CN114747346B - Red pear sapling fertilizer and water management device - Google Patents

Abstract

The invention discloses a fertilizer and water management device for young red pear trees, which comprises: fertilization case, fertilization case includes: the fertilization device comprises a plurality of fertilization channels, a storage box, a telescopic rod, a second fertilization pipe and a first fertilization pipe, wherein the fertilization channels are arranged at the bottom of the fertilization box in a penetrating manner; the storage box is arranged in the fertilizing box, the inner wall of the fertilizing box is provided with a sliding rail, and two ends of the storage box are arranged on the sliding rail in a sliding way; one end of the telescopic rod is connected to the top of the storage box, and the other end of the telescopic rod is arranged on the inner wall of the fertilization box; one end of each second fertilization tube is communicated with the position of the bottom of the storage box corresponding to the fertilization channel through a connection hose; the first fertilization pipes are sleeved on each second fertilization pipe, and the tops of the first fertilization pipes are limited and arranged on the second fertilization pipes.

Description

Red pear sapling fertilizer and water management device

Technical Field

The invention relates to the technical field of fruit tree planting, in particular to a fertilizer and water management device for young red pear trees.

Background

In the growth process of the young red pear trees, the young red pear trees absorb more nitrogen and less potassium and less phosphorus, so that in the growth process of the young red pear trees, fertilizer is applied for multiple times, nitrogen, phosphorus and potassium compound fertilizer is applied for 3-4 times generally, and after the fertilizer application is finished, the fertilizer application position is subjected to water irrigation treatment, so that the utilization rate of the fertilizer is improved.

However, most of the current fertilizing methods for young red pear trees by fruit growers firstly dig a small pit on one side of the young pear tree or ditch on one side of the young pear tree, then fill fertilizer into the young pear tree, and then fill water into the filling position, but in the fertilizing process, the digging and filling actions consume energy and also consume time.

Disclosure of Invention

The invention aims to provide a fertilizer and water management device for young red pears, which aims to solve the problem that the existing fertilizer application devices mostly need pit digging and landfill to apply fertilizer, so that the fertilizer application efficiency is low.

The technical scheme of the invention is as follows:

a red pear sapling fertilizer water management device, comprising: fertilization case still includes: the fertilization channels are arranged at the bottom of the fertilization box in a penetrating manner; the storage box is arranged in the fertilizing box, a sliding rail is arranged on the inner wall of the fertilizing box, and two ends of the storage box are arranged on the sliding rail in a sliding manner; one end of the telescopic rod is connected to the top of the storage box, and the other end of the telescopic rod is arranged on the inner wall of the fertilization box; one end of each second fertilization tube is communicated with the position of the bottom of the storage box corresponding to the fertilization channel through a connection hose; the first fertilization pipes are sleeved with one first fertilization pipe, the top of each first fertilization pipe is limited to be arranged on each second fertilization pipe, each first fertilization pipe comprises a plurality of spreading plates and a first fertilization pipe inner pipe, each first fertilization pipe inner pipe is sleeved with one second fertilization pipe, the circumference of each first fertilization pipe inner pipe is provided with a plurality of spreading plates, each spreading plate is connected with the side face of each first fertilization pipe inner pipe through a rotating shaft, spreading pieces are arranged between the spreading plates close to the bottom positions and the first fertilization pipe inner pipes, and a plurality of through holes are formed in the circumference of each first fertilization pipe inner pipe and each second fertilization pipe.

Further, universal wheels are arranged at positions, close to the bottom, of the side faces of the fertilization box, and handrails are arranged on the side faces of the fertilization box.

Further, the fertilizing box is semi-annular, and an annular groove is formed in one position of the side face of the fertilizing box.

Further, set up the irrigation ring on the face of recess, still include: a water filling port arranged at the top of the irrigation ring; a plurality of irrigation pipes, one ends of which are communicated with the bottom of the irrigation ring; and the irrigation spray head is connected to the other end of the irrigation pipe.

Further, a protective pad is paved on the groove surface of the inner side surface of the groove.

Further, the method further comprises the following steps: the top of the batching box is provided with a feeding pipe, and the batching box is arranged above the storage box; the mixing box is arranged between the storage box and the fertilization box, one end of the mixing box is communicated with the proportioning box, and the other end of the mixing box is communicated with the fertilization box through a communicating pipe.

Further, an oscillator is arranged at the top of each first fertilization tube near the position of the second fertilization tube.

Furthermore, the bottoms of the inner pipe of the first fertilization pipe and the second fertilization pipe are both conical, and the bottoms of the first fertilization pipes formed by splicing a plurality of expansion plates are also conical.

Further, the irrigation spray head is obliquely arranged, and the irrigation direction is inclined to the outer peripheral side of the fertilization box.

Further, the spreading plate is pulled out from the fertilization channel after spreading.

Further, when the red pear sapling fertilizer water management device is used, fertilizer is prepared according to the proportion, the fertilizer is placed into the storage box, the fertilizer box is moved to the side of the red pear sapling to be fertilized, the electric control telescopic rod stretches out, the storage box is controlled to move downwards, namely, the second fertilizer pipe and the first fertilizer pipe are both moved downwards until the second fertilizer pipe and the first fertilizer pipe are inserted into soil, then the electromagnetic valve is controlled to be opened, the matched fertilizer enters the second fertilizer pipe, the spreading plate of the first fertilizer pipe is spread by the spreading piece, the soil on the periphery of the second fertilizer pipe is spread to form a relatively neutral space, at the moment, the fertilizer in the second fertilizer pipe can enter the soil from the through hole, after fertilization, the spreading plate is spread and stored for many times, the soil on the periphery of the second fertilizer pipe becomes loose, and the fertilizer and the soil are fully mixed.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the second fertilization pipe and the first fertilization pipe are arranged, the first fertilization pipe is sleeved on the second fertilization pipe, after the fertilization pipe is controlled by the telescopic rod to be inserted into soil, the spreader plate of the first fertilization pipe is spread, a relatively neutral space is formed at the periphery of the second fertilization pipe, then the second fertilization pipe is vibrated by the oscillator, so that fertilizer in the second fertilization pipe overflows from the position of the through hole, after fertilization is completed, the telescopic rod is controlled to enable the fertilization pipe to be pulled out, and then the soil clamped between the spreader plate and the inner pipe of the first fertilization pipe is vibrated by the oscillator.

2. According to the invention, the fertilizing box is arranged in a ring shape, the groove is formed on one side of the fertilizing box, the fertilizing box is pushed to be close to the sapling, the sapling is positioned in the groove, a plurality of fertilizing pipes are distributed on the circumference of the sapling in a ring-shaped array manner, and are applied to multiple points on the circumference, the sapling can be used as a central shaft for fertilizing, and after one time of fertilizing, the fertilizing box is rotated once again, and then fertilization is carried out once again, so that fertilizing points are more dense, the uniformity of nutrient absorption of the sapling is improved, and the growth quality of the sapling is improved.

3. According to the invention, the inner side surface of the groove is provided with the irrigation ring, the irrigation ring is communicated with the plurality of irrigation spray heads, and the positions of the fertilization pipes just fertilized are irrigated through the irrigation spray heads, so that the utilization rate of fertilizers is more effectively improved.

Drawings

FIG. 1 is a front view of a schematic diagram of the external structure of the present invention;

FIG. 2 is a front view of a schematic of the internal structure of the present invention;

FIG. 3 is a top view of a schematic of the external structure of the present invention;

FIG. 4 is an enlarged view of the schematic view of the area A in FIG. 2;

FIG. 5 is an enlarged view of the schematic view of the area B in FIG. 2;

FIG. 6 is an enlarged view of the schematic view of the structure of the C portion area in FIG. 2;

FIG. 7 is a top view showing the positional relationship between a first fertilizer tube and a second fertilizer tube in the present invention.

The device comprises a fertilizing box (1), a universal wheel (11), a 12, an armrest (13), a fertilizing channel (14), a groove (141), a protection pad (2), a proportioning box (21), a mixing box (22), a communicating pipe (23), a feeding pipe (3), a storage box (4), a sliding rail (41), a telescopic rod (5), a first fertilizing pipe (51), a spreading plate (52), a first fertilizing pipe inner pipe (6), a second fertilizing pipe (61), a connecting hose (62), an oscillator (7), an irrigation ring (71), a water injection port (72), an irrigation pipe (73), an irrigation spray head (8), a through hole (9) and a spreading piece.

Detailed Description

The following describes in detail the embodiments of the present invention with reference to fig. 1 to 7. In the description of the present invention, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second" may include one or more such features, either explicitly or implicitly; in the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

It should be noted that, the circuit connection related in the present invention adopts a conventional circuit connection manner, and no innovation is related.

Examples

As shown in fig. 1 to 7, a fertilizer and water management device for young red pear trees comprises: fertilization box 1, further comprising: the fertilization box comprises a plurality of fertilization channels 13, a storage box 3, a telescopic rod 41, a plurality of second fertilization pipes 6 and a plurality of first fertilization pipes 5, wherein the fertilization channels 13 are arranged at the bottom of the fertilization box 1 in a penetrating way and are used for allowing the second fertilization pipes 6 and the first fertilization pipes 5 to pass through; the storage box 3 is arranged in the fertilizing box 1, a sliding rail 4 is arranged on the inner wall of the fertilizing box 1, and two ends of the storage box 3 are arranged on the sliding rail 4 in a sliding manner; one end of a telescopic rod 41 is connected to the top of the storage box 3, the other end of the telescopic rod 41 is arranged on the inner wall of the fertilization box 1, the telescopic rod 41 is an electric telescopic rod, and the telescopic rod 41 is driven by external electric power to telescopically control the storage box 3 to move up and down; one end of each second fertilization tube 6 is communicated with the bottom of the storage box 3 at a position corresponding to the fertilization channel 13 through a connection hose 61, an electromagnetic valve is arranged on the connection hose 61 and used for controlling feeding, and when the fertilizers are proportioned, the fertilizers enter the second fertilization tube 6 from the connection hose 61; every all overlap on the second fertilization pipe 6 and be equipped with one first fertilization pipe 5, the top limit setting of first fertilization pipe 5 is in on the second fertilization pipe 6, first fertilization pipe 5 includes a plurality of expansion plates 51 and first fertilization pipe inner tube 52, first fertilization pipe inner tube 52 cover is established on the second fertilization pipe 6, the week side of first fertilization pipe inner tube 52 sets up a plurality of expansion plates 51, every expansion plate 51 the top through the pivot with the side of first fertilization pipe inner tube 52 is connected, expansion plate 51 is close to and sets up expansion member 9 between bottom position and the first fertilization pipe inner tube 52, first fertilization pipe inner tube 52 with the week side of second fertilization pipe 6 sets up a plurality of through-holes 8, expansion member 9 is the hydraulic pressure pole, its end and first fertilization pipe 5 inner wall connection.

When the fertilizer is used, fertilizer is prepared according to the proportion, the fertilizer is put into the storage box 3, the fertilizer box 1 is moved to the side of the young red pear tree to be fertilized, the electric control telescopic rod 41 is used for extending, the storage box 3 is controlled to move downwards, namely, the second fertilizer pipe 6 and the first fertilizer pipe 5 are both moved downwards until the second fertilizer pipe 6 and the first fertilizer pipe 5 are inserted into soil, then the electromagnetic valve is controlled to be opened, the matched fertilizer enters the second fertilizer pipe 6, the spreader plate 51 of the first fertilizer pipe 5 is spread by the spreading piece 9, the soil on the periphery of the second fertilizer pipe 6 is spread to form a relatively neutral space, at the moment, the fertilizer in the second fertilizer pipe 6 can enter the soil from the through hole 8, after fertilization, the spreader plate 51 is spread and stored for many times, the soil on the periphery of the second fertilizer pipe 6 is loosened, and the fertilizer and the soil are fully mixed.

Preferably, for convenient movement and operation, the universal wheels 11 are arranged at the positions of the sides of the fertilization box 1 close to the bottom, and the armrests 12 are arranged at the sides.

Preferably, because the existing fertilizer injection unit mostly fertilizes the sapling week side one point, often can lead to sapling absorbing nutrient uneven, in order to improve sapling's growth quality, in order to make fertilization case 1 can once carry out even fertilization to sapling week side, make sapling absorbing nutrient even, fertilization case 1 is semi-annular, sets up annular recess 14 in one of its side, during the use, aims at the sapling with the recess 14 of fertilization case 1, makes fertilization case 1 encircle the sapling, and after once fertilization, once fertilization case 1 is rotated again, and once more fertilizies to make sapling week side all put into required nutrient element.

Preferably, in order to improve the fertilization efficiency, an irrigation ring 7 is disposed on the groove surface of the groove 14, and the method further comprises: a water filling port 71, a plurality of irrigation pipes 72 and irrigation nozzles 73, wherein the water filling port 71 is arranged at the top of the irrigation ring 7; a plurality of irrigation pipes 72, one end of which is communicated with the bottom of the irrigation ring 7; an irrigation emitter 73 is attached to the other end of the irrigation tube 72.

After the fertilization is completed, the fertilization position is directly irrigated and watered through the irrigation pipe 72, so that the utilization rate of the applied fertilizer is improved.

Preferably, in order to prevent the groove 14 from damaging the sapling, a protective pad 141 is laid on the groove surface of the inner side surface of the groove 14.

Preferably, in order to further improve the batching and fertilizing integrated effect of the red pear sapling fertilizer and water management device, the device further comprises: a feed pipe 23 is arranged at the top of the batching box 2, and the batching box 2 is arranged above the storage box 3; the mixing box 21 is arranged between the storage box 3 and the fertilizing box 1, one end of the mixing box is communicated with the batching box 2, and the other end of the mixing box is communicated with the fertilizing box 1 through a communicating pipe 22.

Preferably, in order to increase the speed of the fertilizer overflowing from the through hole 8 during the fertilization, an oscillator 62 is disposed at the top of each first fertilization tube 5 near the position of the second fertilization tube 6, the oscillator 62 is a piston impact vibrator, a housing is disposed on the first fertilization tube 5, a piston rod of the oscillator is towards the second fertilization tube, and the oscillator is continuously contracted through the piston rod to collide with the second fertilization tube 6, since the second fertilization tube 6 is connected with the storage box 3 through a hose 61, when the second fertilization tube 6 is collided, vibration starts to shake, and due to the self gravity and the restoring force of the hose 61, the restoring force of the second fertilization tube 6 is provided.

Preferably, in order to improve the puncture effect of the first fertilizer pipe 5 and the second fertilizer pipe 6, the bottoms of the first fertilizer pipe inner pipe 52 and the second fertilizer pipe 6 are both tapered, and the bottoms of the first fertilizer pipe 5 formed by splicing the plurality of spreader plates 51 are also tapered.

Preferably, in order to enable the irrigation spray head 73 to be used in a wider range of irrigation and fertilization positions, the irrigation spray head 73 is inclined, and the irrigation direction is inclined toward the outer circumferential side of the fertilization box 1.

Preferably, in order to prevent soil from being easily caught during shrinkage after the spreader plate 51 is spread, the radius of the fertilizer application path 13 is extended to a length through which the spreader plate 51 can pass after being spread.

The foregoing disclosure is only illustrative of the preferred embodiments of the present invention, but the embodiments of the present invention are not limited thereto, and any variations within the scope of the present invention will be apparent to those skilled in the art.

Claims (5)

1. A red pear sapling fertilizer water management device, comprising: fertilization case (1), its characterized in that still includes:

a plurality of fertilization channels (13) are arranged at the bottom of the fertilization box (1) in a penetrating way;

the storage box (3) is arranged in the fertilizing box (1), a sliding rail (4) is arranged on the inner wall of the fertilizing box (1), and two ends of the storage box (3) are arranged on the sliding rail (4) in a sliding manner;

one end of the telescopic rod (41) is connected to the top of the storage box (3), and the other end of the telescopic rod is arranged on the inner wall of the fertilization box (1);

one end of each second fertilization tube (6) is communicated with the position of the bottom of the storage box (3) corresponding to the fertilization channel (13) through a connection hose (61);

the device comprises a plurality of first fertilization pipes (5), wherein each second fertilization pipe (6) is sleeved with one first fertilization pipe (5), the top of each first fertilization pipe (5) is limited and arranged on each second fertilization pipe (6), each first fertilization pipe (5) comprises a plurality of expansion plates (51) and a first fertilization pipe inner pipe (52), each first fertilization pipe inner pipe (52) is sleeved on each second fertilization pipe (6), a plurality of expansion plates (51) are arranged on the periphery of each first fertilization pipe inner pipe (52), the top of each expansion plate (51) is connected with the side face of each first fertilization pipe inner pipe (52) through a rotating shaft, expansion pieces (9) are arranged between the positions, close to the bottoms, of the expansion plates (51) and the periphery of each first fertilization pipe inner pipe (52), and a plurality of through holes (8) are formed in the periphery of each second fertilization pipe (6);

the fertilizing box (1) is semi-annular, and an annular groove (14) is formed in one position of the side surface of the fertilizing box;

an irrigation ring (7) is arranged on the groove surface of the groove (14), and the device further comprises:

a water filling port (71) which is arranged at the top of the irrigation ring (7);

a plurality of irrigation pipes (72) one end of which is communicated with the bottom of the irrigation ring (7);

an irrigation nozzle (73) connected to the other end of the irrigation pipe (72);

an oscillator (62) is arranged at the top of each first fertilization tube (5) and close to the position of the second fertilization tube (6);

the bottoms of the first fertilization tube inner tube (52) and the second fertilization tube (6) are both conical, and the bottom of the first fertilization tube (5) spliced by the plurality of expansion plates (51) is also conical;

when the fertilizer is used, fertilizer is prepared according to the proportion, the fertilizer is put into a storage box (3), the fertilizer box (1) is moved to the side of a young red pear tree to be fertilized, the electric control telescopic rod (41) stretches out, the storage box (3) is controlled to move downwards, namely, the second fertilizer pipe (6) and the first fertilizer pipe (5) are both moved downwards until the second fertilizer pipe (6) and the first fertilizer pipe (5) are inserted into soil, then an electromagnetic valve is controlled to be opened, the prepared fertilizer enters the second fertilizer pipe (6), the spreading plate (51) of the first fertilizer pipe (5) is spread by a spreading piece (9), the soil on the periphery of the second fertilizer pipe (6) is spread to form a relatively neutral space, at the moment, the fertilizer in the second fertilizer pipe (6) can enter the soil from the through hole (8), and after the fertilizer is applied, the spreading plate (51) is spread and stored for multiple times, the soil on the periphery of the second fertilizer pipe (6) is loosened, and the fertilizer and the soil is fully mixed;

when the fertilizer is applied for many times, the grooves (14) of the fertilizer application box (1) are aligned to the sapling, so that the fertilizer application box (1) surrounds the sapling, and after one time of fertilizer application, the fertilizer application box (1) is rotated once again, and fertilizer is applied once again, so that the circumferential sides of the sapling are all put into needed nutrient elements;

after the fertilization is completed, irrigation and watering are directly carried out on the fertilization positions through an irrigation pipe (72).

2. The fertilizer and water management device for the young red pear trees according to claim 1, wherein universal wheels (11) are arranged at positions, close to the bottom, of the side faces of the fertilizer box (1), and armrests (12) are arranged on the side faces.

3. The fertilizer and water management device for young red pear trees according to claim 1, wherein a protective pad (141) is laid on the groove surface of the inner side surface of the groove (14).

4. The red pear sapling water fertilizer management device of claim 1, further comprising:

a feed pipe (23) is arranged at the top of the batching box (2), and the batching box (2) is arranged above the storage box (3);

the mixing box (21) is arranged between the storage box (3) and the fertilization box (1), one end of the mixing box is communicated with the proportioning box (2), and the other end of the mixing box is communicated with the fertilization box (1) through a communicating pipe (22).

5. The fertilizer and water management device for young red pear trees according to claim 1, wherein the irrigation spray heads (73) are obliquely arranged, and the irrigation direction is inclined to the outer peripheral side of the fertilizer box (1).