SU948327A1 - Berry collecting device - Google Patents

Description

(S) DEVICE FOR COLLECTION IGODES

one

The invention relates to the field of agricultural engineering, in particular to devices for manual. th collection year, mostly wild sea buckthorn.

A device for collecting a year includes a frame with an airtight working chamber fixed on it, connected to water tanks, a refrigerant JQ agent, and a HP agitator.

However, the known device cannot be effectively used to collect wild sea buckthorn: /. jj

It is also known a device for collecting a year, comprising a frame with a sealing chamber fixed thereto with it, connected to water, refrigerant and year C-containers. 20

A disadvantage of the known device is also the inefficient use for collecting wild buckthorn.

The aim of the present invention is to increase productivity in collecting wild plants per year.

This is achieved by the fact that the working chamber is made in the form of a glass, on the inner surface of which a funnel is mounted, connected to the tank for a year, and the tanks for water and refrigerant are connected to the working chamber through a distributor.

In addition, air is used as a refrigerant, and a container for it is connected to the distributor via a device for creating a vortex flow.

The seals are made in the form of pneumatic chambers connected to a distributor, and the frame is made telescopic, with the capacity for a year equipped with a vacuum pump.

The drawing shows the proposed device, side view.

Claims (2)

The device for a year includes a gantry pipeline 1 for freezing and separating a year, made in the form of a glass with insulating walls, on the edges of which seals 2 are installed in the form of pneumatic chambers connected via pipelines 3 and 4 and a valve with a distributor 6 and a pressure pipe 7 is fixed to the bottom of the glass with a valve 8 connected via distributor 6 alternately to a spray with tele 9 via valve 10 made in the form of a siphon tank filled with water and a refrigeration unit consisting of from a vortex tube 11 and a balloon 12 with compressed gas, for example air. The vortex tube 11 includes a tangential inlet 13, a cold end H and a needle valve 15. The tangential inlet 13 of the vortex tube 11 is connected to the balloon 12 by means of the valves 16 and 17. A funnel 18 is made on the lateral surface of the portal pipeline 1, below its bottom end. is closed by a cap 19 with holes 20, which, through the ICTBOM of the suction pipe 21, is connected to a catcher consisting of a vortex vacuum pump 22 and a tank-tank 23, and on the side surface of the tank-tank 23 is perforated 24, the diameter of the holes which is smaller than the smallest diameter collected year. The vortex vacuum pump 22 includes a tangential inlet 25, a suction inlet 26, and a diffuser 27, with which the vortex vacuum pump 22 is fixed at the end of the hopper tank 23. The tangential inlet 25 of the vortex vacuum pump 22 is connected via a valve 28 and 17 to a balloon 12 In addition, the sprayer 9, the refrigeration unit and the catcher with all the connecting pipes and valves are fixed together on a portable knapsack 29. Portal pipeline 1 is fixed on a telescopic support 30, adjustable in height of the bush .. Device for pa year works as follows. The collector comes to the bush, installs a telescopic support 30 at the height of the selected branch of the bush and closes the portal pipeline 1 around it. Then opens the valve 17 of the cylinder 12 with compressed gas and delivers gas through the open valve 16 and the tangential entry 13 of the vortex tube 11. The needle valve 15 is in a closed position and the compressed gas through the valve 6, the open valve 5 and the pipes 3 and k enters the seals 2, which tightly cover the base of the branch of the bush. After This valve 5 is closed. Then turn on the sprayer 9. To do this, open the valves 10 and 8, compressed gas, pass through the distributor 6, sucks water from the tank-siphon and then through the open valve 8 and the discharge pipe 7 supplies it to the glass of the portal pipeline 1, where the processing of the branch takes place bush with water, which contributes to the intensive freezing of the bush when exposed to negative temperatures. After treatment with water, set up the refrigeration unit to obtain the required negative temperature of the gas stream supplied to the portal ruboprovod 1 by veiventil 16 and needle valve 15, inside the vortex tube 11 there is a division of the compressed gas on the cold and the hot component. The cold gas through the distributor 6, the open valve 8 and the discharge Pipeline 7 enters the thermally insulated cylindrical chamber of the portal pipeline 1, passes through a branch of the bush over the years until the stem cools down to a temperature of -15 C a year, which causes hardening of the juice in them and, as a result, will lead to the fragility of the latter and will improve the separation of the year from the branch of the bush in the process of building. Due to the presence of a thermally insulated chamber, the peduncle is cooled to the required temperature almost simultaneously at the same time, which leads to 100 harvesting per year. Exhaust gas is discharged from the chamber through a funnel 18 closed by a cap 19 with openings 20 and further through the suction pipe 21, a vortex vacuum pump 22 and a bunker 23 through perforations into the atmosphere. After cooling for a year and the stalks to the required temperature, the hollowing unit is shut off. To do this, they close the valve 16 and the needle valve 15. The branch of the bush is inserted by means of a telescopic 59 support 30 fixed with portal pipeline 1. Drop down, the years roll to seal 2. Then open the valve 28 and supply compressed gas to tangential injection 25 vortex vacuum pump 22, inside which create a vacuum. The berries from the portal pipeline 1 through the opening 20, the cap 19 are sucked into the funnel 18 and then through the suction pipe 21 and the suction pipe 2b entering the vortex vacuum pump .22 and through the diffuser 27 inside the container hopper 23. After collecting the year, the portal is removed pipeline 1 from a branch of a bush. To do this, open the valve 5 and produce a suction of compressed gas from the seals 2 through pipelines 3 and if, valve 5, valve 6, valve 8, pipe 7, gantry pipe 1, funnel 18 to the suction pipe 21 and the catcher to the atmosphere. Then open the portal pipeline 1 and release a branch of a bush. At the same time, severed leaves are poured out of a full canal. Shut off the valve 28 and put the portal pipeline 1 on the next branch of the bush and then in the same sequence. The proposed device will significantly improve the performance of collecting wild growing glove. Claim 1, A device for collecting a year, including a frame with a working chamber with seals attached to it, connected to tanks for water, refrigerant and a year increasing the productivity of collecting wild-growing year, the working chamber is made in the form of a glass, on the inner surface of which a funnel is mounted, connected to the tank for a year, and the tank for water and coolant is connected s with the working chamber through the distributor. 1, otli2. The device according to claim 5, in which air is used as the refrigerant, and the container for it is connected to the distributor via a device for creating a vortex flow. 3. A device according to claim 1, characterized in that the seals are made in the form of pneumatic chambers connected to a distributor. C. The device according to claim 1, which is that the frame is made telescopic, and the tank is equipped with a vacuum pump. Sources of information taken into account in the examination 1. USSR author's certificate number 600985, cl. A 01 D CB / OQ, 1979. 2. USSR author's certificate number 7385 6, cl. А 01 D k6 / 2k, 1979 T-7/9 Gz .jff