CN107750559B

CN107750559B - Method for improving tea planting soil

Info

Publication number: CN107750559B
Application number: CN201711036436.6A
Authority: CN
Inventors: 何奎兴
Original assignee: Zhenba County Xingshun Agriculture And Animal Husbandry Co Ltd
Current assignee: Zhenba County Xingshun Agriculture And Animal Husbandry Co ltd
Priority date: 2017-10-30
Filing date: 2017-10-30
Publication date: 2020-08-07
Anticipated expiration: 2037-10-30
Also published as: CN107750559A

Abstract

The invention discloses a method for improving tea planting soil, and relates to the field of tea planting; it adopts a fertilizer injection unit to mix fertilizer and phosphorus fertilizer. The organic fertilizer fertilizing device comprises a traveling mechanism capable of traveling in soil, and a fertilizer injection mechanism, an organic fertilizer sterilizing mechanism and a phosphate fertilizer box which are arranged on the traveling mechanism. The fertilizer injection mechanism comprises a fan, a Venturi tube and an organic fertilizer hopper; the fertilizer mechanism of disinfecting includes the water tank and locates the electromagnetic heating coil of water tank periphery. The step (2) comprises the following steps: (a) crushing an organic fertilizer and putting the organic fertilizer into an organic fertilizer hopper, crushing a phosphate fertilizer into powder and putting the powder into a phosphate fertilizer tank, putting water with the volume of 1/3-1/2 of the volume of a water tank into the water tank, and sealing the water tank; (b) connecting the electromagnetic heating coil with a power supply, and turning on a fan after water in the water tank is boiled; (c) driving a walking mechanism to walk at the speed of 8-10 m/min; the organic fertilizer can be sterilized by the method.

Description

Method for improving tea planting soil

Technical Field

The invention relates to the field of soil improvement, in particular to a method for improving tea planting soil.

Background

In the soil for planting tea, if the content of organic matters is low, the phosphorus in the soil is extremely deficient; the root system is easy to rot after the tea tree is transplanted, and the survival rate is low, so that the condition for planting the tea tree is not provided. For this reason, soil improvement is required to improve the survival rate of tea trees. Therefore, organic fertilizers are proposed to improve the soil so as to improve the survival rate of tea trees. In actual operation, in order to ensure phosphorus in soil, an organic fertilizer and a phosphate fertilizer are usually mixed for use; but the effect is not good, and the root system of the tea tree still can rot and insect pest cause the death problem of the tea tree seedling after transplanting, which is mainly because the organic fertilizer contains a large amount of microorganisms in the fermentation process and can parasitize insect eggs of a large amount of insect pests. After the organic fertilizer is applied to soil, microorganisms continue to reproduce and decompose some acidic substances, so that the organic fertilizer has a putrefactive effect on root systems of tea tree seedlings; in addition, the eggs will also propagate in the soil to form larvae, which will bite the root system of the tea tree seedling, eventually leading to the death of the tea tree seedling.

Disclosure of Invention

The invention aims to provide a method for improving tea planting soil by mixing an organic fertilizer and a phosphate fertilizer, and sterilizing the organic fertilizer.

The method comprises the following steps:

(1) crushing the organic materials, and then performing composting fermentation and decomposition to obtain decomposed organic fertilizer;

(2) mixing an organic fertilizer and a phosphate fertilizer to obtain a mixed fertilizer, and uniformly applying the mixed fertilizer to soil;

the step (2) is carried out by adopting an organic fertilizer applying device;

the organic fertilizer fertilizing device comprises a traveling mechanism capable of traveling in soil, and a fertilizer spraying mechanism, an organic fertilizer sterilizing mechanism and a phosphate fertilizer box which are arranged on the traveling mechanism; the travelling mechanism comprises a frame and wheels for travelling; the fertilizer injection mechanism comprises a fan, a Venturi tube and an organic fertilizer hopper, wherein a contraction section and a diffusion section are respectively arranged at two ends of the Venturi tube, a throat is arranged in the middle of the Venturi tube, the fan is communicated with the contraction section of the Venturi tube, the lower end of the organic fertilizer hopper is connected with the Venturi tube through a pneumatic control valve, the pneumatic control valve comprises a valve seat and a valve core, two interfaces which are respectively communicated with the organic fertilizer hopper and the throat of the Venturi tube are arranged on the valve seat, a steam port is arranged on the valve core, the pneumatic control valve comprises a reset state and a communication state which can be mutually switched, when the pneumatic control valve is in the reset state, the two interfaces and the steam port are blocked by the valve core, and when the; the organic fertilizer sterilization mechanism comprises a water tank and an electromagnetic heating coil arranged on the periphery of the water tank, the steam port is communicated with the top of the water tank through a steam pipe, and a pneumatic control valve can be switched to a communicated state when the pressure in the water tank is increased; the phosphate fertilizer box is communicated with the throat of the Venturi tube through a pipeline;

the step (2) comprises the following steps:

(a) crushing an organic fertilizer and putting the organic fertilizer into an organic fertilizer hopper, crushing a phosphate fertilizer into powder and putting the powder into a phosphate fertilizer tank, putting water with the volume of 1/3-1/2 of the volume of a water tank into the water tank, and sealing the water tank;

(b) connecting the electromagnetic heating coil with a power supply, and turning on a fan after water in the water tank is boiled;

(c) the driving walking mechanism walks at the speed of 8-10 m/min.

Fertilizer injection unit's theory of operation in this scheme:

in the step (b), the electromagnetic heating coil is turned on, so that the water in the water tank can be heated through the electromagnetic heating coil, the water tank is sealed, and when the pneumatic control valve is in a reset state, the steam port is not communicated with the outside, so that the steam in the water tank is gathered at the upper part of the water tank, and the pressure in the water tank is increased. After the fan is turned on, flowing air flow is formed in the venturi tube, and when the air flow flows through the throat, the flow speed is accelerated, so that the pressure at the throat is low, and the phosphate fertilizer powder in the phosphate fertilizer box is sucked into the venturi tube.

Along with the pressure in the water tank gradually increases, the pneumatic control valve is switched to a communicated state from a reset state, the two connectors of the pneumatic control valve and the steam port are communicated, organic fertilizer in the organic fertilizer hopper enters the Venturi tube through the pneumatic control valve, and in addition, because the pressure at the throat of the Venturi tube is lower than the external pressure, water vapor also enters the Venturi tube after being discharged from the steam port. The steam and the organic fertilizer are mixed in the pneumatic control valve, and the steam has high temperature, so that the organic fertilizer is sterilized. The water vapor flows into the Venturi tube, so that the water vapor is prevented from entering the organic fertilizer hopper and being condensed on the organic fertilizer; when the water vapor is condensed on the organic fertilizer, the water content of the organic fertilizer is increased, and the organic fertilizer is agglomerated in the long-time accumulation process; and steam flows in the venturi tube in the scheme, so that organic fertilizer agglomeration caused by accumulated water in the organic fertilizer hopper can be avoided.

When the water vapor in the water tank is discharged through the vapor port, the pressure in the water tank is reduced, the pneumatic control valve is switched to the reset state until the pressure in the water tank is increased again, and the pneumatic control valve is switched to the communication state, so that the pneumatic control valve is repeatedly switched between the reset state and the communication state. When the fertilization, the proportion of fertilizer and phosphorus fertilizer weight must be about 8 than 1, the volume of required fertilizer is big far away with the volume of phosphorus fertilizer promptly, consequently in fertilizer injection unit, the fertilizer is when being in the connected state through gas accuse valve, directly sends into in the venturi under the action of gravity of fertilizer self. Because the fertilizer granule is great, and has certain viscidity, in order to guarantee that the fertilizer can fall into venturi smoothly, the interface bore of gas accuse valve should not the undersize, therefore the fertilizer gets into venturi's flow great, and the gas accuse valve clearance open can make the fertilizer clearance get into venturi in, avoid sending into of fertilizer to measure excessively.

After the organic fertilizer and the phosphate fertilizer enter the Venturi tube, the organic fertilizer and the phosphate fertilizer are mixed with each other under the influence of airflow and are sprayed out from the diffusion section of the Venturi tube to be diffused to the periphery, so that the organic fertilizer and the phosphate fertilizer are paved on the surface of soil. In the step (a), the phosphate fertilizer is crushed into powder, so that a Venturi tube can suck the phosphate fertilizer conveniently. In the step (c), the walking speed of the walking mechanism is controlled to be 8-10m/min, and the thickness of the organic fertilizer and the phosphate fertilizer can be controlled within a reasonable range.

The beneficial effect of this scheme:

the tea tree seedling root rot and larva gnawing root systems are reduced by arranging the water tank and heating water in the water tank to form high-heat steam and increase pressure in the water tank, wherein the pressure in the water tank can be repeatedly switched to the pneumatic control valve, and meanwhile, the high-heat steam enters the pneumatic control valve to sterilize organic fertilizers; and the amount of the organic fertilizer entering the Venturi tube can be controlled by repeatedly switching the pneumatic control valve, so that the phosphate fertilizer and the organic fertilizer are reasonably matched.

(II) venturi can also make vapour flow to venturi, when vapour was disinfected the fertilizer, can avoid in vapour got into the organic fertilizer hopper, made the fertilizer water content increase, led to the problem of fertilizer agglomeration.

The first preferred scheme is as follows: as a further optimization of the basic scheme, in the step (a), the weight ratio of the organic fertilizer to the phosphate fertilizer is 8: 1. because the ratio control of fertilizer and phosphorus fertilizer is at 8 to 1 the best to the improvement effect of soil, consequently also control the ratio of fertilizer and phosphorus fertilizer that fertilizer injection unit spun at 8 to 1 usually, then the weight ratio of fertilizer and phosphorus fertilizer of packing into is 8 to 1, can avoid after accomplishing the fertilization, organic fertilizer hopper and phosphorus fertilizer incasement remain remaining.

The preferred scheme II is as follows: as a further optimization of the first preferred embodiment, before the step (2) is performed, the soil is ploughed to ensure that the soil is soft, so that organic fertilizers and phosphate fertilizers can be mixed into the soil.

The preferable scheme is three: as a further optimization of the second preferred embodiment, the steam pipe is spirally wound on the periphery of the organic fertilizer hopper, so that heat can be transferred to the organic fertilizer hopper through the steam pipe, and the organic fertilizer in the organic fertilizer hopper can be preliminarily sterilized.

The preferable scheme is four: as the further optimization to preferred scheme three, be equipped with the agitator in the organic fertilizer hopper, stir the fertilizer through setting up the agitator, can guarantee that the fertilizer is soft to be favorable to the fertilizer to get into in the venturi.

The preferable scheme is five: as a further optimization of the preferable scheme four, the step (b) further comprises starting the stirrer, and controlling the rotating speed of the stirrer to be 50-60 r/min; avoid the effect of the centrifugal force that the fertilizer received too big, paste on the lateral wall of organic fertilizer fill under the effect of centrifugal force, and can't get into in the venturi.

Drawings

Fig. 1 is a schematic structural diagram of an organic fertilizer application device adopted in the embodiment of the invention;

fig. 2 is a schematic structural diagram of a pneumatic control valve in the organic fertilizer application device adopted in the embodiment of the invention.

Detailed Description

The following is further detailed by the specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a frame 10, a venturi tube 20, a phosphate fertilizer box 30, an organic fertilizer hopper 4, a stirrer 41, a steam pipe 42, an air control valve 50, a valve seat 51, a valve core 52, a connector 53, a steam port 54, a return spring 55, a wedge 56 and a fan 60.

The method for improving the tea planting soil comprises the following steps:

(2) ploughing the soil, mixing the organic fertilizer and the phosphate fertilizer to obtain a mixed fertilizer, and uniformly applying the mixed fertilizer to the soil.

Wherein the mixed organic fertilizer and phosphate fertilizer in step (2) to the step of fertilizeing to soil adopts an organic fertilizer injection unit to carry out.

As shown in fig. 1 and 2, the organic fertilizer fertilizing apparatus includes a traveling mechanism, and a fertilizer spraying mechanism, an organic fertilizer sterilizing mechanism and a phosphate fertilizer tank 30 which are arranged on the traveling mechanism. The running mechanism comprises a frame 10 and wheels, and is provided with a diesel engine for driving the wheels to rotate so as to enable the running mechanism to run in the soil. The fertilizer injection mechanism comprises a fan 60, a Venturi tube 20 and an organic fertilizer hopper 4, wherein a contraction section and a diffusion section are respectively arranged at two ends of the Venturi tube 20, a throat is arranged in the middle of the Venturi tube 20, and the fan 60 is communicated with the contraction section of the Venturi tube 20; after the fan 60 is started, fluid is formed in the venturi tube 20, and since the sectional area of the throat in the middle of the venturi tube 20 is smaller than the sectional areas of the two ends, the flow velocity of the fluid is increased when the fluid passes through the throat, so that the pressure at the throat is lower.

A stirrer 41 is arranged in the organic fertilizer hopper 4 to stir the organic fertilizer, so that the organic fertilizer in the organic fertilizer hopper 4 is ensured to be soft. The lower end of the organic fertilizer hopper 4 is connected with the venturi tube 20 through an air control valve 50, the air control valve 50 comprises a valve seat 51 and a valve core 52, a cavity is arranged on the valve seat 51, the valve core 52 is arranged in the cavity, and the valve core 52 can slide in the cavity. The valve seat 51 is provided with two interfaces 53 which are respectively communicated with the organic fertilizer hopper 4 and the throat of the Venturi tube 20, the two interfaces 53 are arranged along the vertical direction, and the side wall of the interface 53 positioned below is provided with a wedge 56; the spool 52 is provided with a steam port 54, and the spool 52 is slid so that one end of the steam port faces the wedge port 56, thereby communicating the steam port with the port 53. The pneumatic control valve 50 can be switched between a reset state and a communication state by sliding the spool 52; when the pneumatic control valve 50 is in a reset state, the two ports 53 and the steam port 54 are blocked by the valve core 52, and the two ports 53 and the steam port 54 are not communicated with each other; when the pneumatic control valve 50 is in a communication state, the two ports 53 and the steam port 54 are communicated, and the wedge port 56 is arranged, so that the steam port can be communicated with the ports 53 only in a state that the two ports 53 are completely communicated, and the pneumatic control valve 50 can be ensured to be in a maximum opening state. The organic fertilizer sterilization mechanism comprises a water tank and an electromagnetic heating coil arranged on the periphery of the water tank, a steam port 54 is communicated with the top of the water tank through a steam pipe 42, and the steam pipe 42 is spirally wound on the periphery of the organic fertilizer hopper 4. The water in the water tank is heated by the electromagnetic heating coil and sealed, the pressure in the water tank is increased after the water is boiled, the valve core 52 can be moved by increasing the pressure in the water tank, and the pneumatic control valve 50 is switched to a communication state. A return spring 55 which is abutted against the valve core 52 is arranged in the cavity of the valve seat 51 of the pneumatic control valve 50, and when the pressure in the water tank is reduced, the valve core 52 is reset under the action of the return spring 55, and then the pneumatic control valve 50 is switched to a reset state. The phosphate fertilizer box 30 is communicated with the throat of the venturi tube 20 through a pipeline, and when fluid passes through the venturi tube 20, the pressure at the throat is low, so that phosphate fertilizer in the phosphate fertilizer box 30 can be sucked into the venturi tube 20.

The step (2) comprises the following steps:

(a) smashing an organic fertilizer and putting the smashed organic fertilizer into an organic fertilizer hopper 4, crushing a phosphate fertilizer into powder and putting the powder into a phosphate fertilizer box 30, wherein the weight ratio of the organic fertilizer to the phosphate fertilizer is 8: 1, filling water with the volume of 1/2 in the water tank, and sealing the water tank;

(b) starting the stirrer 41, and controlling the rotating speed of the stirrer 41 at 60 r/min; connecting the electromagnetic heating coil with a power supply, and turning on the fan 60 after the water in the water tank is boiled;

(c) the driving travelling mechanism travels at a speed of 9 m/min.

The concrete working process of fertilizer injection unit does:

when the air control valve 50 is in a reset state, the steam port 54 is not communicated with the outside, and the pressure in the water tank is increased after the water in the water tank is boiled. As the pressure in the water tank is gradually increased, the air control valve 50 is switched to a communication state from a reset state, the two ports 53 and the steam port 54 of the air control valve 50 are communicated, organic fertilizer in the organic fertilizer hopper 4 enters the Venturi tube 20 through the air control valve 50, and water vapor enters the Venturi tube 20 after being discharged from the steam port 54 due to the fact that the pressure at the throat of the Venturi tube 20 is lower than the external pressure. The steam and the organic fertilizer are mixed in the pneumatic control valve 50, and the organic fertilizer can be sterilized through the high temperature of the steam; the steam pipe 42 is spirally wound on the periphery of the organic fertilizer hopper 4, heat can be transferred to the organic fertilizer hopper 4 through the steam pipe 42, the organic fertilizer in the organic fertilizer hopper 4 can be preliminarily sterilized, and the organic fertilizer in the organic fertilizer hopper 4 can be in a flowing state under the stirring state of the stirrer 41, so that most of the organic fertilizer can be in contact with the side wall of the organic fertilizer hopper 4, and the sterilization probability of preliminary sterilization is enhanced.

After the water vapor in the water tank is discharged through the vapor port 54, the pressure in the water tank is reduced, the air control valve 50 is switched to the reset state until the pressure in the water tank is increased again, the air control valve 50 is switched to the communication state again, and the air control valve 50 is repeatedly switched between the reset state and the communication state. When the fertilizer is applied, the ratio of the weight of the organic fertilizer to the weight of the phosphate fertilizer is 8: 1, and the fertilizer has the best improvement effect on soil. Because the amount of the required organic fertilizer is far larger than that of the phosphate fertilizer, the organic fertilizer cannot be sucked through the negative pressure formed at the throat of the venturi tube 20. Because the organic fertilizer particles are large and have certain viscosity, the organic fertilizer is smoothly fed into the venturi tube 20; the caliber of the interface 53 on the pneumatic control valve 50 is large, and when the pneumatic control valve 50 is in a communicating state, the organic fertilizer directly falls into the venturi tube 20 under the action of the gravity of the organic fertilizer. And the intermittent opening of the pneumatic control valve 50 can make the organic fertilizer enter the venturi tube 20 intermittently, so that the excessive feeding amount of the organic fertilizer is avoided. While the organic fertilizer is continuously fed into the venturi tube 20, the stirrer 41 stirs the organic fertilizer at a rotating speed of 60r/min to ensure that the organic fertilizer is soft, so that the organic fertilizer can conveniently enter the venturi tube 20; in addition, the rotating speed of the stirrer 41 is controlled, and organic fertilizer can be prevented from being attached to the side wall of the organic fertilizer hopper 4 under the action of centrifugal force and being incapable of entering the venturi tube 20.

After entering the venturi tube 20, the organic fertilizer and the phosphate fertilizer are mixed with each other under the influence of the airflow, and are sprayed out from the diffusion section of the venturi tube 20 to be diffused to the surroundings, so as to be paved on the soil surface.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The method for improving the tea planting soil comprises the following steps:

the method is characterized in that: the step (2) is carried out by adopting an organic fertilizer applying device;

the step (2) comprises the following steps:

(c) the driving walking mechanism walks at the speed of 8-10 m/min.

2. The method for improving tea planting soil according to claim 1, wherein: in the step (a), the weight ratio of the organic fertilizer to the phosphate fertilizer is 8: 1.

3. the method for improving tea planting soil according to claim 2, wherein: before the step (2) is executed, ploughing the soil.

4. The method for improving tea planting soil according to claim 3, wherein: the steam pipe is spirally wound on the periphery of the organic fertilizer hopper.

5. The method for improving tea planting soil according to claim 4, wherein: and a stirrer is arranged in the organic fertilizer hopper.

6. The method for improving tea planting soil according to claim 5, wherein: the step (b) also comprises starting the stirrer, and controlling the rotating speed of the stirrer to be 50-60 r/min.