CN117136812A

CN117136812A - Sapling storage device for forestry engineering

Info

Publication number: CN117136812A
Application number: CN202311212689.XA
Authority: CN
Inventors: 陈玉峰; 徐晋; 王婷
Original assignee: Zoucheng Natural Resources And Planning Bureau
Current assignee: Zoucheng Natural Resources And Planning Bureau
Priority date: 2023-09-20
Filing date: 2023-09-20
Publication date: 2023-12-01

Abstract

The application relates to the technical field of forestry engineering, in particular to a sapling storage device for forestry engineering, which comprises a box body, wherein a transverse plate is fixedly arranged in the box body, a plurality of containing cylinders for containing sapling are arranged on the transverse plate, and a gap is reserved between the transverse plate and the bottom wall of the box body; the sapling storage device for forestry engineering still includes: the sideslip board is movably arranged in the box body and is connected with a thread driving mechanism arranged in the box body, the thread driving mechanism can drive the sideslip board to do linear motion in the box body, and the thread driving mechanism is connected with a Malta cross movement mechanism arranged on the outer wall of the box body, through mutual cooperation between each mechanism and parts, the function of effectively and comprehensively spraying nutrient solution on seedlings in long-distance transportation is realized, the problem that the seedlings are not easy to survive in long-distance transportation is effectively solved, and the protection to the seedlings is higher.

Description

Sapling storage device for forestry engineering

Technical Field

The application relates to the technical field of forestry engineering, in particular to a sapling storage device for forestry engineering.

Background

Forestry engineering refers to the application of various engineering technologies to activities of forest resource cultivation, development and utilization and forest product processing by taking efficient utilization and sustainable development of forest resources as principles, and forest is a renewable biological resource and has direct and indirect economic value, so that the quality of forestry construction is directly related to various aspects of national economy, environment and society of China.

In forestry engineering, the sapling is often required to be transported, and the sapling needs to be irrigated with water in the long-time transportation process, so that the sapling is ensured not to die because of long-time drought, the existing protection mode for the sapling is to use a plastic bag filled with soil with moisture to be tied at the root of the sapling, the mode is in long-distance transportation, soil with moisture in the plastic bag is easy to shake out, the protection performance for the sapling is poor, and for this reason, some staff select to check the actual condition of the sapling at regular time in the transportation and supplement nutrient solution for the sapling, but the mode is more troublesome and easy to influence the transportation progress.

Disclosure of Invention

The application aims to provide a sapling storage device for forestry engineering, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions:

a seedling storage device for forestry engineering comprises a box body;

wherein, a transverse plate is fixedly arranged in the box body, a plurality of accommodating cylinders for accommodating sapling are arranged on the transverse plate, and a gap is reserved between the transverse plate and the bottom wall of the box body;

the sapling storage device for forestry engineering still includes:

the transverse moving plate is movably arranged in the box body and is connected with a thread driving mechanism arranged in the box body, the thread driving mechanism can drive the transverse moving plate to do linear motion in the box body, and the thread driving mechanism is connected with a Malta cross movement mechanism arranged on the outer wall of the box body;

the shower nozzle is movably arranged at the bottom of the sideslip plate and is connected with a reciprocating driving mechanism arranged on the sideslip plate, the reciprocating driving mechanism is connected with a Malta cross movement mechanism through a transmission mechanism, the shower nozzle is connected with a cylinder arranged at the bottom of the box body through a peripheral booster pump, the cylinder is used for containing nutrient solution, and the reciprocating driving mechanism can drive the shower nozzle to reciprocate along the length direction of the sideslip plate.

As a further scheme of the application: the maltese cross movement mechanism comprises a driving motor, a driving wheel, a first driven wheel and a second driven wheel, wherein the driving motor is arranged on the outer wall of the box body through a mounting seat, the driving wheel is fixedly arranged on the output shaft of the driving motor, and the first driven wheel and the second driven wheel are rotatably arranged on the outer wall of the box body;

the rotary shaft of the first driven wheel is connected with the threaded driving mechanism, the rotary shaft of the second driven wheel is connected with the transmission mechanism, and the rotary shaft of the driving wheel is also connected with a stirring structure arranged in the cylinder.

As still further aspects of the application: the screw thread actuating mechanism is including rotating the threaded rod of installing in the box and cover locate on the threaded rod and with threaded rod threaded connection's screw thread sleeve, the screw thread sleeve with sideslip board fixed connection, just the threaded rod pass through first drive belt with the rotation axis connection of first follow driving wheel.

As still further aspects of the application: the transmission mechanism comprises a rotating shaft rotatably installed in the box body and a sleeve rotatably installed on the transverse moving plate, the rotating shaft is connected with a rotating shaft of the second driven wheel through a second transmission belt, the sleeve is in sliding sleeve fit with the rotating shaft, and a limiting structure is arranged between the sleeve and the rotating shaft.

As still further aspects of the application: the limiting structure comprises two strip-shaped protrusions arranged on the outer wall of the rotating shaft and two strip-shaped grooves arranged on the inner wall of the sleeve, the strip-shaped grooves are matched with the strip-shaped protrusions, the strip-shaped protrusions and the strip-shaped protrusions are parallel to the central axis of the rotating shaft, and the sleeve is connected with the reciprocating driving mechanism.

As still further aspects of the application: the transverse moving plate is provided with a guide groove, a sliding block is in sliding fit with the guide groove, the spray head is arranged at the bottom of the sliding block, and the reciprocating driving mechanism comprises two driving wheels rotatably arranged on the transverse moving plate and a connecting piece for connecting the two driving wheels;

one of them the axis of rotation of drive wheel passes through bevel gear group and third drive belt connection the sleeve pipe, the connecting piece with two drive wheel rolling fit just be equipped with the cylinder on the connecting piece, be fixed with the driven lever on the slider, be equipped with the spout on the driven lever, the cylinder stretches into in the spout and with driven lever sliding connection.

As still further aspects of the application: the stirring structure comprises a transverse shaft rotatably installed in the cylinder and a plurality of stirring rods fixedly arranged on the outer wall of the transverse shaft, the stirring rods are perpendicular to the central axis of the transverse shaft, and the transverse shaft is connected with the rotating shaft of the driving wheel through a fourth driving belt.

Compared with the prior art, the application has the beneficial effects that: the application has novel design, when the seedlings need to be transported for a long distance, the seedlings are transferred into the containing cylinder, then, the maltese cross movement mechanism works, the maltese cross movement mechanism drives the thread driving mechanism to move with the transmission mechanism in a staggered way, when the transmission mechanism moves, the reciprocating driving mechanism is driven to drive the spray heads to move in a reciprocating straight line along the length direction of the traversing plate, the spraying range of the nutrient solution is improved, when the thread driving mechanism moves, the traversing plate is driven to move in the box body, the position of the spray heads for spraying the nutrient solution is changed, so that the spraying range of the nutrient solution is further improved, all the seedlings in the box body can absorb the nutrient, the function of effectively and comprehensively spraying the nutrient solution to the seedlings in the long distance transportation process is realized, the problem that the seedlings are not easy to survive in the long distance transportation process is effectively solved, the protection of the seedlings is higher, and the survival rate of the seedlings is improved.

Drawings

Figure 1 is a schematic diagram of one embodiment of a sapling storage device for forestry engineering.

Figure 2 is a schematic view of another angle of one embodiment of a sapling storage device for forestry engineering.

Fig. 3 is an enlarged view of the structure at a in fig. 1.

Figure 4 is a schematic view of the internal structure of the housing in one embodiment of the sapling storage device for forestry engineering.

Fig. 5 is an enlarged view of the structure at B in fig. 4.

Figure 6 is a schematic view of another angle inside the housing in one embodiment of a sapling storage device for forestry engineering.

Fig. 7 is a schematic diagram showing a connection state of a maltese cross movement mechanism, a screw driving mechanism and a transmission mechanism in one embodiment of a sapling storage device for forestry engineering.

Figure 8 is an exploded view of the structure of the reciprocating drive mechanism in one embodiment of the seedling storage device for forestry engineering.

In the figure: 1. a case; 2. a containing barrel; 3. a transverse moving plate; 301. a guide groove; 4. a spray head; 5. a cylinder; 6. a rotating shaft; 7. a sleeve; 8. a driving wheel; 9. a connecting piece; 10. a column; 11. a slide block; 12. a driven rod; 13. a threaded sleeve; 14. a driving motor; 15. a driving wheel; 16. a first driven wheel; 17. a second driven wheel; 18. a first belt; 19. a second belt; 20. a third belt; 21. a bevel gear set; 22. a fourth belt; 23. a horizontal axis; 24. a stirring rod; 25. a threaded rod; 26. a mounting base; 27. a bar-shaped protrusion; 28. a strip-shaped groove.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In addition, an element in the present disclosure may be referred to as being "fixed" or "disposed" on another element or being directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to fig. 1 to 8, in an embodiment of the present application, a seedling storage device for forestry engineering includes a box 1;

wherein, a transverse plate is fixedly arranged in the box body 1, a plurality of accommodating cylinders 2 for accommodating sapling are arranged on the transverse plate, and a gap is reserved between the transverse plate and the bottom wall of the box body 1;

the sapling storage device for forestry engineering still includes:

the transverse moving plate 3 is movably arranged in the box body 1 and is connected with a thread driving mechanism arranged in the box body 1, the thread driving mechanism can drive the transverse moving plate 3 to do linear motion in the box body 1, and the thread driving mechanism is connected with a Malta cross movement mechanism arranged on the outer wall of the box body 1;

the shower nozzle 4, the activity is located the bottom of sideslip board 3, and with install reciprocating drive mechanism on the sideslip board 3 is connected, reciprocating drive mechanism pass through drive mechanism with the cross core mechanism of maltese is connected, just shower nozzle 4 pass through the peripheral hardware booster pump with locate the drum 5 of box 1 bottom is connected, drum 5 is used for splendid attire nutrient solution, reciprocating drive mechanism can drive shower nozzle 4 is followed reciprocating motion is done to the length direction of sideslip board 3.

It should be noted that, during actual use, the external booster pump can pump the nutrient solution in the cylinder 5 through the spray head 4, spray the nutrient solution onto the sapling in the holding cylinder 2, supplement the required nutrient for the sapling, effectively solve the problem that the sapling is not easy to survive in long-distance transportation, have higher protectiveness to the sapling, and improve the survival rate of the sapling;

secondly, a plurality of filtering holes (not shown in the figure) are further formed in the transverse plate, and redundant nutrient solution sprayed by the spray head 4 can enter a gap reserved between the transverse plate and the bottom wall of the box body 1 through the filtering holes, so that a water tank for recovering the nutrient solution is further arranged in the gap.

When long-distance transport is required for the sapling, the sapling is transferred into the accommodating cylinder 2, and then the maltese cross movement mechanism works and drives the thread driving mechanism to move in a staggered manner with the transmission mechanism;

when the transmission mechanism moves, the reciprocating driving mechanism is driven to drive the spray head 4 to do reciprocating linear motion along the length direction of the transverse moving plate 3, so that the spraying range of nutrient solution is improved, and when the thread driving mechanism moves, the transverse moving plate 3 is driven to move in the box body 1, the position of the spray head 4 for spraying the nutrient solution is changed, so that the spraying range of the nutrient solution is further improved, and all saplings in the box body 1 can absorb the nutrient solution;

in conclusion, through the mutual cooperation among all mechanisms and parts, the function of effectively and comprehensively spraying nutrient solution to saplings in the long-distance transportation process is realized, the problem that the saplings are not easy to survive in the long-distance transportation process is effectively solved, the protection to the saplings is higher, and the survival rate of the saplings is improved.

Referring to fig. 3 and 7 again, the maltese cross movement mechanism includes a driving motor 14 mounted on the outer wall of the case 1 through a mounting seat 26, a driving wheel 15 fixed on the output shaft of the driving motor 14, and a first driven wheel 16 and a second driven wheel 17 rotatably mounted on the outer wall of the case 1;

the rotation shaft of the first driven wheel 16 is connected with the screw driving mechanism, the rotation shaft of the second driven wheel 17 is connected with the transmission mechanism, and the rotation shaft of the driving wheel 15 is also connected with a stirring structure arranged in the cylinder 5.

Referring to fig. 4, 7 and 8 again, the screw driving mechanism includes a threaded rod 25 rotatably mounted in the case 1, and a threaded sleeve 13 sleeved on the threaded rod 25 and screwed with the threaded rod 25, the threaded sleeve 13 is fixedly connected with the traversing plate 3, and the threaded rod 25 is connected with the rotating shaft of the first driven wheel 16 through a first driving belt 18.

In the long-distance transportation process of the sapling, when the sapling is required to be supplemented with nutrient solution, the driving motor 14 is started, so that the driving motor 14 drives the driving wheel 15 to rotate, the driving wheel 15 drives the first driven wheel 16 and the second driven wheel 17 to rotate in a staggered manner, when the first driven wheel 16 rotates, the rotating shaft drives the threaded rod 25 to rotate through the first driving belt 18, and then the threaded sleeve 13 is in threaded fit with the threaded rod 25 to drive the transverse moving plate 3 to move, so that the position of the spray head 4 for spraying the nutrient solution is changed;

the threaded rod 25 is adopted to drive the traverse plate 3 to perform linear motion, so that the stability and the precision of the motion can be ensured, for this purpose, the driving motor 14 is a servo motor with a bi-directional driving output end, and the application is not particularly limited for the model.

Referring to fig. 7 and 8 again, the transmission mechanism includes a rotating shaft 6 rotatably mounted in the case 1 and a sleeve 7 rotatably mounted on the traversing plate 3, the rotating shaft 6 is connected with a rotating shaft of the second driven wheel 17 through a second transmission belt 19, and the sleeve 7 is slidably sleeved with the rotating shaft 6, and a limiting structure is disposed between the sleeve and the rotating shaft.

The limit structure comprises two strip-shaped protrusions 27 arranged on the outer wall of the rotating shaft 6 and two strip-shaped grooves 28 arranged on the inner wall of the sleeve 7, the strip-shaped grooves 28 are matched with the strip-shaped protrusions 27, the strip-shaped protrusions and the strip-shaped protrusions are parallel to the central axis of the rotating shaft 6, and the sleeve 7 is connected with the reciprocating driving mechanism.

When the threaded rod 25 rotates, the sleeve 7 is in sliding sleeve fit with the rotating shaft 6, so that the traverse plate 3 can be effectively guided, and the threaded sleeve 13 can be smoothly in threaded fit with the threaded rod 25.

Referring to fig. 5 and 8 again, the traverse plate 3 is provided with a guide groove 301, a slider 11 is slidably embedded in the guide groove 301, the spray head 4 is mounted at the bottom of the slider 11, and the reciprocating driving mechanism includes two driving wheels 8 rotatably mounted on the traverse plate 3 and a connecting member 9 connecting the two driving wheels 8;

the rotation shaft of one driving wheel 8 is connected with the sleeve 7 through a bevel gear set 21 and a third transmission belt 20, the connecting piece 9 is in rolling fit with two driving wheels 8, the connecting piece 9 is provided with a cylinder 10, the sliding block 11 is fixedly provided with a driven rod 12, the driven rod 12 is provided with a sliding groove, and the cylinder 10 stretches into the sliding groove and is in sliding connection with the driven rod 12.

Specifically, the bevel gear set 21 includes a first bevel gear rotatably mounted on the traverse plate 3 and a second bevel gear fixedly mounted coaxially with the driving wheel 8, the second bevel gear is meshed with the first bevel gear, and the third transmission belt 20 is used for connecting the sleeve 7 and the rotation shaft of the first bevel gear.

When the second driven wheel 17 rotates, the rotation shaft of the second driven wheel 17 drives the rotation shaft 6 to rotate through the second transmission belt 19, so that the rotation shaft 6 can drive the sleeve 7 to rotate through the strip-shaped protrusion 27 and the strip-shaped groove 28, and then the sleeve 7 can drive the driving wheel 8 to rotate through the third transmission belt 20 and the bevel gear set 21;

further, the connecting piece 9 drives the column 10 to move, the movement track of the column 10 matches with the shape of the connecting piece 9, and the column 10 is slidably matched with the driven rod 12 through the sliding groove in the movement process, so that the driven rod 12 drives the sliding block 11 to slide reciprocally in the guiding groove 301, so that the spray head 4 moves reciprocally along the length direction of the traverse plate 3, and the range of spraying the nutrient solution is improved.

Referring to fig. 4 again, the stirring structure includes a transverse shaft 23 rotatably installed in the cylinder 5 and a plurality of stirring rods 24 fixedly disposed on an outer wall of the transverse shaft 23, wherein the stirring rods 24 are perpendicular to a central axis of the transverse shaft 23, and the transverse shaft 23 is connected with a rotating shaft of the driving wheel 15 through a fourth driving belt 22.

In the process of supplementing the nutrient solution, the driving wheel 15 keeps continuously rotating, and the rotating shaft of the driving wheel can drive the transverse shaft 23 to rotate through the fourth driving belt 22, so that the stirring rods 24 play an effective role in mixing the nutrient solution in the cylinder 5, the problem of precipitation of the nutrient solution in the cylinder 5 caused by overlong time is ensured, and the uniformity of the nutrient solution sprayed by the spray head 4 is ensured.

When the sapling storage device for forestry engineering is implemented in a specific way, in the long-distance transportation process of sapling, when nutrition liquid is needed to be supplemented to sapling, the driving motor 14 is started, then the driving motor 14 drives the driving wheel 15 to rotate, the driving wheel 15 drives the first driven wheel 16 and the second driven wheel 17 to rotate in a staggered way, when the first driven wheel 16 rotates, the rotating shaft drives the threaded rod 25 to rotate through the first driving belt 18, and then the threaded sleeve 13 is in threaded fit with the threaded rod 25 to drive the transverse moving plate 3 to move, so that the position of the spray head 4 for spraying the nutrition liquid is changed;

further, the connecting piece 9 drives the column 10 to move, the movement track of the column 10 is matched with the shape of the connecting piece 9, and the column 10 is in sliding fit with the driven rod 12 through the sliding groove in the movement process, so that the driven rod 12 drives the sliding block 11 to slide reciprocally in the guide groove 301, the spray head 4 moves reciprocally in a straight line along the length direction of the traverse plate 3, and the range of spraying nutrient solution is increased;

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. A seedling storage device for forestry engineering comprises a box body (1);

the tree seedling box comprises a box body (1), wherein a transverse plate is fixedly arranged in the box body (1), a plurality of accommodating cylinders (2) for accommodating tree seedlings are arranged on the transverse plate, and a gap is reserved between the transverse plate and the bottom wall of the box body (1);

characterized by further comprising:

the transverse moving plate (3) is movably arranged in the box body (1) and is connected with a thread driving mechanism arranged in the box body (1), the thread driving mechanism can drive the transverse moving plate (3) to do linear motion in the box body (1), and the thread driving mechanism is connected with a Malta cross movement mechanism arranged on the outer wall of the box body (1);

the shower nozzle (4), the activity is located the bottom of sideslip board (3), and with install reciprocating drive mechanism on sideslip board (3) is connected, reciprocating drive mechanism pass through drive mechanism with maltese cross core mechanism is connected, just shower nozzle (4) are through peripheral hardware booster pump with locate drum (5) of box (1) bottom are connected, drum (5) are used for splendid attire nutrient solution, reciprocating drive mechanism can drive shower nozzle (4) are followed reciprocating motion is done to the length direction of sideslip board (3).

2. A sapling storage device for forestry engineering according to claim 1, characterized in that the maltese cross movement mechanism comprises a driving motor (14) mounted on the outer wall of the box body (1) through a mounting seat (26), a driving wheel (15) fixed on the output shaft of the driving motor (14), and a first driven wheel (16) and a second driven wheel (17) rotatably mounted on the outer wall of the box body (1).

3. A tree seedling storage device for forestry engineering according to claim 2, characterized in that the rotation shaft of the first driven wheel (16) is connected to the screw drive mechanism.

4. A seedling storage device for forestry engineering as claimed in claim 3, wherein the rotation shaft of the second driven wheel (17) is connected with the transmission mechanism, and the rotation shaft of the driving wheel (15) is also connected with a stirring structure arranged in the cylinder (5); the thread driving mechanism comprises a threaded rod (25) rotatably installed in the box body (1) and a thread sleeve (13) sleeved on the threaded rod (25) and in threaded connection with the threaded rod (25), the thread sleeve (13) is fixedly connected with the transverse moving plate (3), and the threaded rod (25) is connected with a rotating shaft of the first driven wheel (16) through a first driving belt (18); the transmission mechanism comprises a rotating shaft (6) rotatably arranged in the box body (1) and a sleeve (7) rotatably arranged on the transverse moving plate (3), the rotating shaft (6) is connected with a rotating shaft of the second driven wheel (17) through a second transmission belt (19), and the sleeve (7) is in sliding sleeve joint with the rotating shaft (6), and a limiting structure is arranged between the sleeve and the rotating shaft; the limiting structure comprises two strip-shaped protrusions (27) arranged on the outer wall of the rotating shaft (6) and two strip-shaped grooves (28) arranged on the inner wall of the sleeve (7), the strip-shaped grooves (28) are matched with the strip-shaped protrusions (27) and are parallel to the central axis of the rotating shaft (6), and the sleeve (7) is connected with the reciprocating driving mechanism; the transverse moving plate (3) is provided with a guide groove (301), a sliding block (11) is slidably embedded in the guide groove (301), the spray head (4) is arranged at the bottom of the sliding block (11), and the reciprocating driving mechanism comprises two driving wheels (8) rotatably arranged on the transverse moving plate (3) and a connecting piece (9) connected with the two driving wheels (8); the rotating shaft of one driving wheel (8) is connected with the sleeve (7) through a bevel gear set (21) and a third transmission belt (20).

5. A seedling storage device for forestry engineering according to claim 4, characterized in that the connecting piece (9) is in rolling fit with two driving wheels (8), a cylinder (10) is arranged on the connecting piece (9), and a driven rod (12) is fixed on the sliding block (11).

6. A seedling storage device for forestry engineering as claimed in claim 4, wherein said driven rod (12) is provided with a chute, and said post (10) extends into said chute and is slidably connected to said driven rod (12).

7. A sapling storage device for forestry engineering according to claim 6, characterized in that the stirring structure comprises a transverse shaft (23) rotatably mounted in the cylinder (5) and a plurality of stirring rods (24) fixedly provided on the outer wall of the transverse shaft (23).

8. A seedling storage device for forestry engineering according to claim 2, characterized in that the stirring rod (24) is perpendicular to the central axis of both the transverse shafts (23), and the transverse shafts (23) are connected with the rotating shaft of the driving wheel (15) through a fourth transmission belt (22).