CN108617482B - Auxiliary assembly for plum tree planting - Google Patents

Abstract

The invention relates to the technical field of planting, and discloses auxiliary equipment for plum tree planting, which comprises a rack and a supply box fixed on the rack, wherein the supply box is provided with a planting channel penetrating through the upper part and the bottom of the supply box, two sides of the planting channel are respectively provided with an inclined plate fixed on the supply box, the inclined plates incline downwards towards the planting channel, the inclined plates divide the supply box into a nutrition cavity and a water cavity, a piston plate is connected in the nutrition cavity and the water cavity in a sliding manner, one side of the piston plate, far away from the planting channel, is provided with a spring abutting against the supply box and an inverted L-shaped rod, the L-shaped rod comprises an upper rod and a vertical rod fixedly connected with the upper rod, the other side of the piston plate is fixedly provided with an upper short rod and a lower long rod, the upper short rod is connected with the inclined plate in a sliding manner, the lower long rod is positioned below the upper short rod, a first liquid channel is arranged in the upper short rod, a second liquid channel is arranged in the lower long rod, and the outlet of the first liquid channel is positioned at the front end of the sliding.

Description

Auxiliary assembly for plum tree planting

Technical Field

The invention relates to the technical field of planting, in particular to auxiliary equipment for planting plum trees.

Background

Plum (Prunus salicina L ndl.) is a plum plant belonging to the Rosaceae family, namely, Prunus salicina, Prunus butus, Prunus salicina and Prunus spinosa, the fruit of the plum is ripe within 7-8 months, is full and mellow, exquisite and transparent, has beautiful shape and sweet taste, is one of the favorite fruits, and is widely cultivated all over the world.

The plum tree is generally planted through seedling transplantation, and in the seedling transplantation process, protective soil is used for ensuring that the root system of the seedling is not damaged (the protective soil is used for keeping the soil on the root system of the seedling when the seedling is dug out so as to avoid the seedling from being damaged, and meanwhile, the seedling is convenient to adapt to a new planting environment). However, since the seedlings are dug out for too long time in the growing period, a large amount of nutrients and water in the protective soil are lost, and the nutrient and water supplement needs to be carried out on the protective soil. The existing nutrition supplementing mode is to directly infuse nutrient solution into seedlings, but the mode is suitable for formed big trees, and is not suitable due to the fact that the branches of the seedlings are weak. In order to avoid the death of seedlings due to the lack of nutrients and moisture, the nutrient substances are supplemented in the prior art by applying the nutrient substances and moisture to the seedlings in time after the seedlings are planted. However, the nutrient substances are soaked in the soil and absorbed by the seedlings for a certain time, so that the nutrient substances and water of the seedlings can not be supplemented in time, and the seedlings die in a large area.

Disclosure of Invention

The invention aims to provide auxiliary equipment for plum tree planting, so that nutrient substances and water can be supplemented to plum tree seedlings in time, and the death of the seedlings can be avoided.

In order to achieve the purpose, the technical scheme of the invention is as follows: an auxiliary device for plum tree planting comprises a rack and a supply box fixed on the rack, wherein the supply box is provided with a planting channel penetrating through the upper part and the bottom of the supply box, two sides of the planting channel are respectively provided with an inclined plate fixed on the supply box, and the inclined plates are inclined downwards towards the planting channel, so that the cross sectional area of the upper part of the planting channel is larger than that of the lower part;

the supply box is divided into a nutrition cavity and a water cavity by the inclined plate, the nutrition cavity and the water cavity are both connected with a piston plate in a sliding manner, one side of the piston plate, which is far away from the planting channel, is provided with a spring which is abutted against the supply box and an inverted L-shaped rod, the L-shaped rod comprises an upper rod and a vertical rod which is abutted against one end of the upper rod, the vertical rod is hinged on the rack, and the other end of the upper rod is fixedly connected with the piston plate;

the opposite side of piston board is fixed with last quarter butt and lower stock with hang plate sliding connection, and the lower stock is located the below of last quarter butt, is equipped with the first liquid way that can feed through planting the way in going up the quarter butt, is equipped with the second liquid way that can feed through planting the way in the lower stock, and the export that first liquid way is close to planting the way is located the export the place ahead that the second liquid way is close to planting.

The principle of the method is that a seedling needing to be transplanted to the plum tree is put down from a planting channel, the seedling slides downwards along the planting channel under the action of gravity, in the sliding process of the seedling in the planting channel, a vertical rod serves as a handheld part to push an L-shaped rod, a L-shaped rod pushes a piston plate, the piston plate can extrude a corresponding water cavity and a corresponding nutrition cavity, nutrition and water in the water cavity and the nutrition cavity can be discharged from an upper short rod and then discharged through a lower long rod, and as the area of upper branches and leaves of the seedling is larger than that of lower roots and stems, the branches and leaves can slow down the sliding speed when the seedling slides to the lower part of the planting channel, at the moment, nutrient solution and water in a first liquid channel and a second liquid channel are sprayed onto the branches and leaves of the seedling, and then enter a dug planting pit from a supply box.

When the L-shaped rod is not pushed any more, the spring pulls the piston plate to reset, so that the L-shaped rod is pushed by the piston plate to reset.

The invention has the beneficial effects that:

1. the plum tree seedlings extrude water and nutrition in the water cavity and the nutrition cavity in the process of sliding in the planting channels, and nutrient solution and water are supplemented to the seedlings through the upper short rods and the lower long rods. Water and nutrition also not only can directly spray to protection soil to nutrition and water can also be sprayed water and nutrient solution on the seedling plant with nutrient soil storage, make nutrient solution and hydroenergy enough direct and seedling contact, thereby make things convenient for the seedling to carry out nutrient solution and water absorption. Compare with traditional mode, go up the quarter butt earlier and spray for the first time to the seedling, the stock sprays for the second time down for nutrient solution can be abundant spray on the seedling, let the seedling absorb fast, spray nutrient solution and water on the protection soil and store, need not to carry out the nutrition replenishment to the seedling after planting good seedling, thereby reduce work step, improve the work efficiency of planting.

2. Nutrient solution and water are directly sprayed on the seedlings, so that the seedlings directly contact water and the nutrient solution, the seedlings can supplement nutrient substances and water conveniently, and the problems that the nutrient solution and water are soaked in soil and can be absorbed by the seedlings, and the water and nutrition are absorbed by the seedlings untimely are solved.

3. The cross sectional area of the upper part of the planting channel is larger than that of the lower part, and the upper branches and leaves of the seedlings can be clamped at the lower part of the planting channel to delay the gliding speed, so that the nutrient solution and the moisture can have enough time to be sprayed on the seedlings. The root system of seedling lower part gets into plants the way to go up the quarter butt and spout nutrient solution and water earlier, spout nutrient solution and water behind the stock down, just in time cooperate the slip of seedling to make the root system spray sufficient nutrient solution and water.

Furthermore, the bottom of the supply box is provided with a conduit communicated with the planting channel. The guide pipe guides the seedling, so that the seedling can accurately enter the planting pit.

Furthermore, the pipe is communicated with the water cavity through the first check valve, water in the pipe flows to the water cavity through the first check valve, the second check valve is arranged on the piston plate in the water cavity, water on one side, away from the planting channel, of the piston plate flows into one side, close to the planting channel, of the piston plate through the second check valve, redundant nutrient solution and moisture sprayed on seedlings can drip downwards along the side wall of the pipe, when the piston plate extrudes the nutrient solution in the water cavity and the nutrient cavity, liquid on the side wall of the pipe can enter the water cavity through the first check valve to be recycled, when the spring pulls the piston plate to reset, the piston plate can push the L-shaped rod to reset, and recycled water can enter the other side of the piston plate through the second check valve.

Further, the articulated lower pole with frame horizontal sliding connection that has of vertical pole lower part, the outside cover of pipe is equipped with the T-shaped piece with frame sliding connection, and the upper portion both sides of T-shaped piece are the wedge, and the T-shaped piece can promote the lower pole horizontal sliding, and T-shaped piece lower part is equipped with the recess, and the T-shaped piece lower part is equipped with cavity and rotates the pivot of being connected with the frame, and pivot upper portion is located the recess, and the pivot is passed through the pipe and is planted the way intercommunication, and the pivot lateral wall is equipped with spiral slideway, and the recess lateral wall is fixed with spiral slideway complex lug, the pivot outside cover is equipped with driven gear, and one side of pivot is equipped with the motor of fixing in the frame, is fixed with the driving gear with driven gear meshing on. When the motor drives the driving gear and the driven gear to rotate, the driven gear can drive the rotating shaft to rotate, the rotating shaft can dig away partial soil through the helical blade and discharge the soil through the outlet, and therefore planting pits are formed, and the dug soil is accumulated around the planting pits. When the rotating shaft rotates, the spiral slideway can drive the T-shaped block to slide upwards through the convex block, and the T-shaped block can push the lower rod to horizontally slide.

The guide rod guides the vertical rod, so that the L-shaped rod is not displaced.

Further, the free end of the lower rod is wedge-shaped. The free end of the lower rod is in wedge-shaped fit with the upper part of the T-shaped block, so that the T-shaped block can conveniently push the lower rod to horizontally slide.

Drawings

FIG. 1 is a schematic structural view of an auxiliary device for plum tree planting in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view showing the operation of an auxiliary device for plum tree planting in accordance with an embodiment of the present invention;

FIG. 3 is a schematic structural view of an L-shaped bar according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a T-shaped block and a rotating shaft according to an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include a supply tank 1, an L-shaped rod 2, an upper rod 211, a vertical rod 212, a guide rod 3, a spring 4, a driven gear 5, a rotating shaft 6, a spiral slideway 61, a spiral blade 7, an outlet 8, a motor 9, a driving gear 10, a T-shaped block 11, a bump 111, a liquid pipe 12, a first check valve 13, a second check valve 14, a long lower rod 15, a first liquid channel 16, an inclined plate 17, a conduit 18, a piston plate 19, an upper short rod 20, a lower rod 21 and a second liquid channel 22.

The embodiments are substantially as shown in figures 1, 3 and 4 of the accompanying drawings: the utility model provides a plum tree plants and uses auxiliary assembly, includes the frame and fixes supply tank 1 in the frame, and supply tank 1 is equipped with the planting way that runs through supply tank 1 upper portion and bottom, plants the way both sides and is equipped with the hang plate 17 of fixing on the supply tank respectively, and hang plate 17 all inclines downwards towards planting the way for plant the upper portion cross-sectional area of way and be greater than the lower part cross-sectional area.

The supply box 1 is divided into a nutrition cavity and a water cavity by the inclined plate 17, piston plates 19 are horizontally and slidably connected in the nutrition cavity and the water cavity, the two piston plates 19 respectively face to two sides of the supply box 1 and are respectively provided with an inverted L-shaped rod 2 and a spring 4 abutting against the supply box 1, the L-shaped rod 2 comprises an upper rod 211 positioned on the upper portion and a vertical rod 212 positioned on the lower portion of the upper rod 211 and abutting against one end of the upper rod 211, the middle portion of the vertical rod 212 is hinged on the rack, a guide rod 3 guiding the vertical rod 212 is fixed on one side of the supply box 1 in the width direction, the guide rod 3 is horizontally positioned and guides the vertical rod 212, the vertical rod 212 is provided with a lower rod 21 horizontally and slidably connected with the rack, the lower rod 21 abuts against the vertical rod 212, the right end of the upper rod 211 is fixedly connected with the piston plate 19, the free end of the lower rod 21 is in a wedge shape, an upper short rod 20 and a lower long rod 15 horizontally slidably connected with the inclined plate 17 are arranged on one side of the planting channel, a first liquid channel opening is arranged in front of a second liquid channel opening close to an outlet 122 of the second liquid channel, and an outlet of the second liquid channel is arranged close to an outlet of the planting channel 16.

The lower part of the supply tank 1 is provided with a conduit 18 communicated with the planting passage, the conduit 18 is communicated with the right side of a piston plate 19 in a water cavity through a first one-way valve 13, a liquid pipe 12 is arranged between the first one-way valve 13 and the conduit 18, the piston plate 19 in the water cavity is provided with a second one-way valve 14, and water on the right side of the piston plate 19 flows into the water cavity on the left side of the piston plate 19 through the second one-way valve 14. The outside of the conduit 18 is sleeved with a T-shaped block 11 which can only slide upwards, and two sides of the upper part of the T-shaped block 11 are wedge-shaped and are in wedge surface fit with the wedge surfaces of the lower rods 21 at two sides. The lower part of the T-shaped block 11 is provided with a groove and a hollow rotating shaft 6, the rotating shaft 6 is rotatably connected with the frame, the upper part of the rotating shaft 6 is positioned in the groove, the rotating shaft 6 is communicated with the planting channel through a conduit 18, the side wall of the groove is provided with a convex block 111, and the outer side wall of the rotating shaft 6 is provided with a spiral slideway 61 matched with the convex block 111.

The inside wall of the rotating shaft 6 is welded with a helical blade 7, and the upper part of the rotating shaft 6 is provided with an outlet 8. The right side of the rotating shaft 6 is provided with a motor 9 fixed on the rack, the outer side of the rotating shaft 6 is sleeved with a driven gear 5, and an output shaft of the motor 9 is fixed with a driving gear 10 meshed with the driven gear 5.

The specific implementation process is as follows:

as shown in the attached figure 2, the motor 9 is started, the motor 9 drives the rotating shaft 6 to rotate through the driving gear 10 and the driven gear 5, the rotating shaft 6 drives the helical blade 7 to dig the planting pit for soil, soil can move upwards along with the helical blade 7, and when the soil moves to the outlet 8, the soil can be scattered around the planting pit.

When the rotating shaft 6 rotates, the spiral slideway 61 also rotates, the spiral slideway 61 rotates to drive the T-shaped block 11 to slide upwards through the bump 111, wedges at two sides of the T-shaped block 11 push the corresponding lower rod 21, the lower rod 21 pushes the lower part of the vertical rod 212 to move towards two sides of the supply tank 1, the upper part of the vertical rod 212 moves towards the middle part of the supply tank 1, so that the vertical rod 212 pushes the upper rod 211 to slide towards the piston plate 19, the upper rod 211 pushes the piston plate 19 to slide towards the planting channel, the piston plate 19 pushes the upper short rod 20 and the lower long rod 15 to slide towards the planting channel, the first liquid channel 16 in the upper short rod 20 and the second liquid channel 22 in the lower long rod 15 are communicated with the planting channels, and because the outlet of the first liquid channel 16 is positioned in front of the outlet of the second liquid channel 22, the first liquid channel 16 is communicated with the planting channel, the seedlings slide downwards from the upper part of the planting channel, the protective soil of the seedlings is sprayed with nutrient solution and water on the first liquid channel 16, when the nutrient solution slides to the second liquid channel 22, the nutrient solution and the water are sprayed on the second liquid channel 22. Like this, can avoid the seedling not yet to slide to second liquid way 22 department, first liquid way 16 and second liquid way 22 carry out the spraying of nutrient solution and water simultaneously, avoid the waste of nutrient solution and water.

When the branch and leaf parts of the seedlings slide to the lower part of the planting channel, the seedlings are blocked due to the smaller cross section of the lower part of the planting channel, so that the downward sliding speed of the seedlings is reduced, the nutrient solution and the water sprayed out of the first liquid channel 16 and the second liquid channel 22 can be fully sprayed onto the branch and leaf parts of the seedlings, and the seedlings finally enter the planting pits along the guide pipe 18 and the rotating shaft 6.

The excess nutrient solution and water sprayed on the seedling will drip down the conduit 18, and when the piston plate 19 in the water chamber slides to the left, it will cause the right side of the piston plate 19 to create suction and suck the nutrient solution in the side wall of the conduit 18 into the water chamber through the first one-way valve 13 and the liquid pipe 12.

The starting motor 9 drives the driving gear 10 and the driven gear 5 to rotate reversely, so that the rotating shaft 6 can drive the T-shaped block 11 to slide downwards through the spiral slideway 61 and the bump 111, the lower rod 21 is not extruded any more, so that the L-shaped rod 2 is not extruded, the spring 4 can drive the piston plate 19 to reset under the action of the spring 4, the piston plate 19 can extrude the L-shaped rod 2, and the L-shaped rod 2 can push the lower rod 21 to reset, at the moment, the piston plate 19 in the water cavity slides to the right side, the piston plate 19 can extrude nutrient solution and water on the right side, and the nutrient solution and the water enter the water cavity on the left side of the piston plate 19 through the second check valve 14, and the nutrient solution and the water are recycled.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent. The techniques, shapes, and structural parts, which are omitted from the description of the present invention, are all known techniques.

Claims (3)

1. Auxiliary assembly is used in plum tree planting, its characterized in that: the device comprises a rack and a supply box fixed on the rack, wherein the supply box is provided with a planting channel penetrating through the upper part and the bottom of the supply box, two sides of the planting channel are respectively provided with an inclined plate fixed on the supply box, and the inclined plates are inclined downwards towards the planting channel so that the cross sectional area of the upper part of the planting channel is larger than that of the lower part of the planting channel;

the supply box is divided into a nutrition cavity and a water cavity by the inclined plate, the nutrition cavity and the water cavity are both connected with a piston plate in a sliding manner, one side of the piston plate, which is far away from the planting channel, is provided with a spring which is abutted against the supply box and an inverted L-shaped rod, the L-shaped rod comprises an upper rod and a vertical rod which is abutted against one end of the upper rod, the vertical rod is hinged on the rack, and the other end of the upper rod is fixedly connected with the piston plate;

an upper short rod and a lower long rod which are connected with the inclined plate in a sliding manner are fixed on the other side of the piston plate, the lower long rod is positioned below the upper short rod, a first liquid channel which can be communicated with the planting channel is arranged in the upper short rod, a second liquid channel which can be communicated with the planting channel is arranged in the lower long rod, an outlet of the first liquid channel, which is close to the planting channel, is positioned in front of an outlet of the second liquid channel, which is close to the planting channel, the bottom of the supply box is provided with a guide pipe communicated with the planting channel, the guide pipe is communicated with the water cavity through a first one-way valve, water in the guide pipe flows to the water cavity through the first one-way valve, a second one-way valve is arranged on the piston plate in the water cavity, water on one side, away from the planting channel, of the piston plate flows into one side, which is close to the planting channel, the lower rod which is connected with the rack in a horizontal sliding manner is hinged to, the T-shaped block can promote the lower pole horizontal slip, and the T-shaped block lower part is equipped with the recess, and the T-shaped block lower part is equipped with cavity and rotates the pivot of being connected with the frame, and pivot upper portion is located the recess, and the pivot is passed through the pipe and is planted the way intercommunication, and the pivot lateral wall is equipped with spiral slideway, and the recess lateral wall is fixed with spiral slideway complex lug, pivot outside cover is equipped with driven gear, and one side of pivot is equipped with the motor of fixing in the frame, is fixed with on the output shaft of motor with driven gear meshing's driving gear, the pivot inside wall is equipped with helical blade.

2. The plum tree planting assist device according to claim 1, wherein: and a guide rod for guiding the vertical rod is fixed at the lower part of the supply tank.

3. The plum tree planting assist device according to claim 2, wherein: the free end of the lower rod is wedge-shaped.

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