SU959666A1 - Water feeder to sprinkling machine - Google Patents

Description

one

The invention relates to the mechanization of agriculture and can be applied to open irrigation systems with frontal sprinkler machines for applying mineral fertilizers and other chemicals with irrigation water.

A hydraulics launcher for sprinklers is known, including a fertilizer hopper, a dosing chamber, a mixing chamber, filtering networks for soluble fertilizers, a float level regulator, supply and discharge pipelines with stop valves 1.

The disadvantages of such a hydroplander are the high costs of manual labor when loading fertilizers and removing undissolved precipitates, the limited volume of the tank and the corresponding neck sizes for loading currents, preventing the mechanization of the process, high irregularity of dosing, difficulty in setting the rate of application, the constant presence of service personnel during work.

Also known is the fertilizer for sprinkling and irrigation machines, which includes a tank with a perforated barborator for preparing solutions, float actuators regulating the level of the solution, a blower and a pump.

5The basis of his work is the principle

preparing a saturated solution obtained by loading the mass of fertilizers larger than required by the available volume of water. For the active solution of 0 ticks, the method of continuous pneumatic sparging 2 is used.

However, the continuous bubbling leads to the fact that the solution is constantly suspended, which can prematurely deactivate the hydraulic actuators and clog the pipelines; , - continuously operating gasoline engine requires the constant presence of staff;

- dosing of solutions in the open

Claims (3)

The 2Q channel leads to the loss of nutrients to the deep filtration and during the most common work with the discharge of irrigation water, which leads to an environmental disturbance associated with the pollution of the environment. The closest to the invention is a hydraulic sub-operator in the form of a mobile tank attached to the pneumatic wheel attached to the sprinkler unit, including a float dispenser and connecting it in series with the storage tank and the suction line of the pump hoses with cranes 3. A disadvantage of the known hydraulic power unit is the complexity of aggregation with the sprinkler , frequent refueling, requiring attendant attendance, high operational and energy costs. The purpose of the invention is to simplify the design and reduce operating and energy costs. The goal is achieved by the hydraulic trimmer mounted on the frame of the code trolley of the sprinkler, while its feed capacity is mounted to move along vertical guides mounted on the frame of the trolley and equipped with ballast tanks symmetrically located and communicating with it, has a level indicator in the tank, kinematically connected with the car's engine limit switch. The drawing shows a device; the general device comprises a structure in the form of ballast tanks 3 and 4 of cylindrical shape communicating with a centrally discharging tank 5 located in an open irrigation canal 1 and interacting with a chassis trolley 2 of a frontal multi-support sprinkler 5. Reservoirs 3 and 4 are equipped with barboratory 6, working on the exhaust gases of the diesel engine 7, and the capacity 5 - the float 8. The float 8 is equipped with a pointer 9 solution level and. filter cartridge 10 with a set of interchangeable diaphragms 11, connected through the suction hose 12, and a crane 13 to the suction pipe 14 of the pump 15 of the sprinkler. In turn, the 9 level indicator is equipped with an anvil 16, which interacts with the limit switch 17, which is interlocked with the electric circuit 18 with the trolley engine 7. When the solution is consumed, the float 8 goes down, and the stop 16 interacts with the limit switch 17. The latter opens the circuit 18 and stops the engine of the sprinkler truck. Thus, blocking of the complex in the form of a sprinkler and hydraulic podmorkerschik, which eliminates the work without the introduction of chemicals with irrigation water, as well as the pump when the vacuum is broken, is carried out. The prefabs in the form of tanks 3 and 4 containers 5 tons d-19 with stops 20 through spherical sleeves 21 are connected to the carriage 2 of the sprinkler. They have the ability to move in a vertical plane when the level of irrigation water in the open irrigator is changed or when the volume of fertilizer is filled or emptied. In the absence of the need for fertilizer irrigation, the rods 19 are raised up and fixed in the neutral position, and the suction hose is disconnected. The irrigation with clean water is carried out without moving the proposed device over the sprinkler. Hydraulic submachine works as follows. In the warehouse of mineral fertilizers, tank trucks or tank-mounted containers on pneumatic wheels are filled with liquid fertilizers or Their pre-prepared solutions. Delivered to the hydroplander, located in the open irrigator 1 and mounted by the trolley 2 of the multi-support sprinkler, they are discharged into the supply tank 5. From the supply tank 5, chemical compounds enter and fill the tanks 3 and 4 communicating with it. For uninterrupted operation of the device and rational use of transport, its total volume must exceed a single charge. After filling, in case of need for constant mixing of the components in order to avoid the precipitation of existing inclusions, barborators 6 are connected to the exhaust pipe of the diesel engine 7. Exhaust gases enter the tanks, simultaneously heat and mix the solutions. After that, they proceed to the adjustment for the required dose and the inclusion of the hydraulic feeder in the work. The rate of introduction of nutrients depends on the amount of the supplied solution, its characteristics and the speed of movement of the sprinkler, i.e. the irrigation rate, and will be determined by the diameter of the orifice of the interchangeable diaphragm 11. By selecting the required aperture 11, it is installed in filter 10 on the float 8 carrying hose 12. The device is ready to work. When the pump 15 is running, the valve 13 opens and the hose 12 through the suction line 14 simultaneously with the intake of water from the canal dispenses the solutions of nutrients or other chemical compounds into the irrigation water flow. The float 8 keeps the washer, which determines the flow rate of the solution, below a constant level, which ensures the accuracy of the operation and prevents foreign particles from entering the pump. The reliability of the operation increases the filter 10. The level 9 indicator associated with the float 8 informs about the amount of the existing solution and prevents the sludge inclusions from settling to the bottom. In addition, when the solution is consumed, the float with the rod 9 carrying the stop 16 goes down. The stop 16 communicates with the limit switch 17, which opens the circuit 18 associated with the emergency shutdown of the engine 7. The sprinkler stops. During operation of the device, it moves along channel 1 behind the sprinkler car. The force on movement is transmitted from the energy trolley with 2 tons 19 with stops 20 through spherical floating sleeves 21. When the water level in the channel changes or the corresponding increase-decrease of the solution volume, the storage vessels with the supply capacity and the technological units inside them move in a vertical plane. The floating spherical sleeves 21 allow free movement even when the inclined position of the car 2 of the sprinkler is changed. To detach the device from the mask, the gigs 19 are raised up and fixed with special bolts in the stops 20 in the upper position. The proposed device for applying liquid fertilizers, as well as other means of chemicalization with irrigation water, allows to mechanize and automate the process, reduce the cost of living labor, not create harmful effects on the environment, and most importantly, significantly reduce the energy costs of moving necessary. stocks of solutions necessary for the normal conduct of the process. A comparative technical and economic calculation of the proposed device and the commercially available hydraulic planer for DDA-100MA showed that the annual economic effect will be 4,938 rubles with a payback period of J year and an increase in the level of labor productivity of about 400%. Claims of the invention A hydraulic sub-distributor to the sprinkler is not including a supply tank with a float metering device connected to the pump suction line, characterized in that, in order to simplify the design and reduce energy and operating costs by allowing it to move afloat in an open sprinkler afloat mounted on the undercarriage of the sprinkler with the possibility of moving along vertical guides mounted on the frame of the carriage and equipped symmetrically with false and communicating with its ballast tanks, the dispensing device is provided with a liquid level indicator in the container is kinematically associated with a limit switch truck engine. Sources of information taken into account in the examination 1. The author's certificate of the USSR, № 193805, -kl. A 01 23/04, 1968. 2. USSR author's certificate number 188181, cl. A 01 K 23/04, 1965. 3. Gobeev A. B., Huber K. V. Irrigation of vegetable crops by sprinkling. M., 1980 p. 70-72.