CN117530002A - Deep soil fertilizer injection unit based on close planting jujube garden - Google Patents

Abstract

The invention relates to the technical field of close planting jujube garden fertilization, in particular to a deep soil fertilization device based on a close planting jujube garden. In the prior art, the root system of the jujube tree can be damaged in the fertilization process. The technical proposal is as follows: a deep soil fertilization device based on a close planting jujube garden comprises a handle I and a rotating shaft; the handle is rotatably connected with a rotating shaft; the first handle is provided with a driving motor, and an output shaft of the driving motor is fixedly connected with the rotating shaft; the device also comprises a shaft sleeve, a connecting sleeve and the like; the shaft sleeve is fixedly connected with the rotating shaft; the shaft sleeve is rotationally connected with a connecting sleeve. According to the invention, a vertical inclined drilling mode is adopted, damage to root systems is reduced, soil is loosened gradually through the cooperation of the conveying belt and the disc of the loose soil block in the drilling process, fertilizer application is facilitated, the fertilizer can be uniformly applied into a soil layer with thirty centimeters, all root systems can be absorbed into the fertilizer, and the problem of over-shallow distribution of the root systems is solved.

Description

Deep soil fertilizer injection unit based on close planting jujube garden

Technical Field

The invention relates to the technical field of close planting jujube garden fertilization, in particular to a deep soil fertilization device based on a close planting jujube garden.

Background

The fertilization is an important measure for realizing high yield, stable yield, low cost and environmental protection, and the fertilization due to soil and the quantification in a visible way are needed; when the winter jujube garden is closed, the organic fertilizer is difficult to apply, most of the fertilizer is firstly spread on the ground surface in the traditional fertilization mode, and is mixed in the soil by manual scarification, however, the traditional mode cannot be used for deep application, so that the root distribution layer is too shallow, the drought resistance and waterlogging resistance are reduced, the jujube tree grows poorly, the quality is reduced, and the benefit is reduced.

In the prior art, in order to ensure that the aim of fertilizing deep soil can be fulfilled, a fertilizing pipeline is generally vertically inserted into the deep soil so as to perform fertilizing operation; however, the root system distribution condition of the jujube tree is generally conical, if the fertilization pipeline is vertically inserted into deep soil for fertilization, the root system of the jujube tree is damaged in the process of inserting the fertilization pipeline, poor growth of the jujube tree is caused, the quality is reduced, and the benefit is reduced.

Disclosure of Invention

In order to overcome the problems mentioned in the background, the invention provides a deep soil fertilization device based on a close planting jujube garden.

The technical proposal is as follows: a deep soil fertilization device based on a close planting jujube garden comprises a handle I and a rotating shaft; the handle is rotatably connected with a rotating shaft; the first handle is provided with a driving motor, and an output shaft of the driving motor is fixedly connected with the rotating shaft; the fertilizer distributor also comprises a shaft sleeve, a connecting sleeve, a long rod, a connecting rod, a first belt, a conveying belt, loose soil blocks and a fertilizer application mechanism; the shaft sleeve is fixedly connected with the rotating shaft; the shaft sleeve is rotationally connected with a connecting sleeve; the connecting sleeve is fixedly connected with a long rod; the long rod is fixedly connected with a connecting rod; the connecting rod is provided with a plurality of driving wheels; the shaft sleeve and the driving wheel of the connecting rod are connected with a plurality of symmetrically distributed first belts in a common transmission way; the shaft sleeve and the connecting rod are connected with a conveyer belt in a common transmission way, and the conveyer belt is connected with a first belt; the surface of the loose soil block is provided with a plurality of loose soil blocks; the length of the long rod is slightly longer than that of the conveying belt; the right side of the first handle is provided with a fertilizing mechanism for fertilizing, and the fertilizing mechanism is connected with the long rod.

Further, the first handle is provided with a multi-section telescopic structure.

Further, the connecting rod is of a V-shaped structure.

Further, the device also comprises a connecting plate; the long rod is fixedly connected with a plurality of symmetrically distributed connecting plates, and the connecting plates are positioned in the conveyer belt.

Further, the device also comprises a baffle plate; the connecting plate and the connecting rod are fixedly connected with a plurality of baffle plates which are symmetrically distributed, and the baffle plates are rotationally connected with the shaft sleeve; the opposite surfaces of the baffle plates which are symmetrically distributed are arranged into a cone shape.

Further, the automatic feeding device also comprises an auxiliary conveying mechanism, wherein the auxiliary conveying mechanism comprises a rotating rod, a first driving wheel, a second driving wheel, a third driving wheel and a second belt; the long rod and the connecting rod are connected with a plurality of rotating rods which are symmetrically distributed in a rotating way; each rotating rod is fixedly connected with a driving wheel I, and the driving wheel I is in contact connection with a belt I on the corresponding side; each rotating rod is fixedly connected with a plurality of driving wheels II; the connecting rod is rotationally connected with a plurality of driving wheels III, and each two symmetrically distributed driving wheels III are in a group; and each group of driving wheels III is connected with a belt II in a common transmission manner with a driving wheel II on the corresponding side respectively, and the belt II is in contact connection with the conveyor belt.

Further, the fertilizing mechanism comprises a cone-shaped cylinder, a second handle, connecting cloth and a fertilizing pipe; a conical cylinder is arranged behind the first handle; the taper cylinder is fixedly connected with a second handle; a baffle plate positioned at the rear of the conveyor belt is provided with a through groove; a connecting cloth is wound in the conical cylinder, and the other end of the connecting cloth passes through the through groove and is connected with the long rod; the connecting cloth is provided with a plurality of fertilizing pipes distributed in a longitudinal array; each fertilization tube is provided with a plurality of fertilization holes.

Further, the utility model also comprises ribs; the connecting cloth is provided with a plurality of ribs distributed in a transverse array.

Further, each rib is provided with a plurality of notches.

Further, the through groove is provided with a plurality of bristles.

The invention has the beneficial effects that: according to the invention, a vertical inclined drilling mode is adopted, damage to root systems is reduced, soil is loosened gradually through the cooperation of the conveying belt and the disc of the loose soil block in the drilling process, fertilizer application is facilitated, the fertilizer can be uniformly applied into a soil layer with thirty centimeters, all root systems can be absorbed into the fertilizer, and the problem of over-shallow distribution of the root systems is solved.

The invention carries out auxiliary operation on the end part of the conveyor belt through the second belt, reduces the pressure born by the end part of the conveyor belt, thereby reducing drilling obstruction and improving drilling and fertilization efficiency.

According to the invention, the tight connecting cloth is used for supporting the soil at the upper part of the connecting cloth, so that the problem that the fertilizing holes are blocked due to the fact that the fertilizing pipes at the lower part of the connecting cloth are pressed by the soil to be close to the soil facing the fertilizing holes is avoided.

According to the invention, the framework is formed on the connecting cloth through the ribs, so that the support is provided for the connecting cloth, the bearing capacity of the connecting cloth is further improved, and the connecting cloth is prevented from sinking downwards after being extruded by soil.

When the rib follows the connecting cloth and moves, the soil on the upper portion of the connecting cloth can move towards the conical cylinder through the notch, so that the rib is prevented from pushing the soil to move, a large amount of soil is accumulated on the upper portion of the connecting cloth, and the connecting cloth bears larger pressure.

Drawings

FIG. 1 is a schematic view of a first embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a second embodiment of the present disclosure;

FIG. 3 is a cross-sectional view of the structure of the conveyor belt of the present disclosure;

FIG. 4 is a schematic structural view of a connection board according to the present disclosure;

FIG. 5 is a cross-sectional view of the cone-shaped cartridge of the present disclosure;

FIG. 6 is a schematic view showing a combined structure of a rotating shaft, a shaft sleeve, a connecting sleeve and a long rod according to the present invention;

FIG. 7 is a schematic view of a belt II according to the present disclosure;

FIG. 8 is a schematic diagram of an auxiliary conveyor mechanism according to the present disclosure;

FIG. 9 is a schematic view of a rib structure according to the present disclosure;

fig. 10 is a schematic structural view of the fertilizer applying mechanism disclosed in the present invention.

Reference numerals: 1-handle I, 2-rotating shaft, 3-shaft sleeve, 4-connecting sleeve, 5-long rod, 6-connecting rod, 7-belt I, 8-conveyer belt, 81-loose soil block, 9-connecting plate, 10-rotating rod, 11-driving wheel I, 12-driving wheel II, 13-driving wheel III, 14-belt II, 101-baffle, 201-cone drum, 202-handle II, 203-connecting cloth, 204-fertilization tube, 301-rib, 001-trunk, 002-root system, 101 a-through groove, 204 a-fertilization hole and 301 a-notch.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

A deep soil fertilization device based on densely planted jujube orchard, as shown in figures 1-10, comprises a handle 1 and a rotating shaft 2; the first handle 1 is rotationally connected with a rotating shaft 2; the handle 1 is provided with a driving motor, and an output shaft of the driving motor is fixedly connected with the rotating shaft 2;

the device also comprises a shaft sleeve 3, a connecting sleeve 4, a long rod 5, a connecting rod 6, a first belt 7, a conveyor belt 8, a soil loosening block 81 and a fertilizing mechanism; the rotating shaft 2 is fixedly connected with a shaft sleeve 3; the shaft sleeve 3 is rotationally connected with a connecting sleeve 4; the connecting sleeve 4 is fixedly connected with a long rod 5; the long rod 5 is fixedly connected with a connecting rod 6; the connecting rod 6 is provided with two driving wheels; the shaft sleeve 3 and the driving wheel of the connecting rod 6 are connected with two symmetrically distributed belts I7 in a common transmission way; the shaft sleeve 3 and the connecting rod 6 are connected with a conveyer belt 8 in a common transmission way, and the conveyer belt 8 is connected with a first belt 7; the surface of the loose soil block 81 is provided with a plurality of loose soil blocks 81; the length of the long rod 5 is slightly longer than that of the conveyer belt 8, so that the conveyer belt 8 is in a tight state; a fertilizer application mechanism is arranged on the right side of the handle I1 and is connected with a long rod 5.

The first handle 1 is provided with a plurality of sections of telescopic structures, and when the soil loosening work is carried out, the first handle 1 is stretched, so that the length of the first handle 1 is increased, the holding part is increased, a labor-saving mechanism is formed, and the physical strength is saved.

The connecting rod 6 is V-shaped structure for the tip of conveyer belt 8 is "V" style of calligraphy, promotes and creeps into the effect.

Also comprises a connecting plate 9; the stock 5 rigid coupling has two connecting plates 9 that are symmetrical distribution, and connecting plate 9 is located the inside of conveyer belt 8, promotes the support to conveyer belt 8 through connecting plate 9, when conveyer belt 8 drills, avoids conveyer belt 8 to receive the soil layer extrusion.

Also included is a baffle 101; the connecting plate 9 and the connecting rod 6 are fixedly connected with two baffle plates 101 which are symmetrically distributed, and the baffle plates 101 are rotationally connected with the shaft sleeve 3; the opposite surfaces of the baffle plates 101 which are symmetrically distributed are tapered.

The invention works as follows:

firstly, as shown in fig. 1, an operator holds the first handle 1, firstly, the end part of the conveyor belt 8 is contacted with the ground, and then the first handle 1 and the connecting part thereof are in an inclined state with the ground, so that the inclined planes of the first handle 1 and the connecting part thereof and the root system 002 tend to be parallel and slightly far away from the root system 002, and the damage to the root system 002 caused by the subsequent first handle 1 and the connecting part thereof during drilling is avoided;

taking the view angle of fig. 2 as a reference, then, starting a driving motor, driving a rotating shaft 2 and a shaft sleeve 3 to rotate anticlockwise from left to right through an output shaft of the driving motor, so that the shaft sleeve 3 drives a first belt 7, a conveying belt 8 and a soil loosening block 81 on the conveying belt 8 to rotate anticlockwise from front to back, and simultaneously, holding the first handle 1 by an operator and pressing the end part of the conveying belt 8 to the ground, so that soil is scraped through the continuously-running conveying belt 8 and the soil loosening block 81, and part of the soil is conveyed upwards through the conveying belt 8, so that the soil layer is loosened due to the missing part of the soil; subsequently, continuous drilling of the conveyor belt 8 and the soil loosening block 81 is controlled until the end of the conveyor belt 8 is deep into the thirty cm of soil, i.e. the end is deep into the soil; at this time, the operator controls the handle 1 and the connecting part thereof to rotate clockwise by taking the trunk 001 as a center point and turning from the top down to the bottom to change the initial vertical inclined drilling into the transverse drilling, so that the handle 1 and the connecting part thereof move in an annular track, during the moving process, the soil is broken through the conical side surface of the baffle 101, the soil moves to the area where the conveyor belt 8 is positioned along the side surface of the baffle 101, and the soil is conveyed upwards through the conveyor belt 8, so that the transverse drilling is realized; meanwhile, fertilize through fertilizer application mechanism to soil, make fertilizer can be after penetrating loose soil with root system 002 contact, provide the nutrient for root system 002, so, adopt vertical slope to creep into the mode, reduce the damage that causes root system 002, and in the creep into the in-process, make soil become loose gradually through the cooperation of conveyer belt 8 and loose soil 81, be favorable to the application of fertilizer, make in the soil layer that fertilizer can be even to apply thirty centimetres, realize that all root system 002 can absorb fertilizer, solve root system 002 and distribute the shallow difficult problem, after the fertilization finishes, again with handle 1 and adapting unit and fertilizing mechanism pull out from loose soil can.

It should be noted that, because the length of the long rod 5 is slightly greater than the length of the conveyer belt 8, the conveyer belt 8 is always in a tight state when running, so that the conveyer belt 8 is prevented from being stretched again in the process of loosening the soil, and the soil loosening effect is prevented from being affected.

It should be noted that, because the V-shaped rod is in a V-shaped structure, the end part of the conveyor belt 8 is also in a V shape, thus improving the drilling effect and reducing the drilling resistance.

It should be noted that the connecting plate 9 is arranged inside the conveyer belt 8, the conveyer belt 8 is supported by lifting through the connecting plate 9, and the conveyer belt 8 is prevented from being deformed due to extrusion of soil layers when the conveyer belt 8 drills.

Example 2

On the basis of the embodiment 1, as shown in fig. 7-8, the auxiliary conveying mechanism is further included, and the auxiliary conveying mechanism comprises a rotating rod 10, a first driving wheel 11, a second driving wheel 12, a third driving wheel 13 and a second belt 14; the long rod 5 and the connecting rod 6 are connected with two rotating rods 10 which are symmetrically distributed in a rotation way; each rotating rod 10 is fixedly connected with a driving wheel I11, and the driving wheel I11 is in contact connection with a belt I7 on the corresponding side; each rotating rod 10 is fixedly connected with at least two driving wheels II 12; the connecting rod 6 is rotationally connected with a plurality of driving wheels III 13, and each two symmetrically distributed driving wheels III 13 are a group; and each group of driving wheels III 13 is connected with a belt II 14 in a common transmission way with a driving wheel II 12 on the corresponding side, and the belt II 14 is in contact connection with the conveyor belt 8.

The invention works as follows:

in the drilling process of the conveyer belt 8, as the end part of the conveyer belt 8 is always positioned in a soil layer and is continuously extruded by soil, the greater the pressure the end part of the conveyer belt 8 is subjected to, the greater the obstruction is, and the drilling and fertilization efficiency is affected;

therefore, when the conveyer belt 8 runs, the conveyer belt 8 drives the first driving wheel 11 to rotate, so that the first driving wheel 11 drives the rotating rod 10 and the second driving wheel 12 to rotate, and the second driving wheel 12 drives the second belt 14 and the third driving wheel 13 to run, so that the second belt 14 runs synchronously while the conveyer belt 8 runs, and the end part of the conveyer belt 8 can be assisted by the second belt 14, so that the pressure on the end part of the conveyer belt 8 is reduced, drilling obstruction is reduced, and drilling and fertilization efficiency is improved.

Example 3

On the basis of the embodiment 2, as shown in fig. 1-5 and 9-10, the fertilization mechanism comprises a cone 201, a handle two 202, a connecting cloth 203 and a fertilization tube 204; based on the view angle of fig. 2, a cone-shaped cylinder 201 is arranged behind the first handle 1; the conical barrel 201 is connected with a second handle 202 through bolts; a baffle 101 positioned at the rear of the conveyor belt 8 is provided with a through groove 101a; a connecting cloth 203 is wound in the conical barrel 201, and the other end of the connecting cloth 203 passes through the through groove 101a to be connected with the long rod 5; the connecting cloth 203 is provided with a plurality of fertilizing pipes 204 distributed in a longitudinal array; each fertilization tube 204 is provided with a plurality of fertilization holes 204a.

Also comprises ribs 301; the upper surface of the connecting cloth 203 is provided with a plurality of ribs 301 distributed in a transverse array.

Each rib 301 is provided with a plurality of notches 301a.

The through groove 101a is provided with a plurality of bristles by which soil is caught, preventing soil from entering the inner space of the baffle plate 101 and the conveyor belt 8 from the gap between the connection cloth 203 and the through groove 101 a.

The invention works as follows:

communicating the fertilization tube 204 with a fertilizer water delivery device;

during the drilling of the conveyor belt 8, the cone 201 is held by an operator and is inserted into the soil layer in synchronization with the conveyor belt 8; therefore, when the handle 1 and the connecting part thereof transversely drills, the long rod 5 drives the connecting cloth 203 to move together, the conical barrel 201 keeps the position unchanged, so that the connecting cloth 203 is unfolded, after the handle 1 and the connecting part thereof rotate for a circle, the unfolded connecting cloth 203 forms a conical cover on the outer side of the root system 002, at the moment, the fertilizer water conveying equipment is controlled to spray fertilizer water to the area covered by the connecting cloth 203 sequentially through the fertilizer pipe 204 and the fertilizer hole 204a, so that the fertilizer application work is completed, the fertilizer is uniformly applied into the soil layer with thirty centimeters, the fertilizer can be absorbed by all the root systems 002, and the problem that the distribution of the root system 002 is too shallow is solved.

However, during the spreading process of the connection cloth 203, the upper portion of the connection cloth 203 is squeezed by a large amount of soil and is recessed downward, so that the fertilization tube 204 and the fertilization holes 204a at the lower portion of the connection cloth 203 are squeezed by the upper portion of the soil and are close to the lower portion of the soil, and thus the fertilization holes 204a are blocked by the soil, and normal fertilization work is affected;

therefore, in the fertilization process, the connecting cloth 203 is unfolded by stretching the long rod 5, the connecting cloth 203 is in a stretched state at all times, and the tight connecting cloth 203 is used for supporting the soil on the upper part of the connecting cloth 203, so that the problem that the fertilization holes 204a are blocked due to the fact that the fertilization pipe 204 on the lower part of the connecting cloth 203 is pressed by the soil to be close to the soil facing the fertilization holes 204a is avoided.

In the above process, the connection cloth 203 in a tight state can support a small part of loose soil, and when a large amount of loose soil exists on the upper part of the connection cloth 203, the connection cloth is still extruded by the soil and is sunken downwards;

therefore, the ribs 301 form a skeleton on the connecting cloth 203 to support the connecting cloth 203, so that the bearing capacity of the connecting cloth 203 is further improved, and the connecting cloth 203 is prevented from sinking downwards after being extruded by soil.

It should be noted that, when the ribs 301 move along with the connection cloth 203, the soil on the upper portion of the connection cloth 203 will move towards the cone 201 through the gaps 301a, so as to avoid that the ribs 301 push the soil to move, resulting in a large amount of soil being accumulated on the upper portion of the connection cloth 203, so that the connection cloth 203 bears a larger pressure.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted equally without departing from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. A deep soil fertilization device based on a close planting jujube garden comprises a handle I (1) and a rotating shaft (2); the first handle (1) is rotationally connected with a rotating shaft (2); the first handle (1) is provided with a driving motor, and an output shaft of the driving motor is fixedly connected with the rotating shaft (2); the fertilizer distributor is characterized by further comprising a shaft sleeve (3), a connecting sleeve (4), a long rod (5), a connecting rod (6), a first belt (7), a conveyer belt (8), a soil loosening block (81) and a fertilizer application mechanism; the rotating shaft (2) is fixedly connected with a shaft sleeve (3); the shaft sleeve (3) is rotationally connected with a connecting sleeve (4); a long rod (5) is fixedly connected with the connecting sleeve (4); the long rod (5) is fixedly connected with a connecting rod (6); the connecting rod (6) is provided with a plurality of driving wheels; the shaft sleeve (3) and the driving wheel of the connecting rod (6) are connected with a plurality of symmetrically distributed belts I (7) in a common transmission way; the shaft sleeve (3) and the connecting rod (6) are connected with a conveyer belt (8) in a common transmission way, and the conveyer belt (8) is connected with a first belt (7); the surface of the loose soil block (81) is provided with a plurality of loose soil blocks (81); the length of the long rod (5) is slightly longer than that of the conveyer belt (8); the right side of the handle I (1) is provided with a fertilizing mechanism for fertilizing, and the fertilizing mechanism is connected with a long rod (5).

2. The deep soil fertilization device based on the densely planted jujube orchard according to claim 1, wherein the first handle (1) is of a multi-section telescopic structure.

3. The deep soil fertilization device based on the close planting jujube orchard according to claim 1, wherein the connecting rod (6) is of a V-shaped structure.

4. The deep soil fertilization device based on the close planting jujube orchard according to any one of claims 1-3, further comprising a connecting plate (9); the long rod (5) is fixedly connected with a plurality of symmetrically distributed connecting plates (9), and the connecting plates (9) are positioned in the conveying belt (8).

5. The deep soil fertilization device based on the close-planted jujube orchard according to claim 4, further comprising a baffle plate (101); the connecting plate (9) and the connecting rod (6) are fixedly connected with a plurality of baffle plates (101) which are symmetrically distributed, and the baffle plates (101) are rotationally connected with the shaft sleeve (3); the opposite surfaces of the baffle plates (101) which are symmetrically distributed are arranged into a cone shape.

6. The deep soil fertilization device based on the close planting jujube orchard according to claim 1, further comprising an auxiliary conveying mechanism, wherein the auxiliary conveying mechanism comprises a rotating rod (10), a first driving wheel (11), a second driving wheel (12), a third driving wheel (13) and a second belt (14); the long rod (5) and the connecting rod (6) are connected with a plurality of rotating rods (10) which are symmetrically distributed in a rotating way; each rotating rod (10) is fixedly connected with a driving wheel I (11), and the driving wheel I (11) is in contact connection with a belt I (7) at the corresponding side; each rotating rod (10) is fixedly connected with a plurality of driving wheel two (12); the connecting rod (6) is rotationally connected with a plurality of driving wheel three (13), and each two symmetrically distributed driving wheel three (13) are a group; and each group of driving wheel III (13) is connected with a belt II (14) in a common transmission way with a driving wheel II (12) at the corresponding side, and the belt II (14) is in contact connection with the conveying belt (8).

7. The deep soil fertilization device based on the densely planted jujube orchard according to claim 5, wherein,

the fertilization mechanism comprises a cone-shaped cylinder (201), a second handle (202), a connecting cloth (203) and a fertilization tube (204);

a conical cylinder (201) is arranged behind the first handle (1); the cone-shaped cylinder (201) is fixedly connected with a handle II (202); a baffle (101) positioned at the rear of the conveyor belt (8) is provided with a through groove (101 a); a connecting cloth (203) is wound in the conical cylinder (201), and the other end of the connecting cloth (203) passes through the through groove (101 a) to be connected with the long rod (5); the connecting cloth (203) is provided with a plurality of fertilizing pipes (204) distributed in a longitudinal array;

each fertilization tube (204) is provided with a plurality of fertilization holes (204 a).

8. The deep soil fertilization device based on the close-planted jujube orchard according to claim 7, further comprising ribs (301); the connecting cloth (203) is provided with a plurality of ribs (301) distributed in a transverse array.

9. The deep soil fertilizing apparatus based on a close-planted jujube garden as recited in claim 8, wherein each rib (301) is provided with a plurality of notches (301 a).

10. The deep soil fertilization device based on the densely planted jujube orchard of claim 9, wherein the through groove (101 a) is provided with a plurality of bristles.