CN116584206A

CN116584206A - Excavating equipment for nursery stock planting

Info

Publication number: CN116584206A
Application number: CN202310822828.4A
Authority: CN
Inventors: 吴迪军; 周明春; 龚文胜
Original assignee: Xiamen Hengqi Construction Co ltd
Current assignee: Xiamen Hengqi Construction Co ltd
Priority date: 2023-07-06
Filing date: 2023-07-06
Publication date: 2023-08-15
Anticipated expiration: 2043-07-06
Also published as: CN116584206B

Abstract

The invention relates to the technical field of seedling planting, in particular to excavating equipment for seedling planting, which comprises: the support frame is provided with a plurality of telescopic assemblies in a circumferential array, the telescopic ends of the telescopic assemblies are fixedly provided with adjusting plates, each adjusting plate corresponds to a group of excavating mechanisms, two excavating mechanisms adjacent to the notch are rotationally connected with the adjusting plates, and the excavating mechanisms at the other positions are fixedly connected with the adjusting plates; its simple structure can adjust the position of excavating mechanism according to the seedling kind of planting to the size of the hole diameter of digging the hole is adjusted, in order to improve seedling planting efficiency, still possess the effect of transplanting trees simultaneously, the practicality is higher, and at excavating mechanism encirclement trees in-process, the spade of breach both sides can overturn certain angle, in order to reduce the probability of colliding with trees.

Description

Excavating equipment for nursery stock planting

Technical Field

The invention relates to the technical field of seedling planting, in particular to excavating equipment for seedling planting.

Background

Before planting, in order to improve the survival rate of the seedlings, the root of the seedlings is provided with spherical soil, so that a pit is required to be dug before planting so as to place the root of the seedlings, in the prior art, a spiral drilling machine is adopted for digging the pit, the size of the dug pit cannot be adjusted in the mode, the seedlings cannot be planted in different modes, meanwhile, the seedlings cannot be transplanted by the spiral drilling machine, and a ball digging machine is required to be used for pulling out the seedlings, so that improvement and improvement are required.

Disclosure of Invention

In order to solve the technical problems, the invention provides the excavating equipment for seedling planting, which has a simple structure, can adjust the size of the excavated pit according to the planted seedlings so as to improve the seedling planting efficiency, has the effect of transplanting trees, and has higher practicability.

The invention provides excavating equipment for seedling planting, which comprises: the support frame with breach, a plurality of expansion assembly are installed to the support frame be circumference array, and expansion assembly's flexible end is fixed with the regulating plate, and every regulating plate all corresponds a set of excavating mechanism, and two adjacent excavating mechanisms of breach rotate with the regulating plate to be connected, excavating mechanism and regulating plate fixed connection in other positions.

The invention further improves, the excavating mechanism comprises a fixed plate, the fixed plate is fixed with an arc-shaped track, an iron shovel is arranged on the arc-shaped track in a sliding way, one end of an oil cylinder I is rotatably arranged on the fixed plate, the other end of the oil cylinder I is rotatably connected with the iron shovel, two fixed plates adjacent to a notch are respectively fixed with a rotating shaft, the rotating shafts are rotatably connected with adjusting plates at corresponding positions, and the fixed plates at other positions are fixedly connected with the adjusting plates at corresponding positions.

According to the invention, two motors I are fixed on two sides of the notch, one end of a swing arm I is rotatably mounted on an output shaft of the motor I, a transition shaft is rotatably mounted on the other end of the swing arm I, one end of a swing arm II is rotatably mounted on the transition shaft, and the other end of the swing arm II is rotatably connected with a rotating shaft;

and an output shaft of the motor is in transmission connection with the transition shaft and the transition shaft is in transmission connection with the rotating shaft.

The invention further improves, the telescopic component comprises a first connecting shaft which is rotationally connected with the supporting frame, the first connecting shaft is vertically arranged, one end of a rotating arm I is fixedly connected with the first connecting shaft, one end of a rotating arm II is rotationally arranged at the other end of the rotating arm I, the other end of the rotating arm II is fixedly connected with the second connecting shaft, and the second connecting shaft is rotationally connected with the adjusting plate;

the telescopic assembly further comprises a limiting assembly enabling the adjusting plate to move along the radial direction of the supporting frame.

The invention further improves, the limiting component comprises a connecting shaft III which is rotationally connected with the supporting frame, the connecting shaft III is horizontally arranged, one end of a rotating arm III is fixedly arranged on the connecting shaft III, one end of a rotating arm IV is rotationally arranged on the other end of the rotating arm III, the connecting shaft IV is fixedly arranged on the other end of the rotating arm IV, and the connecting shaft IV is rotationally connected with the adjusting plate.

The invention further improves, except for the first connecting shafts on two sides of the notch, the middle shaft is rotatably arranged on the support frame between the adjacent first connecting shafts, the adjacent middle shaft is in transmission connection with the first connecting shafts, the support frame is fixedly provided with the second motor, and the second motor is in transmission connection with one of the first connecting shafts.

The invention further improves, the excavator main body comprises a travelling wheel, a frame rotatably arranged on the travelling wheel, a first power arm is fixed on the frame, a second power arm is rotatably arranged on the first power arm, an oil cylinder II for driving the second power arm to rotate is arranged on the first power arm, a fixing frame is rotatably arranged on the second power arm, and an oil cylinder III for driving the fixing frame to rotate is arranged on the second power arm;

the support frame is connected with the fixing frame.

According to the invention, a baffle is fixed on the support frame and is contacted with one rotating arm three.

Compared with the prior art, the invention has the beneficial effects that: when the seedling transplanting device is used, when the seedling transplanting device is required to be used for digging pits, the telescopic assembly is operated according to the size of the pit diameter required by the seedlings, the adjusting plate and the digging mechanism are moved along the radial direction of the supporting frame, after the adjustment is finished, the digging mechanism is operated to dig the pits, so that the pit diameter can be adjusted, different seedlings are adapted, when the seedlings are required to be transplanted, the distance between the adjusting plate and the supporting frame support is minimum, the seedlings are prevented from colliding with the device, then the supporting frame is moved to the supporting frame from the notch, then the telescopic assembly is operated according to the pit diameter required by the seedlings, after the adjustment is finished, the digging mechanism is operated to dig the pits, the seedlings and the soil at the roots of the seedlings are shoveled, and then transplanting can be carried out.

Drawings

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

fig. 2 is a partial enlarged view of a portion a in fig. 1;

fig. 3 is a partial enlarged view of a portion B in fig. 2;

FIG. 4 is a schematic view of the rear view of FIG. 2;

fig. 5 is a partial enlarged view of a portion C in fig. 4;

FIG. 6 is a schematic view of the hidden support frame of FIG. 4;

FIG. 7 is a schematic view of the structure of the excavating mechanism, the adjusting plate, the first motor, the swing arm, etc. at the gap;

fig. 8 is a schematic view of the structure of the excavating mechanism, the regulating plate, the rotating arm, etc. away from the notch side;

the reference numerals in the drawings: 1. a support frame; 2. an adjusting plate; 3. a fixing plate; 4. an arc-shaped track; 5. a shovel; 6. an oil cylinder I; 7. a rotating shaft; 8. a first motor; 9. a swing arm I; 10. a transition shaft; 11. swing arm II; 12. a first chain; 13. a first connecting shaft; 14. a first rotating arm; 15. a second rotating arm; 16. a second connecting shaft; 17. a third connecting shaft; 18. rotating arm III; 19. rotating arm IV; 20. a connecting shaft IV; 21. an intermediate shaft; 22. a second chain; 23. a second motor; 24. a third chain; 25. a walking wheel; 26. a frame; 27. a first power arm; 28. a power arm II; 29. a second oil cylinder; 30. a fixing frame; 31. an oil cylinder III; 32. and a baffle.

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 8, an excavating equipment for nursery stock planting according to the present invention includes: the support frame 1 with a notch is circular, and the purpose of the notch is to adapt the device to seedling transplanting;

the support frame 1 is provided with a plurality of telescopic assemblies in a circumferential array, the telescopic ends of the telescopic assemblies are fixedly provided with adjusting plates 2, each adjusting plate 2 corresponds to a group of excavating mechanisms, the telescopic assemblies are used for enabling the adjusting plates 2 and the excavating mechanisms to move along the radial direction of the support frame 1 so as to enable two excavating mechanisms adjacent to an adjusting gap to be rotationally connected with the adjusting plates 2, and the excavating mechanisms at the other positions are fixedly connected with the adjusting plates 2;

in this embodiment, when using, when need carry out the earth boring, according to the required hole diameter's of nursery stock size, operate flexible subassembly, make regulating plate 2 and excavating mechanism remove along the radial of support frame 1, after adjusting, operate excavating mechanism again and dig the pit, thereby can adjust the hole diameter, adapt to different nursery stocks, when need transplant the nursery stock, operate flexible subassembly and make regulating plate 2 and the minimum of support frame 1 support, in order to prevent nursery stock and device collision, then remove support frame 1 and make the nursery stock remove to support frame 1 from breach, then operate flexible subassembly according to the required hole diameter of nursery stock again, after adjusting, operate excavating mechanism again and dig the pit, get up nursery stock and the soil of root thereof, transplant again can.

The invention is further improved, as shown in fig. 6 to 8, the excavating mechanism comprises a fixed plate 3, the fixed plate 3 is fixed with an arc-shaped track 4, a shovel 5 is arranged on the arc-shaped track 4 in a sliding way, one end of a first oil cylinder 6 is rotatably arranged on the fixed plate 3, the other end of the first oil cylinder 6 is rotatably connected with the shovel 5, two fixed plates 3 adjacent to a notch are respectively fixed with a rotating shaft 7, the rotating shafts 7 are rotatably connected with the adjusting plates 2 at corresponding positions, and the fixed plates 3 at other positions are fixedly connected with the adjusting plates 2 at corresponding positions;

in the embodiment, as the two ends of the first oil cylinder 6 are respectively connected with the fixed plate 3 and the shovel 5 in a rotating way, the piston rod of the first oil cylinder 6 is controlled to stretch and retract so that the shovel 5 can slide along the arc-shaped track 4, the bottom end of the arc-shaped track 4 is close to the center of the support frame 1, the moving track of the shovel 5 is arc-shaped, the later moving stage of the shovel 5 is gradually close to the center of the support frame 1, and the separation of soil in the shovel 5 from other soil is facilitated;

two adjacent fixed plates 3 of breach all are fixed with pivot 7, and pivot 7 rotates with the regulating plate 2 of corresponding position to be connected, because the area of shovel 5 is great, probably bumps with the nursery stock, when transplanting the nursery stock, makes shovel 5 rotate certain angle, makes it approximately along the radial setting of support frame 1 to increased breach department space, reduced the probability of bumping with the nursery stock.

The invention is further improved, as shown in fig. 2 to 6, two motors one 8 are fixed on two sides of a notch, one end of a swing arm one 9 is rotatably mounted on an output shaft of the motor one 8 through a bearing, a transition shaft 10 is rotatably mounted on the other end of the swing arm one 9 through a bearing, one end of a swing arm two 11 is rotatably mounted on the transition shaft 10 through a bearing, as shown in fig. 7, the transition shaft 10 is not in the same straight line with the output shaft of the motor one 8 and the rotating shaft 7, and the other end of the swing arm two 11 is rotatably connected with the rotating shaft 7 through a bearing;

the output shaft of the motor I8 is in transmission connection with the transition shaft 10 and the transition shaft 10 is in transmission connection with the rotating shaft 7 through the chain wheel I and the chain I12, and the types of the chain wheels I are consistent;

in this embodiment, as shown in fig. 7, when the spindle 7 and the excavating mechanism need to rotate, the first motor 8 is turned on, under the cooperation of the first sprocket 12 and the first chain 12, the transition shaft 10, the spindle 7, the fixed plate 3 and other components rotate, and when the adjusting plate 2, the spindle 7 and the fixed plate 3 move along the radial direction of the supporting frame 1 under the action of the telescopic assembly, the first swing arm 9 rotates around the output shaft of the first motor 8 under the pushing of the spindle 7 due to the fact that the position of the output shaft of the first motor 8 is unchanged, the second swing arm 11 rotates around the spindle 7 to adapt to the distance between the output shaft of the first motor 8 and the output shaft of the first motor 8, but the distance between the output shaft of the first motor 8 and the transition shaft 10 and the spindle 7 are unchanged, so as to adapt to the position change of the spindle 7.

The invention is further improved, as shown in fig. 3, 5, 6 and 8, the telescopic assembly comprises a first connecting shaft 13 which is rotationally connected with the support frame 1 through a bearing seat, the first connecting shaft 13 is vertically arranged, the first connecting shaft 13 is fixedly connected with one end of a first rotating arm 14, the other end of the first rotating arm 14 is rotationally provided with one end of a second rotating arm 15, the other end of the second rotating arm 15 is fixedly connected with a second connecting shaft 16, the second connecting shaft 16 is rotationally connected with the adjusting plate 2 through the bearing seat, and as shown in fig. 8, through the arrangement, the first rotating arm 14 and the second rotating arm 15 can only rotate in a horizontal plane;

the telescopic assembly further comprises a limiting assembly for enabling the adjusting plate 2 to move along the radial direction of the supporting frame 1;

the invention is further improved, as shown in fig. 3, 5, 6 and 8, the limiting component comprises a connecting shaft III 17 which is rotationally connected with the support frame 1 through a bearing seat, the connecting shaft III 17 is horizontally arranged, one end of a rotating arm III 18 is fixed on the connecting shaft III 17, one end of a rotating arm IV 19 is rotationally arranged at the other end of the rotating arm III 18, a connecting shaft IV 20 is fixed at the other end of the rotating arm IV 19, the connecting shaft IV 20 is rotationally connected with the regulating plate 2 through the bearing seat, and as shown in fig. 8, through the arrangement, the rotating arm III 18 and the rotating arm IV 19 can only rotate on a vertical surface;

in this embodiment, as shown in fig. 3, 5, 6 and 8, when the adjusting plate 2 moves along the radial direction of the supporting frame 1, in order to adapt to the position of the adjusting plate 2, the first rotating arm 14 rotates around the first connecting shaft 13, the second rotating arm 15 rotates around the second connecting shaft 16, the first rotating arm 14 and the second rotating arm 15 can only rotate in the horizontal plane, the third rotating arm 18 rotates around the third connecting shaft 17, the fourth rotating arm 19 rotates around the fourth connecting shaft 20, and the third rotating arm 18 and the fourth rotating arm 19 can only rotate in the vertical plane, so as to define the moving direction of the adjusting plate 2;

the telescopic assembly has the advantage of small occupied space.

As shown in fig. 2 to 6, the invention is further improved, except for the first connecting shafts 13 on two sides of the notch, the intermediate shafts 21 are rotatably arranged on the support frame 1 between the adjacent first connecting shafts 13, the adjacent intermediate shafts 21 and the first connecting shafts 13 are in transmission connection with the second chain 22 through the second chain wheel, the two chain wheels are identical in type, and the intermediate shafts 21 serve to reduce the length of the second chain 22, enable the second chain 22 to be close to the inner wall of the support frame 1 as much as possible, and increase the space.

The support frame 1 is fixed with a second motor 23, and the second motor 23 is in transmission connection with one connecting shaft 13 through a third sprocket and a third chain 24;

in this embodiment, when the telescopic assembly needs to be operated, the second motor 23 is turned on, the first connecting shaft 13 is rotated under the action of the third sprocket and the third chain 24, and the rest of the first connecting shafts 13 are synchronously rotated under the action of the intermediate shaft 21, the second sprocket and the second chain 22, so that less power is used, the cost is lower, and the maintenance is easier.

The invention is further improved, as shown in fig. 1, the excavator also comprises an excavator main body, wherein the excavator main body comprises travelling wheels 25, a frame 26 rotatably arranged on the travelling wheels 25, a first power arm 27 is fixed on the frame 26, a second power arm 28 is rotatably arranged on the first power arm 27, a second oil cylinder 29 for driving the second power arm 28 to rotate is arranged on the first power arm 27, a fixing frame 30 is rotatably arranged on the second power arm 28, and a third oil cylinder 31 for driving the fixing frame 30 to rotate is arranged on the second power arm 28;

the support frame 1 is connected with the fixing frame 30;

in the present embodiment, the movement of the support frame 1 and the angular control of the support frame 1 are controlled by the excavator main body.

As shown in fig. 5, the baffle 32 is fixed on the support frame 1, and the baffle 32 is contacted with one of the rotating arms III 18;

in this embodiment, as shown in fig. 5, the baffle 32 contacts with one of the third rotating arms 18, at this time, the third rotating arm 18 cannot continue to rotate upwards, and at this time, a certain angle is formed between the first rotating arm 14 and the second rotating arm 15 and between the third rotating arm 18 and the fourth rotating arm 19, so that the seizing phenomenon can be prevented.

When the excavator is used, the excavator main body is used for carrying out operations such as moving the support frame 1 and adjusting the angle of the support frame 1, when pit digging is needed, the motor II 23 is started, the connecting shaft I13 is rotated under the action of the chain wheel III and the chain III 24, the rest connecting shaft I13 is synchronously rotated under the action of the intermediate shaft 21, the chain wheel II and the chain II 22, the connecting shaft I13 rotates to drive the rotating arm I14 fixedly connected with the connecting shaft I to rotate, the adjusting plate 2 and the digging mechanism are moved along the radial direction of the support frame 1 under the cooperation of the rotating arm II 15, the rotating arm III 18 and the rotating arm IV 19, and the digging mechanism is operated to dig pits after the adjustment is finished, so that the pit diameters can be adjusted and different seedlings are adapted;

when seedlings are required to be transplanted, the second motor 23 is operated to enable the distance between the adjusting plate 2 and the support frame 1 to be minimum, the first motor 8 is operated to enable the iron spades 5 on two sides of the notch to rotate for a certain angle so as to prevent the seedlings from colliding with the device, then the excavator main body is operated to move the support frame 1 to enable the seedlings to move into the support frame 1 from the notch, then the telescopic assembly is operated according to the hole diameter required by the seedlings, after the adjustment is finished, the excavating mechanism is operated to dig holes, the seedlings and the soil at the roots of the seedlings are shoveled, and then transplanting is carried out.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims

1. The utility model provides a seedling plants with excavating equipment which characterized in that includes: the support frame (1) with the breach, a plurality of flexible subassemblies are installed to support frame (1) being circumference array, and flexible end of flexible subassembly is fixed with regulating plate (2), and every regulating plate (2) all corresponds a set of excavation mechanism, and two adjacent excavation mechanisms of breach are connected with regulating plate (2) rotation, and the excavation mechanism and the regulating plate (2) fixed connection of other positions.

2. The excavating equipment for nursery stock planting according to claim 1, wherein the excavating mechanism comprises a fixed plate (3), the fixed plate (3) is fixedly provided with an arc-shaped track (4), the arc-shaped track (4) is provided with a shovel (5) in a sliding manner, one end of a first oil cylinder (6) is rotatably arranged on the fixed plate (3), the other end of the first oil cylinder (6) is rotatably connected with the shovel (5), two fixed plates (3) adjacent to a notch are respectively fixedly provided with a rotating shaft (7), the rotating shafts (7) are rotatably connected with the adjusting plates (2) at corresponding positions, and the fixed plates (3) at the other positions are fixedly connected with the adjusting plates (2) at corresponding positions.

3. The excavating equipment for nursery stock planting according to claim 2, wherein two motors I (8) are fixed on two sides of the notch, one end of a swing arm I (9) is rotatably mounted on an output shaft of the motor I (8), a transition shaft (10) is rotatably mounted on the other end of the swing arm I (9), one end of a swing arm II (11) is rotatably mounted on the transition shaft (10), and the other end of the swing arm II (11) is rotatably connected with the rotating shaft (7);

the output shaft of the motor I (8) is in transmission connection with the transition shaft (10) and the transition shaft (10) is in transmission connection with the rotating shaft (7).

4. A nursery stock planting excavation apparatus as claimed in claim 3, characterized in that the telescopic assembly comprises a first connecting shaft (13) rotatably connected with the support frame (1), the first connecting shaft (13) is vertically arranged, the first connecting shaft (13) is fixedly connected with one end of a first rotating arm (14), the other end of the first rotating arm (14) is rotatably provided with one end of a second rotating arm (15), the other end of the second rotating arm (15) is fixedly connected with a second connecting shaft (16), and the second connecting shaft (16) is rotatably connected with the adjusting plate (2);

the telescopic component further comprises a limiting component which enables the adjusting plate (2) to move along the radial direction of the supporting frame (1).

5. The excavating equipment for nursery stock planting according to claim 4, wherein the limiting assembly comprises a connecting shaft III (17) which is rotationally connected with the supporting frame (1), the connecting shaft III (17) is horizontally arranged, one end of a rotating arm III (18) is fixed on the connecting shaft III (17), one end of a rotating arm IV (19) is rotationally installed on the other end of the rotating arm III (18), a connecting shaft IV (20) is fixedly arranged on the other end of the rotating arm IV (19), and the connecting shaft IV (20) is rotationally connected with the adjusting plate (2).

6. The excavating equipment for nursery stock planting according to claim 5, wherein the intermediate shaft (21) is rotatably installed on the support frame (1) between two adjacent connecting shafts (13) except for the two connecting shafts (13) on two sides of the notch, the adjacent intermediate shaft (21) is in transmission connection with the connecting shaft (13), the support frame (1) is fixedly provided with the motor (23), and the motor (23) is in transmission connection with one connecting shaft (13).

7. The excavating equipment for nursery stock planting according to claim 6, further comprising an excavator main body, wherein the excavator main body comprises travelling wheels (25), a frame (26) rotatably mounted on the travelling wheels (25), the frame (26) is fixedly provided with a first power arm (27), the first power arm (27) is rotatably mounted with a second power arm (28), an oil cylinder (29) for driving the second power arm (28) to rotate is mounted on the first power arm (27), a fixing frame (30) is rotatably mounted on the second power arm (28), and an oil cylinder (31) for driving the fixing frame (30) to rotate is mounted on the second power arm (28);

the supporting frame (1) is connected with the fixing frame (30).

8. An excavating equipment for nursery stock growing according to claim 7, characterized in that the support frame (1) is fixed with a baffle (32), the baffle (32) being in contact with one of the rotating arms three (18).