SU352487A1 - Installation for continuous stratification and hardening of winter grafting of viticulture and other plants - Google Patents

Description

(54) INSTALLATION FOR THE PATHOULAR STRATIFICATION AND HARDENING OF WINTER VARIVES OF GRAPES AND OTHER PLANTS According to the main auth. No. 335870 | is known for the installation for streaming (stratification of the strands consisting of a heat-insulated chamber with protective walls, isolated compartments, devices for transporting containers with inoculations, equipment for absorbing various (microclimate along the path of goviviv. The longitudinal walls of the chamber are made zigzag-shaped with a distance between the verines equal to the width of one container with grafts. The container-drive drive, stopping in position, the corners of the containers are adjacent to the corners {zigzag walls of the chamber. The bottom line of this installation is a low yield of finished products per unit of area, as well as high operating costs .; The purpose of the invention is to design a plant that would increase the yield of finished products per unit of area at a certain equipment capacity. JKaiviep is adjacent to the end parts of the rootstocks and have external (preheating screens and a common internal screen for cooling I of the end part of the rootstocks. Internal screen |; adheres to the ends of the stocks. Heating screens have a convex shape, for example dihedral ANGLES, and their surface, depending on the location inside the chamber, has a light reflecting or light transmitting ability. The drawing shows schematically the proposed plant for in-line cipaTtr nikacija and hardening of winter inoculations of grapes and other plants, transverse and longitudinal cuttings. The installation consists of a chamber with heat moisture-proof walls 1, floor 2 and poI. .I (sense 3. Inside the chamber, sequentially, one after another, separate blocks of containers 4 are placed in line, connected between the transport unit 5 and the scap motor. The central blowers 6 supply warm, overwetted air, and the blowers 7 - cooled, wetted air. In addition, the installation includes; cooling screens 8; warming screens 9; water pipes with spray nozzles 10; electrical wiring for supplying luminaires, HanpHMeps fluorescent lamps 11; and grafting trays 12 that are not They are provided with perpendicular fences, and are equipped with a support bar 13 and a pressure plug 14. The bases for the warriors are strictly laid in one plane at the extreme edge of tray 12, and the inoculations lying on the bottom of the tray touch the support bar 13 slightly below the adhesion point. plate 14, the base of the containers 4 is made with a slight bias towards the bases of the rootstocks to allow condensate to drain, water and solutions from the place of the floss to the bases and graft. The containers are somewhat wider. H. .. 12 - they allow for the installation of several trays, nap The example is three, and the height is loaded into several Russ, for example, six or seven. On top of the trays 12 in containers 4 are rigidly fixed with restrictive bars 15, which at the same time prevent the mixing of cold and warm air near the ceiling of the chamber. On the side, the trays 12 are tightly held by the longitudinal walls of the containers 4. The overall cooling screen 8 somewhat does not reach the ceiling. chambers, and a cone 16 is placed on its top, and feeders are placed against the middle of which 17. Feeders 17 are fixed on screens from the ceiling ceiling with elastic sealing gaskets 19. The opposite corners of containers 4, which are consecutively to others in the chamber. Rebs | ea 18 provide mounting of screens with the formation of continuous partitions of various configurations along the chamber, as well as prevent the free exchange of air between adjacent work units (blocks). Over-humid air is warm and cold. The first air through individual ducts comes under pressure from% 17 of the ducts mounted below and above the chamber. At the top 4 of the cooling screen 8, in the area of the cone 16, the opposite edges are interconnected, forming a continuous partition reaching to the ceiling. The free space of the chamber, in which the grafting containers 4 are moved, in the transverse surface is divided by solid partitions formed by the longitudinal walls of the containers 4, trays 12 and the limiting ribs 18. Thus, in the chamber different zones of the microclimate can be created in the long-term and transverse direction. Screens 8 and 9, or behind them, are installed active working bodies that supply light and heat from the grafts from the grafts, and cold, water, and solutions in microspray form from the bases of the rootstocks. The sources of light and heat are electric luminaires, such as luminescent, cold-tubes with a refrigerant supplied by a refrigeration machine. In order to evenly distribute the scions of warm, humid air supplied from the feeders, and to prevent the scions from reflecting the ends of the scions 11, the heating screens 9 have a more convex shape, such as dihedral angles or spheres. The cooling screens 8 are directly adjacent to the ends of the grafts and can be flat. The surface of the heating screens 9 has a good reflective or light transmitting ability depending on the location of the screens inside the chamber, and, therefore, the fixture fixtures in front of or behind the screens, which in turn is determined by the method of joining the links and their set across the chamber. On the screens are doors 20, and in the walls of the camera-inspection. hatches 21. Turning on and off the main components automatically from sensors 22 (thermostat, moisture regulator, etc.) located in separate links, as well as from command devices of the central control panel. The daily production of vaccinations is loaded into containers that are driven to the extreme links of the chamber, at the beginning or end of it, so that their lateral faces tightly adjoin the restrictive edges 18 of the screens 8 and 9. Include sensors of these links for appropriate technology processing and production. t processing almost the entire BOTTOM of vaccinations with finely sprayed water from both the ends and the top. After this, the dressings are left until the next day. Then the conveyor 5 (Moves containers 4 to the second position in the free space of the chamber; or containers 4 are guided through the free space and installed next to the yesterday's production containers, include sensors of the following links and technological processing of all batches of vaccinations. In operation mode, the installation is provided as simultaneous and separate connection of units, for example, a refrigeration unit. In the chamber it is possible to create one temperature condition in all the links x, or on both screens, by gradually th air infiltration between vaccine that allows to operate the camera p PIP