CN116868724A - Adjustable excavating device for seedling planting - Google Patents

Abstract

The invention provides an adjustable excavating device for nursery stock planting, which relates to the technical field of pit excavating devices and comprises a vehicle body; the vehicle body is provided with a first adjusting part. Be provided with the third adjustment part, after the second electric telescopic handle damage, can't realize the perpendicular to the adjustment of digging pit part this moment, through microprocessor control fourth electric telescopic handle flexible this moment can, the practicality is strengthened and should be acute, can replace the flexible adjustment of second electric telescopic handle through the extension of second electric telescopic handle, still can realize the perpendicular adjustment of digging pit part after the second electric telescopic handle damages, current equipment of digging pit needs to operate through a plurality of control rods of manual adjustment when the digging pit, intelligent degree is lower, and will not realize adjustment and digging pit after the perpendicular adjusting part damages, just can continue the work after need maintenance, the problem of influencing digging pit efficiency.

Description

Adjustable excavating device for seedling planting

Technical Field

The invention relates to the technical field of pit digging devices, in particular to an adjustable pit digging device for seedling planting.

Background

When the seedlings are planted, the pit is dug firstly, and then the seedlings are planted in the dug pit. The pit digging device is low in pit digging efficiency through manual operation, pit digging equipment is required to realize pit digging, at present, the pit digging equipment is required to operate through manual adjustment of a plurality of control rods during pit digging, the intelligent degree is low, adjustment and pit digging can not be realized after a vertical adjusting piece is damaged, maintenance is required, work can be continued, and pit digging efficiency is affected.

Disclosure of Invention

In view of the above, the invention provides an adjustable excavating device for nursery stock planting, which solves the problems that the prior excavating equipment needs to be operated by manually adjusting a plurality of control rods when excavating pits, the intelligent degree is low, the adjustment and the pit excavation can not be realized after the vertical adjusting piece is damaged, the working can be continued after maintenance is needed, and the pit excavating efficiency is affected.

The invention discloses a seedling planting adjustable excavation device, which is characterized by comprising the following specific technical means:

the invention provides an adjustable excavating device for nursery stock planting, which specifically comprises the following steps: a vehicle body;

the vehicle body is provided with a first adjusting part.

Further, the first adjusting part consists of a large worm wheel, a rotating seat, a driving motor A and a large worm, and the large worm wheel is rotatably connected to the vehicle body;

two rotating seats are welded on the vehicle body, a large worm is rotationally connected to the two rotating seats, a driving motor A is fixed on one rotating seat at the rear side, and the rotating shaft of the driving motor A is connected with the large worm; the large worm wheel is provided with a second adjusting part; the second adjusting part comprises a base, a first mounting block, a first electric telescopic rod, a first guide rod, a second mounting block, a second electric telescopic rod, a second guide rod, a third mounting block and a third electric telescopic rod, wherein the base is fixed on the large worm wheel, the first mounting block is connected to the base in a sliding manner, and the first electric telescopic rod for adjusting the position of the first mounting block is mounted on the base.

Further, two first guide rods are symmetrically welded on the top end surface of the first installation block, a second installation block is connected to the two first guide rods in a sliding mode, and a second electric telescopic rod for adjusting the second installation block up and down is installed between the second installation block and the first installation block; two second guide rods are symmetrically welded on the second installation blocks, third installation blocks are connected to the two second guide rods in a sliding mode, and a third electric telescopic rod for adjusting the position of the third installation blocks is arranged between the second installation blocks and the third installation blocks.

Further, a third adjusting part is arranged on the bottom end surface of the third mounting block;

the third adjusting part consists of a fourth electric telescopic rod, a rectangular plate and a third guide rod, the fourth electric telescopic rod is fixed at the bottom end surface of the third installation block, the rectangular plate is installed at one end below the fourth electric telescopic rod, the third guide rod is welded at the top end surface of the rectangular plate, and the third guide rod is slidably connected to the third installation block;

when the vertical adjustment of the pit digging part is needed, the microprocessor controls the second electric telescopic rod to stretch out and draw back, and when the second electric telescopic rod stretches out and draws back, the vertical adjustment of the second installation block can be realized, and at the moment, the vertical adjustment of the pit digging part is also realized;

when the horizontal position of the pit digging part is required to be adjusted, the microprocessor controls the third electric telescopic rod to stretch out and draw back, when the third electric telescopic rod stretches out and draws back, the horizontal position of the third installation block can be adjusted, and when the third installation block carries out the horizontal position adjustment, the position adjustment of the pit digging part is also realized;

after the second electric telescopic rod is damaged, the vertical adjustment of the pit digging part cannot be realized at this time, and the fourth electric telescopic rod is controlled to stretch out and draw back through the microprocessor at this time, so that the practicability and the emergency are enhanced.

Further, a pit digging part is arranged on the rectangular plate; the pit digging part consists of a driving motor B, a mounting seat, a digging plate, a locking screw, an adjusting arm, an adjusting block and a groove, wherein the driving motor B is fixed on the bottom end surface of the rectangular plate, the mounting seat is arranged on the rotating shaft of the driving motor B, and the digging plate is arranged on the mounting seat; the connection relation between the digging plate and the mounting seat is sliding connection, and the mounting seat is in threaded connection with a locking screw rod for locking the digging plate.

Furthermore, the handle of the locking screw is welded with an adjusting arm in an annular array shape, the handle of the locking screw is welded with an adjusting block, and the adjusting block is of a hexagonal structure; the device comprises a main body, a locking screw rod, a driving motor B, a microprocessor, a mounting seat, a digging plate, a locking screw rod, a digging plate and a locking device, wherein the digging plate is provided with a groove which is in a rectangular groove-shaped structure, the locking screw rod is in contact with the bottom of the groove, when a pit is dug, the microprocessor controls the driving motor B to rotate, and when the driving motor B rotates, the mounting seat and the digging plate can be driven to rotate, so that the pit digging action is realized; when the angle of the pit is required to be adjusted, the locking screw is unscrewed, then the position of the soil digging plate on the mounting seat is adjusted, then the locking screw is screwed, in the adjusting process, the adjusting arms are welded in an annular array shape at the handle of the locking screw, the adjusting blocks are welded on the handle of the locking screw, and the adjusting blocks are of a hexagonal structure, so that on one hand, the adjusting can be carried out through the adjusting arms, and on the other hand, when the adjusting is laborious through the adjusting arms, a large spanner can be used for being clamped with the adjusting blocks and rotated; in the use, because the locking screw rod contacts with the tank bottom of the groove, the locking screw rod can not hurt the soil digging plate when being screwed up, and the smoothness of the soil digging plate during subsequent adjustment is ensured.

Further, the first mounting block is provided with a purifying part;

the purifying part consists of a water storage box, an air pump, a connecting pipe, an air suction pipe and an air hole, wherein the water storage box is filled with filtered liquid, the air pump is arranged on a cover plate at the top of the water storage box, and a discharge pipe of the air pump is connected with the water storage box;

the air suction pipe is of a cylindrical tubular structure, air holes are formed in the outer wall of the air suction pipe in an annular array shape, the air holes formed in the annular array shape form a diffusion type air suction structure of the air suction pipe together, the air suction pipe is located near a pit digging part, when dust removal and purification are needed, the microprocessor controls the air suction pump to work, and at the moment, air is sucked into the air suction pump and then discharged into the water storage box for filtration.

Further, install the control box on the automobile body, install microprocessor in the control box, microprocessor is connected with the remote controller through wireless, installs dust sensor in the control box outside, microprocessor and driving motor A, first electric telescopic handle, second electric telescopic handle, third electric telescopic handle and driving motor B electrical property link to each other, when using, realize angle adjustment and excavation work through microprocessor control driving motor A, first electric telescopic handle, second electric telescopic handle, third electric telescopic handle and driving motor B work.

The beneficial effects are that: the device comprises a digging part, wherein when the size of the digging angle is required to be adjusted, a locking screw is unscrewed, then the position of a digging plate on a mounting seat is adjusted, then the locking screw is screwed, an adjusting arm is welded in an annular array shape at the handle of the locking screw in the adjusting process, an adjusting block is welded on the handle of the locking screw, and the adjusting block is of a hexagonal structure; secondly, because the locking screw rod contacts with the bottom of the groove, the locking screw rod can not hurt the digging plate when being screwed up, and the smoothness of the digging plate during subsequent adjustment is ensured.

The third adjusting part is arranged, after the second electric telescopic rod is damaged, the vertical adjustment of the digging part cannot be realized at the moment, the fourth electric telescopic rod is controlled to stretch out and draw back through the microprocessor, the practicability and the stress are enhanced, the stretching of the second electric telescopic rod can replace the stretching adjustment of the second electric telescopic rod, and the vertical adjustment of the digging part can still be realized after the second electric telescopic rod is damaged.

Be provided with purification portion, when needs carry out dust removal purification, microprocessor control aspiration pump work can, and gaseous being inhaled the aspiration pump then discharge this moment is filtered in the retaining box, through the absorption that can the dust, avoided the dust to inhale internal the leading to influence staff's healthy by the staff.

The intelligent excavator is provided with a control box and a microprocessor, when in use, the microprocessor can be controlled to work through a remote controller, and the driving motor A, the first electric telescopic rod, the second electric telescopic rod, the third electric telescopic rod and the driving motor B are controlled to work through the microprocessor, so that the angle adjustment and the excavating work are realized, and the intelligent degree is improved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is an isometric view structure schematic diagram of an adjustable excavation device for seedling planting in the invention;

FIG. 2 is a schematic top view of the adjustable excavation device for planting nursery stock of the present invention;

FIG. 3 is a schematic diagram of the rotated isometric view of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A in accordance with the present invention;

FIG. 5 is a schematic diagram of an isometric view of a pit art of the present invention;

FIG. 6 is a schematic diagram of an isometric view of a decontamination portion of the present invention;

FIG. 7 is a schematic view of the left-hand construction of the pit art of the present invention;

fig. 8 is an enlarged schematic view of the structure of fig. 7 at B according to the present invention.

Reference numerals are given to

1. A vehicle body; 2. a first adjustment section; 201. a large worm wheel; 202. a rotating seat; 203. a driving motor A; 204. a large worm; 3. a second adjusting portion; 301. a base; 302. a first mounting block; 303. a first electric telescopic rod; 304. a first guide bar; 305. a second mounting block; 306. a second electric telescopic rod; 307. a second guide bar; 308. a third mounting block; 309. a third electric telescopic rod; 4. a third adjusting section; 401. a fourth electric telescopic rod; 402. a rectangular plate; 403. a third guide bar; 5. digging a pit part; 501. a driving motor B; 502. a mounting base; 503. an excavating plate; 504. locking the screw rod; 505. an adjustment arm; 506. adjusting the block; 507. a groove; 6. a purifying section; 601. a water storage box; 602. an air extracting pump; 603. a connecting pipe; 604. an air suction pipe; 605. air holes; 7. and a control box.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Embodiment one: please refer to fig. 1 to 8:

the invention provides an adjustable excavating device for seedling planting, which comprises the following components: a vehicle body 1;

the vehicle body 1 is mounted with a first adjusting portion 2.

The first adjusting part 2 consists of a large worm wheel 201, a rotating seat 202, a driving motor A203 and a large worm 204, wherein the large worm wheel 201 is rotatably connected to the vehicle body 1;

two rotating seats 202 are welded on the vehicle body 1, a large worm 204 is connected to the two rotating seats 202 in a rotating mode, a driving motor A203 is fixed to one rotating seat 202 on the rear side, and a rotating shaft of the driving motor A203 is connected with the large worm 204.

Wherein the large worm wheel 201 is provided with a second adjusting part 3;

the second adjusting part 3 is composed of a base 301, a first mounting block 302, a first electric telescopic rod 303, a first guide rod 304, a second mounting block 305, a second electric telescopic rod 306, a second guide rod 307, a third mounting block 308 and a third electric telescopic rod 309, the base 301 is fixed on the large worm wheel 201, the first mounting block 302 is slidingly connected to the base 301, and the first electric telescopic rod 303 for adjusting the position of the first mounting block 302 is mounted on the base 301.

Wherein, two first guide rods 304 are symmetrically welded on the top end surface of the first installation block 302, a second installation block 305 is slidably connected on the two first guide rods 304, and a second electric telescopic rod 306 for adjusting the second installation block 305 up and down is installed between the second installation block 305 and the first installation block 302.

Two second guide rods 307 are symmetrically welded on the second mounting block 305, a third mounting block 308 is slidably connected on the two second guide rods 307, and a third electric telescopic rod 309 for adjusting the position of the third mounting block 308 is arranged between the second mounting block 305 and the third mounting block 308.

Wherein the bottom end surface of the third mounting block 308 is mounted with a third adjusting portion 4;

the third adjusting part 4 consists of a fourth electric telescopic rod 401, a rectangular plate 402 and a third guide rod 403, wherein the fourth electric telescopic rod 401 is fixed on the bottom end surface of the third installation block 308, the rectangular plate 402 is installed at one end below the fourth electric telescopic rod 401, the third guide rod 403 is welded on the top end surface of the rectangular plate 402, the third guide rod 403 is slidably connected to the third installation block 308, when the angle of the pit digging part 5 needs to be adjusted, the microprocessor controls the driving motor A203 to rotate at the moment, the large worm 204 can be driven to rotate when the driving motor A203 rotates, the large worm wheel 201 can be driven to rotate through the large worm 204, and the angle adjustment of the pit digging part 5 can be realized when the large worm wheel 201 rotates;

when the vertical adjustment of the pit digging part 5 is needed, the microprocessor controls the second electric telescopic rod 306 to stretch and retract, and when the second electric telescopic rod 306 stretches and contracts, the vertical adjustment of the second installation block 305 can be realized, and at the moment, the vertical adjustment of the pit digging part 5 is also realized;

when the horizontal position of the pit digging part 5 needs to be adjusted, the microprocessor controls the third electric telescopic rod 309 to stretch and retract, when the third electric telescopic rod 309 stretches and contracts, the horizontal position of the third installation block 308 can be adjusted, and when the third installation block 308 carries out the horizontal position adjustment, the position adjustment of the pit digging part 5 is also realized;

after the second electric telescopic rod 306 is damaged, the vertical adjustment of the pit digging part 5 cannot be realized at this time, and the fourth electric telescopic rod 401 is controlled to stretch out and draw back through the microprocessor, so that the practicability and the emergency are enhanced.

Embodiment two: on the basis of the first embodiment, as shown in fig. 3, fig. 4, fig. 7 and fig. 8, the method further includes: pit digging part 5, pit digging part 5 is installed on rectangular plate 402;

the pit digging part 5 consists of a driving motor B501, a mounting seat 502, a digging plate 503, a locking screw 504, an adjusting arm 505, an adjusting block 506 and a groove 507, wherein the driving motor B501 is fixed on the bottom end surface of the rectangular plate 402, the mounting seat 502 is arranged on the rotating shaft of the driving motor B501, and the digging plate 503 is arranged on the mounting seat 502.

The connection relationship between the digging plate 503 and the mounting base 502 is a sliding connection, and a locking screw 504 for locking the digging plate 503 is screwed on the mounting base 502.

Wherein, the handle of the locking screw 504 is welded with an adjusting arm 505 in an annular array shape, the handle of the locking screw 504 is welded with an adjusting block 506, and the adjusting block 506 has a hexagonal structure.

The digging plate 503 is provided with a groove 507, the groove 507 is in a rectangular groove structure, the locking screw 504 is in contact with the bottom of the groove 507, when digging a pit, the microprocessor controls the driving motor B501 to rotate, and when the driving motor B501 rotates, the mounting seat 502 and the digging plate 503 can be driven to rotate, so that the pit digging action is realized;

when the angle of the pit is required to be adjusted, the locking screw rod 504 is unscrewed, then the position of the soil digging plate 503 on the mounting seat 502 is adjusted, then the locking screw rod 504 is screwed, in the adjusting process, an adjusting arm 505 is welded at the handle of the locking screw rod 504 in an annular array shape, an adjusting block 506 is welded at the handle of the locking screw rod 504, and the adjusting block 506 is in a hexagonal structure, so that on one hand, the adjustment can be performed through the adjusting arm 505, and on the other hand, when the adjustment through the adjusting arm 505 is laborious, a large spanner can be used for being clamped with the adjusting block 506 and rotating the spanner;

in the use process, as the locking screw rod 504 is contacted with the bottom of the groove 507, the locking screw rod 504 can not hurt the digging plate 503 when being screwed up, thereby ensuring the smoothness of the digging plate 503 when being adjusted subsequently.

Embodiment III: on the basis of the second embodiment, as shown in fig. 3 and 6, the method further includes: a purifying part 6 and a control box 7, the purifying part 6 is installed on the first installation block 302;

the purifying part 6 consists of a water storage box 601, an air pump 602, a connecting pipe 603, an air suction pipe 604 and an air hole 605, wherein the water storage box 601 is filled with filtered liquid, the air pump 602 is arranged on a cover plate at the top of the water storage box 601, and a discharge pipe of the air pump 602 is connected with the water storage box 601;

the air suction pump 602 is connected with a connecting pipe 603, the connecting pipe 603 is connected with an air suction pipe 604, the air suction pipe 604 is of a cylindrical tubular structure, air holes 605 are formed in the outer wall of the air suction pipe 604 in a ring array shape, the air holes 605 formed in the ring array shape jointly form a diffusion type air suction structure of the air suction pipe 604, the air suction pipe 604 is located near the pit digging part 5, when dust removal and purification are needed, the microprocessor controls the air suction pump 602 to work, and at the moment, air is sucked into the air suction pump 602 and then discharged into the water storage box 601 for filtration.

Wherein, install control box 7 on the automobile body 1, install microprocessor in the control box 7, microprocessor is connected with the remote controller through wireless, dust sensor is installed in the control box 7 outside, microprocessor links to each other with driving motor A203, first electric telescopic handle 303, second electric telescopic handle 306, third electric telescopic handle 309 and driving motor B501 electricity, when using, through microprocessor control driving motor A203, first electric telescopic handle 303, second electric telescopic handle 306, third electric telescopic handle 309 and driving motor B501 work realization angle adjustment and excavation work.

Specific use and action of the embodiment:

in use, the operation of the driving motor a203, the first electric telescopic rod 303, the second electric telescopic rod 306, the third electric telescopic rod 309 and the driving motor B501 is controlled by the microprocessor to realize the angle adjustment and the excavating operation.

When the angle of the pit digging part 5 needs to be adjusted, the microprocessor controls the driving motor A203 to rotate, the large worm 204 can be driven to rotate when the driving motor A203 rotates, the large worm wheel 201 can be driven to rotate through the large worm 204, and the angle adjustment of the pit digging part 5 can be realized when the large worm wheel 201 rotates;

when the vertical adjustment of the pit digging part 5 is needed, the microprocessor controls the second electric telescopic rod 306 to stretch and retract, and when the second electric telescopic rod 306 stretches and contracts, the vertical adjustment of the second installation block 305 can be realized, and at the moment, the vertical adjustment of the pit digging part 5 is also realized;

when the horizontal position of the pit digging part 5 needs to be adjusted, the microprocessor controls the third electric telescopic rod 309 to stretch and retract, when the third electric telescopic rod 309 stretches and contracts, the horizontal position of the third installation block 308 can be adjusted, and when the third installation block 308 carries out the horizontal position adjustment, the position adjustment of the pit digging part 5 is also realized;

when the second electric telescopic rod 306 is damaged, the vertical adjustment of the pit digging part 5 cannot be realized at the moment, and the fourth electric telescopic rod 401 is controlled to stretch and retract through the microprocessor at the moment, so that the practicability and the emergency are enhanced;

when the pit is dug, the microprocessor controls the driving motor B501 to rotate, and when the driving motor B501 rotates, the mounting seat 502 and the digging plate 503 can be driven to rotate, so that the pit digging action is realized;

when the angle of the pit is required to be adjusted, the locking screw rod 504 is unscrewed, then the position of the soil digging plate 503 on the mounting seat 502 is adjusted, then the locking screw rod 504 is screwed, in the adjusting process, an adjusting arm 505 is welded at the handle of the locking screw rod 504 in an annular array shape, an adjusting block 506 is welded at the handle of the locking screw rod 504, and the adjusting block 506 is in a hexagonal structure, so that on one hand, the adjustment can be performed through the adjusting arm 505, and on the other hand, when the adjustment through the adjusting arm 505 is laborious, a large spanner can be used for being clamped with the adjusting block 506 and rotating the spanner;

in the use process, as the locking screw rod 504 is contacted with the bottom of the groove 507, the locking screw rod 504 can not hurt the digging plate 503 when being screwed up, thereby ensuring the smoothness of the digging plate 503 when being adjusted subsequently;

when the dust removal and purification are needed, the microprocessor controls the air pump 602 to work, and at the moment, the air is sucked into the air pump 602 and then discharged into the water storage box 601 for filtration.

Claims (10)

1. The adjustable excavating device for seedling planting is characterized by comprising a vehicle body (1); the vehicle body (1) is provided with a first adjusting part (2); the first adjusting part (2) consists of a large worm wheel (201), a rotating seat (202), a driving motor A (203) and a large worm (204), and the large worm wheel (201) is rotatably connected to the vehicle body (1); two rotating seats (202) are welded on the vehicle body (1), a large worm (204) is rotationally connected to the two rotating seats (202), a driving motor A (203) is fixed on one rotating seat (202) at the rear side, and the rotating shaft of the driving motor A (203) is connected with the large worm (204); the large worm wheel (201) is provided with a second adjusting part (3); the second adjusting part (3) is composed of a base (301), a first mounting block (302), a first electric telescopic rod (303), a first guide rod (304), a second mounting block (305), a second electric telescopic rod (306), a second guide rod (307), a third mounting block (308) and a third electric telescopic rod (309), wherein the base (301) is fixed on the large worm wheel (201), the first mounting block (302) is connected to the base (301) in a sliding manner, and the first electric telescopic rod (303) for adjusting the position of the first mounting block (302) is mounted on the base (301).

2. An adjustable excavation means for nursery stock planting as set forth in claim 1, wherein: two first guide rods (304) are symmetrically welded on the top end surface of the first installation block (302), a second installation block (305) is connected to the two first guide rods (304) in a sliding mode, and a second electric telescopic rod (306) used for adjusting the second installation block (305) up and down is installed between the second installation block (305) and the first installation block (302).

3. An adjustable excavation means for nursery stock planting as set forth in claim 2, wherein: two second guide rods (307) are symmetrically welded on the second installation block (305), a third installation block (308) is connected to the two second guide rods (307) in a sliding mode, and a third electric telescopic rod (309) used for adjusting the position of the third installation block (308) is arranged between the second installation block (305) and the third installation block (308).

4. A nursery stock planting adjustable excavation device as claimed in claim 3, wherein: a third adjusting part (4) is arranged on the bottom end surface of the third mounting block (308);

the third adjusting part (4) comprises a fourth electric telescopic rod (401), a rectangular plate (402) and a third guide rod (403), the fourth electric telescopic rod (401) is fixed on the bottom end face of the third installation block (308), the rectangular plate (402) is installed at one end below the fourth electric telescopic rod (401), the third guide rod (403) is welded on the top end face of the rectangular plate (402), and the third guide rod (403) is connected to the third installation block (308) in a sliding mode.

5. The adjustable excavation device for nursery stock planting as set forth in claim 4, wherein: a pit digging part (5) is arranged on the rectangular plate (402);

the pit digging part (5) consists of a driving motor B (501), a mounting seat (502), a digging plate (503), a locking screw (504), an adjusting arm (505), an adjusting block (506) and a groove (507), wherein the driving motor B (501) is fixed on the bottom end surface of the rectangular plate (402), the mounting seat (502) is mounted on the rotating shaft of the driving motor B (501), and the digging plate (503) is mounted on the mounting seat (502).

6. The adjustable excavation device for nursery stock planting as set forth in claim 5, wherein: the connection relation between the digging plate (503) and the mounting seat (502) is sliding connection, and the mounting seat (502) is in threaded connection with a locking screw rod (504) for locking the digging plate (503).

7. The adjustable excavation means for nursery stock planting as set forth in claim 6, wherein: the handle of the locking screw (504) is welded with an adjusting arm (505) in an annular array shape, the handle of the locking screw (504) is welded with an adjusting block (506), and the adjusting block (506) is of a hexagonal structure.

8. The adjustable excavation means for nursery stock planting as set forth in claim 6, wherein: a groove (507) is formed in the soil digging plate (503), the groove (507) is of a rectangular groove-shaped structure, and the locking screw (504) is in contact with the bottom of the groove (507).

9. An adjustable excavation means for nursery stock planting as set forth in claim 1, wherein: the first mounting block (302) is provided with a purifying part (6);

the purifying part (6) consists of a water storage box (601), an air pump (602), a connecting pipe (603), an air suction pipe (604) and an air hole (605), wherein the water storage box (601) is internally filled with filtered liquid, the air pump (602) is arranged on a cover plate at the top of the water storage box (601), and a discharge pipe of the air pump (602) is connected with the water storage box (601);

the air suction pump (602) is connected with a connecting pipe (603), the connecting pipe (603) is connected with an air suction pipe (604), the air suction pipe (604) is of a cylindrical tubular structure, air holes (605) are formed in an annular array shape on the outer wall of the air suction pipe (604), the annular array-shaped air holes (605) jointly form a diffusion type air suction structure of the air suction pipe (604), and the air suction pipe position (604) is located near the pit digging part (5).

10. An adjustable excavation means for nursery stock planting as set forth in claim 1, wherein: install control box (7) on automobile body (1), install microprocessor on control box (7) in, dust sensor is installed in the control box (7) outside, microprocessor and driving motor A (203), first electric telescopic handle (303), second electric telescopic handle (306), third electric telescopic handle (309) and driving motor B (501) electrical property link to each other, realize angle adjustment and excavation work through microprocessor control driving motor A (203), first electric telescopic handle (303), second electric telescopic handle (306), third electric telescopic handle (309) and driving motor B (501) work when using.