SU753380A1 - Machine for applicating liquid into soll - Google Patents

Description

The invention relates to the field of agricultural engineering, in particular, to devices for spreading liquid nutrient plants or other means of chemicalization into the soil in a mixture with air. Machines are known for incorporating liquids and gases into the soil, including a compressor mounted on a frame with a receiver, a tank for liquids, an pump installation and horizontally spaced working members fixed to the walls in which channels for supplying liquid and gas are made and which are hinged to frame of the car. In these devices, the supply of liquids; and gases are carried out through the working bodies into the soil in the form of a continuous flow, or it is intended to install interrupter valves with a drive mechanism. The disadvantages of the mentioned devices include the fact that the adjustment of the flow and the injected substances by changing the pressure or frequency of valve opening requires additional devices, resulting in a complicated design, disrupting the process, reducing the distribution area of the injected substances and reducing the efficiency of such machines . The aim of the invention is to increase work efficiency by increasing the distribution area of the applied substances. This is achieved by using reciprocating pumps as a pumping unit, the working bodies are designed as needles, and a channel for supplying fluid S to each rack is arranged concentrically in the gas supply channel of a spring-loaded hollow rod, and The gas has a saddle for a hollow rod, under which a stepped valve with openings is installed, with the cavities of the rods communicating with the piston cavities of the pumps, and the channels for gas with the receiver. . FIG. Figure 1 shows a machine for introducing fluid into the soil, a general view. in fig. 2 - front of the working body, section aa of FIG. 1; in fig. 3 - valve with openings section bb b of fig.1. The machine includes a frame 1 with support wheels 2 on which compressor 3 is installed, a receiver 4, an axial installation, including piston liquid pumps 5, a capacity l liquid b, and operating elements 7 mounted on frame 1.

Piston pumps 5 are driven by wheels-2 through gear 8 by means of an eccentric mechanism including an eccentric 9, a spring-loaded lever 10.

There is a special mechanism 11 for controlling the flow of fluid.

The working body 7 for introducing a liquid is made in the form of hollow needles 12 with holes 13 and poles 14.

Each rack 14 has a channel 15 for gas in which a hollow rod 16 is placed, connected by pipe 17 to a piston pump 5. Channel 15 for gas is connected by a pipe with a receiver 4. The rod 16 rests on a saddle 18 made in a canape 15 for gas under which fixed valve 19 with a conical top. The valve 19 has holes 20, the rod 15 is spring-loaded spring 21. Before starting the operation, the compressor 3 is actuated, which forces air into the receiver: 4 to the required pressure, and with the start of the movement, the NIN working bodies 7 are buried in the soil and turn on fluid pumps 5. Pistons of pumps periodically supply fluid to the working bodies in the rods 16, which then rise above the stationary valve and 19 and the saddles 18, and air and fluid flow into the needle cavity 12. A mixture of fluid and compressed air Xa is injected into the soil, where compressed gases, expanding, cleave the overlying layer of soil, lift it up and spread the fluid particles across the subsurface spaces. During the suction stroke, i.e. when the piston of the liquid pump moves down / rod, start up, closes the air path p of the fluid c. needle cavity. Then, the pre-process is repeated.

I When the flow or pressure of the fluid changes, the duration or magnitude of the lifting of the rod above the valves 19 and the seat 18 also changes, thereby ensuring automatic control of the air flow rate and constant ratios of injected fluids and gases.

With the help of this machine, it is possible to pulse-feed gas-dispersed systems to the soil layer, which increases their distribution zone, and the concentration constant (the ratio

air and liquid) increases work efficiency. The working bodies of this machine are simpler since they do not have mechanical flow interrupters and actuators.

Claims (1)

1. Author's certificate of the USSR. № 238924, cl. A 01 C 23 / 02.1969.