CN214960973U - Digging device for tree planting - Google Patents

Abstract

The utility model relates to an agricultural equipment technical field, more specifically the digging device is planted to trees that says so. The utility model provides a digging device is planted to trees, its beneficial effect is for can realizing meetting the stone when trees are planted and lead to carrying out the breakage to the stone when unable digging pit. The pit digging mechanism is connected to the traveling mechanism, the pit digging mechanism is connected to the position adjusting device, the matching device is connected to the position adjusting device, and the stone breaking device is connected to the traveling mechanism. As this technical scheme's further optimization, the utility model relates to a digging device is planted to trees running gear include walking backup pad, horizontal through-hole, horizontal spout and universal wheel, the equal fixed connection of a plurality of universal wheels is at walking backup pad lower extreme, and horizontal through-hole is located walking backup pad upper end, and horizontal spout is located horizontal through-hole right side.

Description

Digging device for tree planting

Technical Field

The utility model relates to an agricultural equipment technical field, more specifically the digging device is planted to trees that says so.

Background

The patent number is that environmental protection engineering that CN201921074024.6 discloses a convenient to use plants digging device with trees and discloses, this utility model discloses a digging device is planted with trees to environmental protection engineering convenient to use, comprising a base plate, first through-hole has been seted up to the upper surface of bottom plate, the equal fixedly connected with slide bar in position that the bottom plate upper surface is located the first through-hole left and right sides, and the sliding sleeve has all been cup jointed on the surface of two slide bars. This environmental protection engineering is with tree planting digging device convenient to use, through drive arrangement, a handle, the slide bar, mutually supporting of sliding sleeve and scale, at first people make the gear motor work in the drive arrangement, gear motor's the rotatory pivot rotation that drives of output shaft, the pivot drives the hob rotation, just can dig the hole to soil, then people move down the handle, the handle drives box downstream and makes the hob downstream, then people just can confirm the depth of digging the hole according to the scale, not only can reduce the amount of labour, can also avoid digging the hole simultaneously too deeply or the normal growth that influences trees shallowly, but this utility model can't realize when tree planting meetting the stone and lead to unable stone to dig the hole carrying out the breakage.

SUMMERY OF THE UTILITY MODEL

The utility model provides a digging device is planted to trees, its beneficial effect is for can realizing meetting the stone when trees are planted and lead to carrying out the breakage to the stone when unable digging pit.

The utility model relates to the technical field of agricultural equipment, more specifically the digging device is planted to trees that says so, including running gear, position control device, digging mechanism, cooperation device and rubble device, position control device connects on running gear, and the digging mechanism that digs connects on position control device, and cooperation device connects on position control device, and the rubble device is connected on running gear.

As this technical scheme's further optimization, the utility model relates to a digging device is planted to trees running gear include walking backup pad, horizontal through-hole, horizontal spout and universal wheel, the equal fixed connection of a plurality of universal wheels is at walking backup pad lower extreme, and horizontal through-hole is located walking backup pad upper end, and horizontal spout is located horizontal through-hole right side.

As this technical scheme's further optimization, the utility model relates to a tree planting digging device position control device include gear motor I, the lead screw, connecting plate I, cylinder block and screw connection frame, I fixed connection of gear motor is in screw connection frame rear side, screw rear end fixed connection is on gear motor I's output shaft, the lead screw front end rotates to be connected at screw connection frame front end, I threaded connection of connecting plate is on the lead screw, cylinder block fixed connection is in I left end of connecting plate, the equal fixed connection in walking backup pad upper end in both ends around the screw connection frame, cylinder block sliding connection is in horizontal spout.

As this technical scheme's further optimization, the utility model relates to a tree planting digging device digging mechanism include cylinder, connecting plate II, gear motor II, conveying worm and first rack, the cylinder passes through horizontal through-hole, II fixed connections of connecting plate are at the cylinder lower extreme, II fixed connections of gear motor are at II lower extremes of connecting plate, conveying worm fixed connection is connected on gear motor II's output shaft, first rack fixed connection is in II rear sides of connecting plate, connecting plate II is located horizontal through-hole downside, cylinder fixed connection is on the cylinder block.

As this technical scheme's further optimization, the utility model relates to a digging device is planted to trees cooperation device include connecting rod and gear, the gear revolve connects at the connecting rod left end, connecting rod fixed connection is at the cylinder block lower extreme, first rack and gear engagement.

As this technical scheme's further optimization, the utility model relates to a tree planting digging device the rubble device include vertical spout, second rack, broken drill bit, connecting plate III and gear motor III, second rack sliding connection is in vertical spout, III fixed connection on the second rack right side of connecting plate, III lower extremes of gear motor fixed connection at connecting plate, broken drill bit fixed connection is on gear motor III's output shaft, vertical spout fixed connection is on the cylinder block right side, second rack and gear engagement, connecting plate III is located horizontal through-hole below.

As a further optimization of the technical scheme, the utility model relates to a digging device is planted to trees broken bit material be artificial diamond.

As a further optimization of this technical scheme, the utility model relates to a digging device is planted to trees second rack and first rack width all are less than horizontal through-hole.

As a further optimization of this technical scheme, the utility model relates to a digging device is planted to trees conveying scroll bar be the material for iron.

As a further optimization of this technical scheme, the utility model relates to a digging device is planted to trees the universal wheel be the rubber material.

The utility model relates to a digging device is planted to trees's beneficial effect does:

the utility model relates to a digging device is planted to trees, its beneficial effect is for can realizing meetting the stone when trees are planted and lead to carrying out the breakage to the stone when unable digging pit to make things convenient for the device to move once more and dig the operation, can remove a device after, beat a plurality of tree pits, need not many times shift position, easy and simple to handle.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the utility model relates to a digging device's schematic structure is planted to trees.

Fig. 2 is a schematic structural view of the tree planting digging device in another direction.

Fig. 3 is a schematic structural diagram of the traveling mechanism.

Fig. 4 is a schematic structural view of the position adjusting device.

Fig. 5 is a schematic structural diagram of a digging mechanism.

Fig. 6 is a schematic structural view of the fitting device.

Fig. 7 is a schematic structural view of the lithotripsy apparatus.

In the figure: a traveling mechanism 1; a walking support plate 101; a lateral through-hole 102; a lateral chute 103; a universal wheel 104; a position adjusting device 2; a speed reduction motor I201; a lead screw 202; a connecting plate I203; a cylinder block 204; a lead screw connecting frame 205; a pit digging mechanism 3; a cylinder 301; a connecting plate II 302; a reduction motor II 303; a transfer scroll 304; a first rack 305; a fitting device 4; a connecting rod 401; a gear 402; a stone breaking device 5; a longitudinal chute 501; a second rack 502; a crushing bit 503; a connecting plate III 504; and a speed reducing motor III 505.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the present invention relates to the technical field of agricultural equipment, and more specifically to a tree planting and pit digging device, including pesticide box mechanism 1, baffle mechanism 2, pressing device 3, inflating device 4, stirring device 5, and sliding pressure relief device 6, baffle mechanism 2 is connected to pesticide box mechanism 1, pressing device 3 is connected to pesticide box mechanism 1, inflating device 4 is connected to pesticide box mechanism 1, stirring device 5 is connected to pesticide box mechanism 1, and sliding pressure relief device 6 is connected to pesticide box mechanism 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the present embodiment further describes the first embodiment, where the traveling mechanism 1 includes a traveling support plate 101, a transverse through hole 102, a transverse chute 103, and universal wheels 104, the universal wheels 104 are all fixedly connected to the lower end of the traveling support plate 101, the transverse through hole 102 is located at the upper end of the traveling support plate 101, the transverse chute 103 is located at the right side of the transverse through hole 102, when a position needs to be moved, an operator pushes the support plate 101, so that the universal wheels 104 rotate to drive the support plate 101 to move, and move back and forth and rotate left and right, and the adjusting device 2 moves to drive the digging mechanism 3 to move back and forth, so that the digging mechanism 3 can dig pits at different positions.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the embodiment will be further described, where the position adjusting device 2 includes a speed reducing motor i 201, a screw 202, a connecting plate i 203, a cylinder block 204, and a screw connecting frame 205, the speed reducing motor i 201 is fixedly connected to the rear side of the screw connecting frame 205, the rear end of the screw 202 is fixedly connected to the output shaft of the speed reducing motor i 201, the front end of the screw 202 is rotatably connected to the front end of the screw connecting frame 205, the connecting plate i 203 is screwed to the screw 202, the cylinder block 204 is fixedly connected to the left end of the connecting plate i 203, the front end and the rear end of the screw connecting frame 205 are fixedly connected to the upper end of the walking support plate 101, the cylinder block 204 is slidably connected to the transverse chute 103, the speed reducing motor i 201 is rotated to bring the screw 202 to rotate, the screw 202 rotates to drive the connecting plate i 203 to move back and forth under the limit of the transverse chute 103, the connecting plate I203 moves back and forth to drive the cylinder seat 204 to move back and forth, and the cylinder seat 204 moves back and forth to drive the pit digging mechanism 3 to punch holes at different positions.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the embodiment further describes the embodiment, where the pit digging mechanism 3 includes an air cylinder 301, a connecting plate ii 302, a speed reduction motor ii 303, a transmission worm 304, and a first rack 305, the air cylinder 301 passes through the transverse through hole 102, the connecting plate ii 302 is fixedly connected to the lower end of the air cylinder 301, the speed reduction motor ii 303 is fixedly connected to the lower end of the connecting plate ii 302, the transmission worm 304 is fixedly connected to the output shaft of the speed reduction motor ii 303, the first rack 305 is fixedly connected to the rear side of the connecting plate ii 302, the connecting plate ii 302 is located at the lower side of the transverse through hole 102, the air cylinder 301 is fixedly connected to the air cylinder base 204, after the position adjusting device 2 is moved to a proper position, the air cylinder 301 extends out to press the connecting plate ii 302 downward, the connecting plate ii 302 moves downward to drive the speed reduction motor ii 303 downward, the speed reduction motor ii 303 moves downward to drive the transmission worm 304 to move downward, the transfer scroll 304 moves downward to perform a pit digging operation on the ground.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the present embodiment further describes the first embodiment, where the matching device 4 includes a connecting rod 401 and a gear 402, the gear 402 is rotatably connected to the left end of the connecting rod 401, the connecting rod 401 is fixedly connected to the lower end of the cylinder block 204, the first rack 305 is meshed with the gear 402, the connecting plate ii 302 moves downward to drive the first rack 305 to move downward, the first rack 305 moves downward to drive the gear 402 to rotate, the gear 402 rotates to drive the stone crushing device 5 to move upward, and the stone crushing device 5 moves upward to prevent the stone crushing device 5 from touching the ground to damage the stone crushing device 5.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the embodiment will be further described, where the rock breaking device 5 includes a longitudinal sliding slot 501, a second rack 502, a breaking bit 503, a connecting plate iii 504, and a reduction motor iii 505, the second rack 502 is slidably connected in the longitudinal sliding slot 501, the connecting plate iii 504 is fixedly connected to the right side of the second rack 502, the reduction motor iii 505 is fixedly connected to the lower end of the connecting plate iii 504, the breaking bit 503 is fixedly connected to the output shaft of the reduction motor iii 505, the longitudinal sliding slot 501 is fixedly connected to the right side of the cylinder base 204, the second rack 502 is engaged with the gear 402, the connecting plate iii 504 is located below the transverse through hole 102, when a stone fails to dig, the cylinder 301 contracts to drive the connecting plate ii 302 to ascend, the connecting plate ii 302 drives the transmission worm 304 to move upward, so as to lift the transmission worm 304 from the pit, then a speed reduction motor I201 rotates to drive a connecting plate I203 to move forwards, the connecting plate I203 moves forwards to drive a cylinder seat 204 to move forwards, the cylinder seat 204 moves forwards to drive a cylinder 301 to move forwards, the cylinder 301 moves forwards to drive a transmission worm 304 to move forwards, the transmission worm 304 is removed from the pit, the connecting plate I203 moves forwards to drive the cylinder seat 204 to move forwards and drive a connecting rod 401 to move forwards, the connecting plate I203 moves forwards and drive a longitudinal sliding chute 501 forwards, when the longitudinal sliding chute 501 moves forwards to enable a crushing drill 503 to reach the pit, the cylinder 301 contracts continuously to drive a connecting plate II 302 to ascend, the connecting plate II 302 ascends to drive a first rack 305 to move upwards, the first rack 305 moves upwards to drive a gear 402 to rotate, the gear 402 rotates to drive a second rack 502 to move downwards, the second rack 502 moves downwards to drive a connecting plate III 504 to move downwards, connecting plate III 504 downstream drives gear motor III 505 downstream, and gear motor III 505 downstream drives broken drill bit 503 downstream, reaches the stone position after, and gear motor III 505 rotates and drives broken drill bit 503 and rotate and carry out the breakage to the stone, conveniently digs the operation once more.

The seventh embodiment:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the first embodiment will be further described with reference to the present embodiment, in which the material of the crushing bit 503 is artificial diamond, so that the crushing bit 503 can crush stone.

The specific implementation mode is eight:

in the following, referring to fig. 1, 2, 3, 4, 5, 6, and 7, to describe the present embodiment, the second rack 502 and the first rack 305 are both smaller in width than the transverse through hole 102, so that the second rack 502 and the first rack 305 can transmit power through the transverse through hole 102.

The specific implementation method nine:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6 and 7, and the conveying scroll 304 of the first embodiment is made of iron so that the conveying scroll 304 can dig up the ground.

The detailed implementation mode is ten:

in the following description of the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, and 7, the universal wheel 104 is made of rubber to prevent corrosion of the universal wheel 104.

The utility model relates to a digging device's theory of operation is planted to trees: when the position needs to be moved, an operator pushes the support plate 101 to enable the universal wheel 104 to rotate to drive the support plate 101 to move and to move back and forth and left and right, holes can be drilled at different positions, after the support plate is moved to a proper position, the air cylinder 301 extends out to press the connecting plate II 302 downwards, the connecting plate II 302 moves downwards to drive the speed reduction motor II 303 to move downwards, the speed reduction motor II 303 moves downwards to drive the transmission worm 304 to move downwards, the transmission worm 304 moves downwards to dig the pit, when the pit cannot be dug due to stones, the air cylinder 301 contracts to drive the connecting plate II 302 to ascend, the connecting plate II 302 ascends to drive the transmission worm 304 to move upwards to lift the transmission worm 304 from the pit, then the speed reduction motor I201 rotates to drive the connecting plate I203 to move forwards, the connecting plate I203 moves forwards to drive the air cylinder base 204 to move forwards, and the air cylinder base 204 moves forwards to drive the air cylinder 301 to move forwards, the air cylinder 301 moves forwards to drive the transmission worm 304 to move forwards, the transmission worm 304 is removed from the upper part of the pit, the connecting plate I203 moves forwards to drive the air cylinder base 204 to move forwards and drive the connecting rod 401 to move forwards, the connecting plate I203 moves forwards and drive the longitudinal sliding groove 501 to move forwards, when the longitudinal sliding groove 501 moves forwards to enable the crushing bit 503 to reach the position right above the pit, the air cylinder 301 continues to contract to drive the connecting plate II 302 to ascend, the connecting plate II 302 ascends to drive the first rack 305 to move upwards, the first rack 305 moves upwards to drive the gear 402 to rotate, the gear 402 rotates to drive the second rack 502 to move downwards, the second rack 502 moves downwards to drive the connecting plate III 504 to move downwards, the connecting plate III 504 moves downwards to drive the speed reduction motor III 505 to move downwards, the speed reduction motor III 505 moves downwards to drive the crushing bit 503 to move downwards, and when the stone reaches the stone position, the speed reduction motor 505 rotates to drive the crushing bit 503 to rotate to crush the stone, the pit digging operation is convenient to carry out again.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a digging device is planted to trees, includes running gear (1), position control device (2), digging mechanism (3), proportioning device (4) and rubble device (5), and position control device (2) are connected on running gear (1), and digging mechanism (3) are connected on position control device (2), and proportioning device (4) are connected on position control device (2), and rubble device (5) are connected on running gear (1).

2. The tree planting digging device of claim 1, wherein: the walking mechanism (1) comprises a walking support plate (101), a transverse through hole (102), a transverse sliding groove (103) and universal wheels (104), wherein the universal wheels (104) are fixedly connected to the lower end of the walking support plate (101), the transverse through hole (102) is located in the upper end of the walking support plate (101), the transverse sliding groove (103) is located in the upper end of the walking support plate (101), and the transverse sliding groove (103) is located in the right side of the transverse through hole (102).

3. The tree planting digging device of claim 2, wherein: position adjusting device (2) including gear motor I (201), lead screw (202), connecting plate I (203), cylinder block (204) and screw connection frame (205), gear motor I (201) fixed connection is in screw connection frame (205) rear side, lead screw (202) rear end fixed connection is on the output shaft of gear motor I (201), lead screw (202) front end rotates to be connected in screw connection frame (205) front end, connecting plate I (203) threaded connection is on lead screw (202), cylinder block (204) fixed connection is in connecting plate I (203) left end, equal fixed connection in walking backup pad (101) upper end in both ends around screw connection frame (205), cylinder block (204) sliding connection is in horizontal spout (103).

4. The tree planting digging device of claim 3, wherein: digging mechanism (3) include cylinder (301), connecting plate II (302), gear motor II (303), conveying worm (304) and first rack (305), cylinder (301) are through horizontal through-hole (102), connecting plate II (302) fixed connection is at cylinder (301) lower extreme, gear motor II (303) fixed connection is at connecting plate II (302) lower extreme, conveying worm (304) fixed connection is on the output shaft of gear motor II (303), first rack (305) fixed connection is in connecting plate II (302) rear side, connecting plate II (302) are located horizontal through-hole (102) downside, cylinder (301) fixed connection is on cylinder block (204).

5. The tree planting digging device of claim 4, wherein: the matching device (4) comprises a connecting rod (401) and a gear (402), the gear (402) is rotatably connected to the left end of the connecting rod (401), the connecting rod (401) is fixedly connected to the lower end of the cylinder seat (204), and the first rack (305) is meshed with the gear (402).

6. The tree planting digging device of claim 5, wherein: the stone crushing device (5) comprises a longitudinal sliding groove (501), a second rack (502), a crushing drill bit (503), a connecting plate III (504) and a speed reducing motor III (505), the second rack (502) is connected in the longitudinal sliding groove (501) in a sliding mode, the connecting plate III (504) is fixedly connected to the right side of the second rack (502), the speed reducing motor III (505) is fixedly connected to the lower end of the connecting plate III (504), the crushing drill bit (503) is fixedly connected to an output shaft of the speed reducing motor III (505), the longitudinal sliding groove (501) is fixedly connected to the right side of a cylinder seat (204), the second rack (502) is meshed with a gear (402), and the connecting plate III (504) is located below a transverse through hole (102).

7. The tree planting digging device of claim 6, wherein: the material of the breaking drill bit (503) is artificial diamond.

8. The tree planting digging device of claim 7, wherein: the widths of the second rack (502) and the first rack (305) are smaller than that of the transverse through hole (102).

9. The tree planting digging device of claim 8, wherein: the transmission scroll (304) is made of iron.

10. The tree planting digging device of claim 9, wherein: the universal wheel (104) is made of rubber.

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