JP2631873B2 - Liquid earth injection device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for ejecting liquid such as liquid fertilizer, drainage enhancer, soil fumigant, etc., together with ejection of compressed air into the soil by a pneumatic soil conditioner. It is about.

[Prior art]

Conventionally, a fumarole 7 protruding downward from the fuselage.
And a blast gas 8 provided at the lower end of the fumarole 7 and blasting upward, and blasting compressed air from the blast gas 8 into the soil to form a crack in the deep soil layer and deep cultivate. A pneumatic soil conditioner 1 is known. Then, in the soil conditioner 1, the blowout of high-pressure air softens the soil to promote the growth of the roots of the plant.
To activate the plant and increase the yield.

[Problems to be solved by the invention]

As described above, in the pneumatic soil conditioner 1, the compressed air is mainly jetted to generate cracks in the soil. For example, liquid such as liquid fertilizer, drainage enhancer, soil fumigant and the like are sprayed together with the jetted compressed air. Nothing was ejected. SUMMARY OF THE INVENTION In view of the above circumstances, an object of the present invention is to provide a device for ejecting liquid into the soil in which liquid is atomized together with the ejection of compressed air and is ejected upward from a deep soil portion.

[Means for Solving the Problems]

In order to achieve the above object, the present invention provides: It has a fumarole 7 protruding downward from the fuselage and a propellant 8 provided at the lower end of the fumarole 7 and propelling upward. Compressed air is blown into the soil from the propellant (8). In the pneumatic soil conditioner 1 in which the soil is deeply cultivated by causing a crack in the deep tank portion, a liquid supply mechanism for supplying a predetermined amount of liquid to the compressed air passage 9 of the fumarole 7 by a predetermined amount is provided. The liquid is sprayed into the soil together with the compressed air by the compressed air ejected from the propelled gas 8 through the compressed air passage 9 through the compressed air passage 9. The liquid supply mechanism is provided with a valve 19 for sending a predetermined amount of liquid immediately before compressed air is ejected in the middle of a pipe 18 for supplying liquid from the liquid tank 17 to the compressed air passage 9. In the liquid supply mechanism, a predetermined amount of liquid is stored in the middle of the compressed air passage 9, and a liquid reservoir 21 ejected by compressed air is stored.
,. The liquid supply mechanism is provided with a liquid reservoir 23 for storing a predetermined amount of liquid and compressed air in the middle of a pipe 18 for supplying liquid from the liquid tank 17 to the compressed air passage 9. And a valve 19 for ejecting the liquid together with the liquid when the pressure reaches a predetermined pressure.

[Action]

With the above-described configuration, the present invention provides good results for soil and vegetation because liquid sprayed in the form of a mist penetrates through cracks in the soil formed by the injection of compressed air.

【Example】

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In FIG. 1, reference numeral 1 denotes a pneumatic soil conditioner. The soil conditioner 1 includes a top mast 3 and a lower link connecting pin 4 at a front end of a main body frame 2 and is provided at a rear portion of a tractor (not shown). Power is transmitted from a PTO shaft of a tractor to an input shaft 6 connected to a three-point link hitch and protruding forward from an air compressor 5 described later. An air compressor 5 is provided on the rear portion of the main body frame 2. The air compressor 5 is opened when the air pressure in the air tank reaches a predetermined pressure, an air tank storing compressed air compressed by the air compressor, and the like. And an unloader for discharging compressed air. At the lower end of the rear part of the main body frame 2, a fumarolic column 7 that extends long downward is mounted, and at the lower end of the fumarolic column 7, a blast gas 8 is mounted. The fumarolic column 7 is inclined so that the lower end thereof is located forward of the upper base side in a side view, a blade edge 7a is formed at a front edge thereof, and an air supply pipe 9 is attached to a back portion thereof. ing. The propellant gas 8 has a sharp part 10 having a tip formed in an arrowhead shape.
A blow hole 11 is opened upward and communicates with the air supply pipe 9, and the upper end of the air supply pipe 9 is connected to a compressed air discharge side of an unloader of the air compression device 5 through a pipe 12. I have. A coulter 14 is supported on a lower front portion of the main body frame 2 via a support arm 13. The coulter 14 is provided in front of the fumarole 7, and is provided with a top mast 3 and a lower link connecting pin 4. When the improved machine 1 is lifted and does not touch the ground, the support arm 13 slightly moves down. When the touchdown touches the ground, the support arm 13 slightly moves up and down to open and close a mechanical valve (not shown). I have. The mechanical valve is connected to the unloader, and when the support arm 13 is opened by moving upward, the unloader is activated,
When 13 is moved down and closed, it functions to make the unloader inoperative. In addition, a stand 15 is provided below the front part of the body frame 2,
A gauge wheel 16 is provided rotatably in a use state and a non-use state, and is adjustable up and down in front of a mounting base of a fumarole 7 at a rear portion of the main body frame 2. A liquid supply pipe 18 communicatively connected to the bottom of the liquid tank 17 is connected to an upper part of the air supply pipe 9.
An air operated valve 19 connected to the unloader of the air compressor 5 and opened when the air pressure acting on the unloader reaches a predetermined pressure to allow a predetermined amount of liquid to pass therethrough, and a check valve 20 are provided in the middle of the operation. The unloader of the air compressor 5 is set to open when the air pressure in the air tank reaches 9.5 kg / cm ² , whereas the air operated valve 19 opens when the air pressure in the air tank reaches 8.5 kg / cm ² It is set as follows. In the pneumatic soil conditioner 1 having such a configuration, the top mast 3 and the lower link connecting pin 4 are connected to the tractor, the stand 15 is put in a non-use state, and the gauge wheel 16 is connected to the fumarole 7 and the blast 8. Adjust the work so that it enters the soil at a predetermined depth, and work while towing. The air compression device 5 is driven by the rotational power transmitted to the input shaft 6.
Is operated, and the compressed air is stored in the air tank. The coulter 14 is grounded and the mechanical valve is opened to activate the unloader of the air compressor 5. When the air pressure acting on the unloader becomes 8.5 kg / cm ² , the air operated valve 19 is opened and the liquid fertilizer 17 in the liquid tank 17 is stored. After passing through a fixed amount, the gas is supplied into the air supply pipe 9 through the check valve 20. Immediately after that, the air pressure in the air tank was 9.5 kg / cm ²
At this point, the unloader opens and supplies the compressed air in the air tank into the air supply pipe 9 to squirt vigorously from the blowing hole 11 into the soil above. This jetting power causes cracks (cracks) in the soil and the soil becomes soft and soft, and the cracked liquid fertilizer permeates through the cracks. As a result, a fertilizer is supplied together with oxygen to the roots of the plant cultivated above the ground to promote absorption from the root, thereby improving the growth of the plant. The ejection of the compressed air and the liquid fertilizer is repeatedly and intermittently performed when the air pressure in the air tank reaches a predetermined pressure, and the soil improvement and fertilization of the whole field are continuously performed with the progress of the airframe. If the liquid contained in the liquid tank 17 is, for example, a drainage enhancer, the passage hole at the mark where the blast 8 has passed is maintained without collapse, and the same drainage effect as the mole culvert can be obtained. If the liquid is a soil fumigant, soil nematodes can be controlled. If the liquid is a pesticide solution, a desired control effect can be obtained. As shown in FIG.
Alternatively, the pipe 12 and the liquid supply pipe 18 may be connected to the upper part of the liquid reservoir 21. In the second embodiment, an air operated valve
The liquid flowing down by opening 19 is temporarily stored in the liquid reservoir 21, and high-pressure air is blown against the stored liquid to be ejected from the blast holes 11, thereby further promoting the atomization of the liquid. As shown in FIG. 3, according to the third embodiment of the present invention, a liquid reservoir 23 is provided in the middle of a liquid supply pipe 18 and connected to an air tank, and a check valve 20 is connected to the liquid tank 17 and the liquid reservoir 23. The air supply pipe 9 is provided between the air supply pipe 9 and an air operated valve 19 operated by a mechanical valve and a liquid supply pipe 18. In the case of the third embodiment, the liquid in the liquid reservoir 23 is pressurized by air pressure from the air tank, and when the air operated valve 19 is opened, the liquid is supplied to the air supply pipe 9 in a pressurized state, The atomization of the liquid is promoted and the liquid is ejected into the soil together with the compressed air, so that the diffusivity and the permeability are improved.

【The invention's effect】

As described above, according to the apparatus for ejecting liquid into the soil of the present invention, the following effects can be obtained. . A liquid supply mechanism is connected to the compressed air passage 9 of the blast column 7 to supply the liquid by pressurizing the liquid by a predetermined amount, and the liquid is atomized by compressed air ejected from the blast gas 8 through the compressed air passage 9. As it gushes into the soil together with air, the liquid can well penetrate into the cracked soil due to the compressed air, swelling and softening the soil, improving the supply of oxygen, and absorbing the fertilizers and other substances into the plant roots. Promote and improve plant growth. . The liquid supply mechanism is provided with a valve 19 that feeds a predetermined amount of liquid immediately before the compressed air is ejected, in the middle of a pipe 18 that supplies the liquid from the liquid tank 17 to the compressed air passage 9. It is atomized and spouted into the soil together with the compressed air, so that fertilization and the like can be simultaneously and efficiently performed with the softening and softening of the soil. . In the liquid supply mechanism, a predetermined amount of liquid is stored in the middle of the compressed air passage 9 and the liquid reservoir 21 ejected by the compressed air is provided. Therefore, the high-pressure air acts on the liquid stored in the liquid reservoir 21 at a stretch. Atomization is promoted and jetted from the fumarole 11 to enhance the softening effect of the soil and the liquid supply effect. . The liquid supply mechanism is provided with a liquid reservoir 23 for storing a predetermined amount of liquid and compressed air in the middle of a pipe 18 for supplying liquid from the liquid tank 17 to the compressed air passage 9, and the air pressure in the liquid reservoir 23 is reduced. Since the valve 19 is provided so as to be ejected together with the liquid when the pressure reaches a predetermined pressure, the stored liquid is automatically supplied to the compressed air passage 9 in a pressurized and atomized state,
The softening of the soil and the infiltration of the liquid are performed uniformly, resulting in good results for the cultivated plants.

[Brief description of the drawings]

FIG. 1 is a side view of the entire apparatus showing a first embodiment of the present invention, FIG. 2 is a side view of a main part showing a second embodiment of the present invention, and FIG. It is a side view of the important section showing an example. 1 ... pneumatic soil conditioner, 2 ... body frame, 3 ...
Top mast, 4 ... Lower link connecting pin, 5 ... Air compressor, 6 ... Input shaft, 7 ... Fumarole, 8 ... Spray gas, 9 ... Air supply pipe, 10 ... Sharp part, 11 ... ... the fumaroles, 12 ...
... pipe, 13 ... support arm, 14 ... coulter, 15 ...
Stand, 16… Gauge wheel, 17… Liquid tank,
18 ... liquid supply pipe, 19 ... air operated valve, 20 ...
... check valve, 21, 23 ... liquid reservoir, 22 ... open / close valve.

Claims (4)

(57) [Claims] A fumarolic column (7) protruding downward from a fuselage and a blast gas (8) provided at a lower end of the fumarolic column (7) and blasting upward. (8) In the pneumatic soil conditioner (1) in which compressed air is blown into the soil from the (8) to cause cracks in the deep tank and deep cultivate, the compressed air passage (9) ) Is connected to a liquid supply mechanism that pressurizes and supplies the liquid by a predetermined amount, and the liquid is atomized by the compressed air ejected from the propellant gas (8) through the compressed air passage (9), and the soil is formed together with the compressed air. A liquid soil squirting device characterized by squirting into the inside. 2. The liquid supply mechanism includes a liquid tank (17).
2. A valve (19) for feeding a predetermined amount of liquid immediately before compressed air is ejected is provided in the middle of a pipeline (18) for supplying liquid from the air to the compressed air passage (9). Liquid earth squirting device. 3. The liquid supply mechanism according to claim 1, further comprising a liquid reservoir (21) for storing a predetermined amount of liquid in the middle of the compressed air passage (9) and ejecting the liquid by compressed air. The device for squirting liquid into soil according to the above. 4. The liquid supply mechanism includes a liquid tank (17).
A liquid reservoir (2) for storing a predetermined amount of liquid and compressed air in the middle of a pipe (18) for supplying liquid to the compressed air passageway (9).
3. The device according to claim 1, further comprising a valve configured to eject the liquid together with the liquid when the air pressure in the liquid reservoir reaches a predetermined pressure. .