RU2058723C1 - Manual root feeder - Google Patents

Abstract

FIELD: manual tools for supplying liquid to soil area adjacent to plant root system. SUBSTANCE: manual root feeder has tank 1 with filling throat 11, handle 7 and hydraulic drill 2 with tip 3 abuting against soil surface. Filling throat 11 has filling valve 13 and return valve. Hydraulic drill 2 is provided with magnet, thrust engageable with magnet, coupling 6 seated onto hydraulic drill 2 for adjusting tip soil penetration depth and provided with spring thrust. Tank 1 has carrying handle 7 and tube 9 with liquid flow rate control scale 10. EFFECT: increased efficiency, wider operational capabilities and enhanced reliability in operation. 3 dwg

Description

 The invention relates to agricultural machinery, in particular to manual tillage tools used in garden plots for introducing liquid nutrition into the area of plant roots.

 Known designs of devices that provide fluid to the ground. They are mounted on a self-propelled chassis, containing hydraulic drills with hydraulic lifts, a tank with liquid and a pump.

 The disadvantage of this device is that it is impractical to use on small areas of land garden plots and it is inconvenient and expensive. Its purpose is to fertilize fruit trees in large gardens.

 Closer to the technical nature of the proposed solution, is a device for irrigation of gardens by injection.

 It also contains significant disadvantages: to use a pointed tip with a side hole, you must have a long connecting hose and a pressurized water system; the device lacks meters of water flow and the depth of immersion of the tip in the ground.

 The essence of the invention is the creation of a device that is convenient to use and ensures the economical use of water and nutrient solutions.

 At the same time, other positive qualities are achieved: radical watering of plants is more effective than surface and therefore is performed less frequently; water in a manual root feeder is easy to magnetize, having a beneficial effect on plants; radical watering can be carried out at any time of the day, without expecting an evening drop in air and ground temperature.

 The solution of the tasks in terms of ease of use is achieved by the fact that: RK has small dimensions and weight and therefore is carried by one person; RK is compact, since the tank and the hydraulic drill are combined in one design; RK contains a supply of water or nutrient solutions sufficient to treat many plants; RK does not contain a pump and the liquid enters the ground due to the static pressure of the liquid column, but it is possible to create a pressurization in the tank with a person’s mouth or low pressure air pump.

 Saving the use of water or a nutrient solution in the Republic of Kazakhstan is achieved by controlling the dosage of fluid flow for any plant and its total amount in the tank.

 In FIG. 1 shows a general view of the PK, in which the prime valve and tip are in the open position; figure 2 the design of the valve refueling; figure 3 is a section of a pipe of a hydraulic drill.

 The PK contains a tank 1, a hydraulic drill 2, a tip 3, a spring 4, a movable stop 5, a clutch 6. On the tank 1, on the side there is a handle 7 for carrying the PK and on top a handle 8 for use in work.

 A transparent tube of level 9 is placed on the side surface of the tank, connected to the tank at the top and bottom, and closed by a scale 10 on the side. At the top of the tank is a filling neck 11, which is separated from the tank by a sealed partition 12, in which a filling valve 13 with a tube and a spring 14 is installed The valve is controlled by the end of the two-shouldered lever 15, mounted on the handle 8, movably connected to the tube 17 with a stop. The open position of the valve fixes the ring 16, worn on the handle 8, holding the second shoulder of the lever in the lower position. At the bottom of the filling valve, a check valve is installed in the form of a sleeve 18 and a washer 19 with the possibility of adjusting it. The hydraulic drill is made by a stepped pipe, in the upper part of which there is a conical hole 20. A tip 3 is fixed on the bottom 21, the lower stop 22 and the upper stop 23 of the valve are higher, the spring 24, the valve 25, the stop 26, the steel stop 27 and the magnet 28 mounted on rack 29 of non-magnetic material.

 The hydraulic drill is installed in the tank bottom hermetically.

RK can be filled with liquid in two ways:
by immersing it in a barrel with water, at the same time press the lever arm on the handle 8 and slide the ring 16. The ring is removed from the lever after the air bubbles exit the tank, the PK is lifted by the handle 7 and the remaining water is poured from the filling neck into the barrel;
pouring water from the bucket, while the RC with the handle 8 is hung at the stand installed in the ground, press the lever shoulder on the handle 8 and slide the ring 16. Water is poured from the bucket into the filling neck until the air bubbles exit the tank. Then the ring is shifted from the lever, the PK is lifted by the handle 7 and the water remaining in the filling neck is poured into the bucket.

The work of the Republic of Kazakhstan is carried out in the following order:
it is carried by the handle 7 to the place of use,
depending on the root system of the plant, adjust the position of the sleeve 6 with a movable stop on the pipe of the hydraulic drill to the desired immersion depth of the tip;
choose a point on the ground near the zone of plant roots;
take the RK by the handle 8 and install the tip 3 in this place;
on a scale determine the initial level of fluid in the tank and to what value it should decrease depending on the dose of food;
through the handle 8, press on the RK to compress the spring 4 and then release it;
they monitor the fluid flow rate on a scale and, upon reaching the final RK mark, are removed from the ground and immediately touch it with a tip. RK is again in its original state.

 When a hydraulic drill is immersed in the ground, the following occurs.

 Tip 3, pressed to the end of the pipe of the hydraulic drill, enters the ground and pushes a round channel in it. In this case, the movable stop 5 rests on the ground and compresses the spring 4. After removing the force from the handle 8, the PK rises by the force of the spring, and the tip 3 rests against the walls of the earth channel with its edges and remains below. The tip through the rod 21 pulls the stop 26 down to the stop in the pipe of the hydraulic drill 2, the stop 23 pushes the valve 25 down, it opens the passage and the magnetized water rushes down into the pressed hole in the ground. After the hydraulic drill leaves the ground, water continues to flow out, but when the tip 3 touches the ground, the stem 21 moves upward, the valve 25 closes the hole and the steel stop 27 adheres to the magnet 28.

 Clogging of the hole of the hydrodrill tube at tip 3 is excluded, since when pressing it into the ground, the large diameter of the tip closes the smaller diameter of the hole, and when leaving the ground it is washed with water. To ensure immersion of the tip 3 to the required depth, the coupling 6 has an adjustment on the pipe of the hydraulic drill. When working in an airtight tank with a decrease in the liquid level, a vacuum is created on the non-return valve, not letting water out when the PK is tilted during its transfer, it passes air into the tank.

 To increase the pressure of the liquid leaving the RK, it is possible to create a pressurization in the tank through the pipe 17 with the mouth of a person, or a low-pressure air pump.

Claims (1)

 MANUAL ROOF, made in the form of an autonomous portable device and including a tank with a filler neck and a handle and a fluid release valve with an emphasis and a spring, characterized in that it is equipped with a hydraulic drill having a magnet in the upper part and a steel stop interacting with it, fixed to the rod, on which has a fluid outlet valve, up-down valve stops, a tip and a spring-loaded coupling mounted on a hydraulic drill with the ability to adjust the depth of immersion of the tip into the ground, while chnika Hydrodrills larger diameter holes, the tank has a filler neck and the filler return valves, and the tank is provided with lateral carrying handle kornepitatelya tube and the scale for controlling the flow of fluid from the tank.

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