the installation includes a tank 5 of the irrigation system. At the end of the rack 1, a hoist with elevator platforms 6 is installed, a similar hoist is installed at the opposite end of the rack 1. A reverse drive 7 with a cable 8 stretched through blocks 9 along the tiers of the rack 1 between the rows installed on the guides 10 of the carts 11 with pallets 12. Lift 6 contains counterweights and operates under the action of gravity.

 The mechanism for moving the carts 11 with pallets 12 contains pushers 13, mounted on a cable 8 and locking rods 14, which are the clamps of the lifts.

 The elevator 6 contains elevator platforms 15 provided with bushings 16. The locking rods 14 enter the bushings 16, fixing the position of the latter relative to the rack 1.

 To load the sprouted grain, the installation has a lifting mechanism 17 located on the front side of the rack 1, near the lift 6 and containing two vertical guides 18 made in the form of a rail track, a movable carriage 19 with wheel pairs and a drive 20 of the carriage 19. The drive 20 can be made in the form of electric hoist.

 The electric hoist is located in the upper part of the mechanism 17 between the guides 18 and is connected to the carriage 19 by means of a hook and a cable.

 A removable platform 21 is placed on the carriage with guides placed in the same direction as the guides 10 on the tiers of the rack 1. The removable platform 21 and the carriage 19 are interconnected using locking elements 22 in the form of fingers, and the connection is made so that the platform 21 has the ability to rotate along the rails.

 Between the guides 18 and the hoist 6 there are inclined guides 23, the slope being made in the direction of the hoist 6.

 In the upper part of the housing of the rack 1, an aperture is made for moving to the elevator platform 15 of the trolleys 11 with pallets 12.

 On the upper tier of the rack 1, for example, two stops 24 are fixed, which, in contact with the removable platform 21 when the carriage 19 moves up, tilt the platform 21 towards the inclined guides 23 and at the moment of coupling of the platform 21 guides with the inclined guides 23, the carriage 19 stops, forming inclined relative to the horizon of the transport path to the lift 6.

 To exit the cart 11 with the finished product, the installation provides an inclined exit track 25, and to load pallets 12 with sprouted grain into the carts and unload the finished product, a special stand 26 is provided. The inclined exit path 25 is located on the lower tier of the rack 1.

 The inclination of the guides 23 on the roof of the installation and the inclination of the guides of the exit track 25 on the lower tier of the rack 1 are selected from the condition of movement of carts 11 with pallets 12 under the influence of gravity.

 In the lower part of the installation, an opening is made for unloading the finished product 27, and the removable platform 21 is fastened to the housing near the opening by means of pins 28 and acts as a shutter.

 It should also be noted that the design of the pallets 12 allows you to place them one above the other and choose the location of the hole for draining the solution when installing the pallets 12 on the trolley 11.

 Installation works as follows. Before loading grain into the unit, it is pre-washed in trays 12 in weak manganese water (disinfection process) in special trolleys and prepared for loading into the unit.

 Before loading the grain into the installation, the removable platform 21 installed in the finished product exit opening 27 is moved from a vertical position (shutter function) to a horizontal position (removable platform function) and fixed to the carriage 19 using locking elements 22.

 In the process of loading the trolley 11 it is installed on a special stand 26, and the pallets 12 are mounted on the trolleys 11 one above the other so that their drain holes are located on opposite sides of each other (Fig. 4).

 Carts 11 with pallets 12 are installed on the guides of the removable platform 21, placed on the carriage 19. Using the drive 20, the carriage 19 is lifted to the stops 24 and continues to rise, during which the removable platform 21 is in contact with the stops 24 and rotates at an angle corresponding to the inclination of the guides 23 roof installation. Upon reaching the specified angle of inclination of the removable platform 21 to the level of the inclination of the guides 23 under the action of gravity, the carts 11 with pallets 12 roll down from the removable platform 21 along the guides 23 to the corresponding elevator platform 15 of the elevator 6.

 Then the carriage 19 is lowered to its lowest position for the next loading of the truck 11 pallets 12 with sprouted grain.

 After that, the drive 7 is turned on, the locking rods 14 exit from the bushings 16, the elevator platform 15 of the elevator 6 is lowered by the mass of at least 2 trolleys 11 to the corresponding tier of the rack 1. The pushers 13 move the trolleys from the elevator 6 to the guide rails 1 of the tier . Once a day, the upper tier of the installation of a new batch of bogies 11 with pallets with sprouted grain is filled and green feed is unloaded from the lower chamber 3 of the installation. The mentioned process is divided into two constantly repeating cycles, the first input of the next batch of bogies 11 with pallets 12 with sprouted grain into the installation, the second exit from the installation of bogies 11 with pallets 12 with ready-made green feed.

The installation operation diagram consists of the following actions:
by means of the lifting mechanism 17, the carts 11 with pallets 12 with sprouted grain are raised to the level of the inclined guides 23, an inclined transport path is formed from the guides of the lifting mechanism 17 and the inclined guides 23 and, by gravity, the carts 11 are lowered to the upper platform 15 of the elevator 6;
the pushers 13 are actuated. Simultaneously with the movement of the pushers 13, the installation rods 14 synchronously move (Figs. 1, 4);
the pushers 13 move the carts 11 with pallets 12 from the platform 15 of the elevator 6, connected with the lifting mechanism 17, to the upper tier of the rack 1. In this case, the trolleys 11 with pallets 12 from the upper tier of the rack 1 go to the upper platform of a similar lift with elevator platforms, in the opposite part of the installation;
then the pushers 13 return to their original position, while the rods 14 come out of the bushings 16 of both elevators with elevators and, when the pushers 13 reach the initial position, these elevators are disconnected from the rack 1 of the installation. Next, the lift 6, connected with the lifting mechanism 17, freed from the load of the trucks 11 under the influence of counterweights, returns to its original position (rises up), and the lift at the opposite end of the rack 1 under the influence of the mass of the trucks 11 with pallets 12 is lowered to the lower (2nd ) tier of rack 1;
similar actions occur at each successive stroke of the pushers 13. Moreover, the number of movements of the carts 11 with pallets 12 depends on the number of tiers of the rack 1, and the frequency of movement depends on the time required to grow green feed.

 The last step is to unload the carts 11 with pallets 12 with the finished green feed from the lower tier of the rack 1 along the inclined guides 25 through the opening when unloading the finished product 27.

Claims (5)

 1. Installation for growing green fodder, comprising a multi-tiered rack, trolleys with pallets, a mechanism for moving trolleys with pallets along tiers, guides for moving trolleys along tiers, vertical elevators with sheet platforms located at the ends of the rack and a mechanism for loading carts with material for growing green fodder, characterized in that the mechanism for loading carts with material for growing green fodder is made in the form of a multi-tiered rack placed at the end near the lift with sheet areas ka of two vertical racks with rails, a movable carriage equipped with a removable platform and connected to the drive, at the same time at least one stop is installed in the upper part of the multi-tiered rack along the direction of the carriage in the horizontal plane, and between the vertical racks and the lift with sheet platforms above the stop guides are installed at an acute angle to the horizontal plane with the possibility of moving carts with pallets on them under the action of gravity.  2. Installation according to claim 1, characterized in that the guides of the loading mechanism of the bogies are made of rails, and the movable carriage is equipped with wheel pairs.  3. Installation according to claim 1, characterized in that the removable platform is equipped with guides placed in the same direction as the guides for moving the carts along the tiers, while the movable carriage and the removable platform are interconnected by means of locking elements with the possibility of rotation of the latter relative to its guides.  4. Installation according to claim 1, characterized in that in the lower part of the multi-tiered rack there is an opening for unloading finished products, near which two trunnions are placed for fixing a removable platform in them.  5. Installation according to claim 1, characterized in that a drain hole is made in each pan and at least two pallets for material for growing green feed are placed on top of each trolley.

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