SU1029923A1 - Unit for growing plants - Google Patents

Abstract

1. INSTALLATION FOR CULTIVATION OF PLANTS, containing frame, shelves-spreading, sources of illumination and the system for feeding, collecting and draining the nutrient solution, so as to reduce the cost of manual labor and reduce the time for cleaning the biomass, simplifying the design and reducing its metal consumption, shelving the frame rigidly and with a slope to the horizon at an angle equal to the angle of friction of the biomass planted on its surface, and equipped with unloading equipment spreading, each of which is made in the form of flexible t gi located above the embellishment along its slope, the lower end of which is fixed on the wall of the carcass above the lower end of the instillation and provided with a flap located on the surface of the lower end of the instillation. 2. Installation under item 1, about so much and that with the fact that, in order to simplify the collection of nutrient solution, (L below the lower end of the inclined germinator, a belt conveyor is installed, with sectional shape of the gutter,.

Description

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00 The invention relates to agriculture and is intended for growing plants without soil and obtaining a feed mixture. A known plant for growing plants on the river racks located with trays 1 mounted on them. The disadvantage of this setup is the use of manual labor when sowing and harvesting grown biomass, the complexity and metal thickness of the structure. A plant for growing plants containing a skeleton, shelf-spreading, light sources and a system for feeding, collecting and draining nutrient solution 2 is also known. A disadvantage of the known installation is the cost of manual labor, and the complexity and metal intensity of the structure for a long time to harvest the biomass. The aim of the invention is to reduce the cost of manual labor and reduce the time for harvesting biomass, simplify the design and reduce its metal consumption, simplify the collection of nutrient solution. The goal is achieved by the fact that the shelves are fixed on the frame rigidly and with a slope to the horizon at an angle equal to the angle of friction of the sown biomass along its surface and are equipped with unloading equipment, each of which is made in the form of a flexible rod, positioned above the growth bed along its tip, the lower end of which is fixed on the wall of the frame above the lower end of the taper and is provided with a damper located on the surface of the lower end of the height: it is also installed under the lower end of the inclined trowel belt conveyor, imedi in the cross section of the shape of the gutter. The drawing shows a plant for growing plants in a transverse section. The plant growing plant contains the frame 1 and the sheltering shelters which are fixed on the frame 1 hard and with a slope to the horizon at an angle H equal to the angle of friction of the biomass sown on their surface. Above nak.-. Lononous bedrock 2 houses the sources of 3 osphopenia. The installation is equipped with devices for unloading of germinators 2, each of which includes a flexible rod, made in the form of ropes 4, located above the ravine along its slope; The lower ends of the ropes 4 are fixed on the wall of the frame 1 above the nude end of the tamper 2, the upper ends of the ropes 4 are thrown over the block 5. On the surface of the lower end of the rasten 2 there are flaps made in the form of transverse bars b, by means of which the pairs of ropes 4. are fastened in pairs. B blocks b have the ability to lift through the ropes 4. Inclined bedrock 2 covered with a waterproof film. To supply the nutrient solution to the inclined germinators 2, pipelines 7 are mounted above them with the nutrient solution distributors. Under the lower end of the lower inclined germinative 2, a longitudinal belt conveyor 8 is installed, in cross section having the shape of a trough. The longitudinal belt conveyor 8 can be used to drain from-. Extra nutrient solution in the tank 9 on the tray 10. To collect the grown biomass, a cross conveyor 11 is installed under the belt conveyor. The installation works as follows. Before the substrate growth on the surface of the inclined germinators 2, the ropes 4 are rolled so that the flaps, made in the form of transverse brugs: cov, lie on the surface of the arbor: vegetation horns 2 at the lower end, preventing the spreading substrate from slipping with the seeds. Using a mobile sowing device, Zachem uniformly poured a specially prepared mixture of straw substrate with seeds onto the upper part of the inclined germinator 2. Due to the fact that the slope of the germinator is equal to the friction angle of the biomass planted on its surface, the latter slides down to the transverse bar 6 and evenly covers the entire surface of the germinator. B. Dependencies on a given mode in the process of growing plants periodically include sources of illumination 3 and supply nutrient solution from reservoir 9 through conduit 7. At the same time, the nutrient solution stacks along the surface of inclined germinator 2 and moistens the root system with a moisture-proof film. From the lower end of the inclined growth bed 2, drain the nutrient solution through the entire length of the inclined germinator into the chute formed by the tape of the longitudinal conveyor 8, which is given a certain inclination angle towards the nutrient solution tank 9. Due to this, the nutrient solution wastewaters flow onto the collecting tray 10, and from it into the reservoir 9 and then with the pump they pump again into the pipeline 7 with the distributors. After 7-8 days of growing plants on the surface of the inclined germinators 2, a carpet is formed in the form of green mass, a substrate of straw, root system and residues of ungrown seeds. The resulting carpet is unloaded from

oblique rasten 2 on the longitudinal conveyor belt 8. For this, the upper cones of the ropes 4, laid on the trees 5, are pulled, the flaps in the form of transverse bars b are raised together with the ropes 4 and the biomass carpet lying on them.

When lifting, the carpet is destroyed, falls onto the surface of the germinating plant and creeps down under the force of gravity to the longitudinal conveyor belt. —U. 8. The operating conveyor 8 moves it through the collecting tray 10 to the cross conveyor 11, which transports it to the preparatory machines. for grinding and stirring to obtain a feed mixture.

The installation can be multi-section and multi light. When placed in several races of 20, more preferably 6-8 are Russian racking systems, and in sectional divisions 6-8 sections, i.e., according to the number of vegetation days to obtain a feed production conveyor 25.

In the proposed plant for vystavleniya plants, the width of germina / can be increased to 10-15 m, against

0.6–0.9 m in existing stellar installations, where the width is limited by the ease of sieving cet-ujH and cleaning nor :; radar feed. As a result, the unit cost of manual labor in these operations plummets approximately 10-15 times. The sieving, on the other hand, is completely mechanized, which is achieved by placing a growth with a slope; nom to the horizon at an angle equal to the friction angle of the sown biomass on their surface.

Due to the fact that it is proposed to make the kinematically stationary structurally racking system and rigidly fix the shelves to the frame, it can be used to make nemetrashi - wood plastic, nylon, polyethylene, etc., while the specific intensity of the installation will decrease by 2-3 times .

The inclined position of the growth chamber simplifies disinfection of their working surface.

Thus, a plant for growing plants reduces the cost of manual labor and reduces the time spent on cleaning the biss, simplifies the design and reduces its | Methylloemcost and.

Claims (2)

1. PLANT FOR GROWING PLANTS, containing a frame, shelves, germinators, light sources and a system for supplying, collecting and draining the nutrient solution, so that in order to reduce the cost of manual labor and reduce time for biomass harvesting, simplifying the design and reducing its metal consumption, the germination shelves on the frame are rigidly and inclined to the horizon at an angle equal to the angle of friction of the biomass planted on its surface, and are equipped with rafter unloading devices, each of which is made in the form of flexible traction , 'split married above the germination along its slope, the lower end of which is fixed on the frame wall above the lower end of the germination and is equipped with a shutter located on the surface of the lower end of the germination. 2. Installation according to π. 1, m l of a- and b ut _a nd a I I in that in order to simplify collection § scheniya nutrient solution under the lower end of the inclined conveyor belt installed germinator, · having a cross-sectional trough shape. . Oo <x> s © er © o>