CN112056046A - Nursery stock is transplanted with boring native device - Google Patents

Abstract

The utility model relates to a nursery stock is transplanted and is used brill native device, relate to nursery stock transplantation technical field, including standing subaerial support frame, sliding connection has the backup pad on the support frame, the backup pad is located the inside of support frame, the backup pad slides from top to bottom along the support frame direction of height, it is connected with the pivot to rotate in the backup pad, be equipped with helical blade in the pivot side, be equipped with the driving piece in the backup pad, the output and the pivot of driving piece are connected, the driving piece is located the top of backup pad, be equipped with the broken cone in the pivot, the broken cone is located the one end of keeping away from the backup pad in the pivot, be equipped with the broken plate on the helical blade, the broken cone is the triangular cone, the triangular cone is coaxial with the pivot, there is the clearance between broken plate and the pivot, and the clearance distance between broken plate and. This application has improved the staff and has carried out the used hole punching efficiency of nursery stock transplantation.

Description

Nursery stock is transplanted with boring native device

Technical Field

The utility model belongs to the technical field of nursery stock transplanting technique and specifically relates to a nursery stock is transplanted with boring native device is related to.

Background

The seedlings cultivated by the sowing or nutrition propagation method have high seedling density, each seedling occupies small nutrition space, and the seedlings to be cultivated must be transplanted. Can be transplanted for one time or a plurality of times according to the requirements of landscaping on nursery stocks of various specifications and the requirements of cultivation modes. Transplanting can enlarge the nutrition space for seedling growth, such as illumination space, ventilation space, branch growth space, root growth space, water absorption space and nutrition space. The pruning to the root system during transplanting can also stimulate the development of the root system of the seedling, so that fibrous roots are grown more, and the greening survival rate is improved.

Before the seedling is transplanted, workers need to perform punching operation on the ground in advance, then transplant the seedling into holes on the ground, and bury the seedling back in the soil. However, when drilling is carried out at present, a drill bit of the soil drilling device is not easy to be driven into the ground, so that the drilling efficiency of workers is affected.

Disclosure of Invention

In order to improve the efficiency of punching that the staff carried out the used hole of nursery stock transplantation, this application provides a nursery stock is transplanted with boring native device.

The application provides a pair of nursery stock is transplanted with boring native device adopts following technical scheme:

the utility model provides a nursery stock is transplanted with boring native device, includes and stands at subaerial support frame, sliding connection has the backup pad on the support frame, and the backup pad is located the inside of support frame, and the backup pad slides from top to bottom along the support frame direction of height, rotates in the backup pad and is connected with the pivot, is equipped with helical blade in the pivot side, be equipped with the driving piece in the backup pad, the output and the pivot of driving piece are connected, and the driving piece is located the top of backup pad, be equipped with the broken soil awl in the pivot, the broken soil awl is located the one end of keeping away from the backup pad in the pivot, be equipped with the board that breaks.

Through adopting above-mentioned technical scheme, when needs punch the operation to ground, the staff places the support frame behind subaerial suitable position earlier, the staff loosens the backup pad on the support frame, make pivot perpendicular to ground, broken awl supports subaerial this moment, then start the driving piece, the driving piece drives the pivot and rotates, broken awl and helical blade rotate along with the pivot is synchronous, broken awl is along with rotating in the gradual drilling into soil, thereby gradually driving helical blade and entering into in the soil, helical blade punches gradually ground again, and bring out ground with the soil, and carry out the in-process that punches at helical blade, the work that breaks ground also can be carried out to the board that breaks ground, thereby be convenient for helical blade punch and bring out ground with the soil.

Optionally, the ground breaking cone is a triangular cone, and the triangular cone is coaxial with the rotating shaft.

Through adopting above-mentioned technical scheme, broken soil awl is through using the triangular pyramid, and the pointed end of triangular pyramid stretches into ground in back, and the triangular pyramid is carrying out the pivoted in-process, and for other centrums soil that becomes flexible more easily.

Optionally, a gap exists between the ground breaking plate and the rotating shaft, and the gap distance between the ground breaking plate and the rotating shaft is increased along with the distance from the support plate.

Through adopting above-mentioned technical scheme for broken soil board can carry out better not hard up to the soil between broken soil board and the pivot, and the helical blade of being convenient for punches to soil.

Optionally, be equipped with the hack board in the pivot, the hack board is located helical blade inside, there is the clearance between hack board and the helical blade.

Through adopting above-mentioned technical scheme, through set up the hack board in the pivot to at the in-process that helical blade drove soil and rise, the hack board can be broken to the great clod of part, makes helical blade can be better take out soil.

Optionally, the support frame includes five landing legs and a connecting ring for connecting the five landing legs, the five landing legs are uniformly distributed along the circumferential direction of the connecting ring, the landing legs are provided with protrusions, the support plate is provided with chutes, and the support plate is slidably connected with the protrusions through the chutes.

Through adopting above-mentioned technical scheme for the backup pad can be through better the sliding on the bellying of landing leg of spout, and then makes that pivot and helical blade can be better drill ground.

Optionally, the number of the connecting rings is multiple, and the connecting rings are uniformly distributed along the height direction of the support leg.

Through adopting above-mentioned technical scheme, establish to a plurality ofly through the quantity with the go-between to the stability of connecting between five landing legs has been increased, makes the backup pad can be on the landing leg more stable remove.

Optionally, the protruding portion is provided with a limiting portion, and the support plate is in a state of abutting against the limiting portion.

Through adopting above-mentioned technical scheme, through set up spacing portion on the bellying to in-process that pivot and helical blade carried out drilling, spacing portion can play spacing effect to the backup pad, carries out the degree of depth that moves down to come the control hole through control pivot.

Optionally, the bottom of the landing leg is provided with a connecting plate, the connecting plate is provided with a through hole, the connecting plate is provided with a wedge, and the wedge penetrates through the through hole.

Through adopting above-mentioned technical scheme for bore native device when driling, improved the stability of support frame.

Optionally, the mounting frame further comprises a mounting frame and a traction device, one end of the mounting frame is hinged to the connecting ring, the other end of the mounting frame is a free end, the free end of the mounting frame is mounted on the traction device, and the traction device can drive the mounting frame to rotate.

Through adopting above-mentioned technical scheme, when the staff used to bore native device and punch, the staff can install the mounting bracket on draw gear to utilize draw gear to drive through the mounting bracket and bore native device and remove, after boring native device and reacing suitable position, put down the native device of will boring and punch, reduced the staff and transported the intensity of labour who bores native device.

Optionally, the hydraulic device further comprises a hydraulic cylinder arranged on the traction device, a cylinder body of the hydraulic cylinder is hinged with the traction device, a piston rod of the hydraulic cylinder is hinged with the supporting leg, and a hydraulic oil path of the hydraulic cylinder is connected to a hydraulic oil path of the traction device.

Through adopting above-mentioned technical scheme, drive mounting bracket and support frame at draw gear and carry out the in-process that removes, the staff stretches out and draws back through the piston rod of adjusting the pneumatic cylinder to the support frame of being convenient for shifts.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the operation punches to ground in needs, the staff places the support frame behind subaerial suitable position earlier, the backup pad on the support frame is loosened to the staff, make pivot perpendicular to ground, the awl that breaks ground supports subaerial this moment, then start the driving piece, the driving piece drives the pivot and rotates, the awl and helical blade rotate along with the pivot is synchronous, the awl that breaks ground is along with rotating in the gradual boring into soil, thereby gradually driving helical blade and entering into in the soil, helical blade punches gradually again ground, and bring out ground with the soil, and the in-process that punches is carried out at helical blade, the work that breaks ground also can be carried out to the board that breaks ground, thereby the helical blade of being convenient for punches and takes out ground with the soil.

2. Broken awl is through using the triangular pyramid, and the pointed end of triangular pyramid stretches into behind the ground in, and the triangular pyramid is carrying out the pivoted in-process, and for other centrums soil that becomes flexible more easily.

3. Through set up the hack board in the pivot to at the in-process that helical blade drove soil and rise, the hack board can be broken to the great clod of part, makes helical blade can be better take out soil.

Drawings

Fig. 1 is a partial structural schematic diagram of an embodiment of the present application.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a schematic overall structure diagram of an embodiment of the present application.

Description of reference numerals: 11. a support frame; 111. a support leg; 112. a connecting ring; 1111. a boss portion; 1112. a limiting part; 113. a connecting plate; 114. a wedge; 12. a support plate; 121. a chute; 13. a rotating shaft; 14. a helical blade; 15. a drive member; 21. a soil breaking cone; 22. a ground breaking plate; 23. a soil crushing plate; 3. a mounting frame; 4. a traction device; 5. and a hydraulic cylinder.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses nursery stock is transplanted with boring native device.

Referring to fig. 1, nursery stock is transplanted with boring native device includes support frame 11, sliding connection has backup pad 12 on support frame 11, rotating connection has pivot 13 in the backup pad 12, be equipped with helical blade 14 in the pivot 13, when needs carry out the drilling operation to ground, the staff stands support frame 11 subaerial, make pivot 13 support subaerial, then start driving piece 15, driving piece 15 drives pivot 13 and rotates, helical blade 14 carries out synchronous rotation with pivot 13, pivot 13 drills to ground with helical blade 14.

Referring to fig. 1 and 2, the support frame 11 includes five legs 111 and a connection ring 112 for connecting the five legs 111, after the connection ring 112 is connected to the five legs 111, the five legs 111 are uniformly distributed in a ring shape along a circumferential direction of the connection ring 112, the five legs 111 are parallel to each other, in order to make the connection between the five legs 111 more stable, the number of the connection rings 112 may be provided in plural at the same time, and the connection rings 112 are distributed along a height direction of the legs 111.

In other embodiments, the number of legs 111 may also be three, four, six, seven … ….

The five support legs 111 are fixedly connected with the inner wall of the connecting ring 112, the support legs 111 are provided with protrusions 1111, the protrusions 1111 face the center direction of the connecting ring 112, the protrusions 1111 are sliding rails, and the cross sections of the protrusions 1111 are triangular. The support plate 12 is a circular plate, five slide grooves 121 are provided in the support plate 12, the five slide grooves 121 are uniformly distributed along the axis of the support plate 12, and when the support plate 12 is mounted on the leg 111, the protrusion 1111 is located in the slide groove 121, the support plate 12 abuts against the protrusion 1111, and the support plate 12 slides up and down on the protrusion 1111.

Referring to fig. 1 and 2, in order to limit the drilling depth of the spiral blade 14 when the rotary shaft 13 and the spiral blade 14 perform rotary drilling, the boss 1111 of the leg 111 is provided with a stopper 1112, the stoppers 1112 on the five legs 111 are at the same height, and after the rotary shaft 13-stage spiral blade 14 reaches the drilling depth, the support plate 12 abuts on the stopper 1112, so that the support plate 12 cannot slide down on the boss 1111 any more, and further the rotary shaft 13 and the spiral blade 14 cannot continue drilling downward.

When the drilling device drills, in order to improve the stability of the rotating shaft 13 and the helical blade 14 during drilling, the connecting plate 113 is arranged at the bottom of the supporting leg 111, a through hole is formed in the connecting plate 113, after the support frame 11 is placed on the ground by an operator, the connecting plate 113 is located on the ground, the operator can punch the wedge 114 into the through hole in the connecting plate 113, the wedge 114 compresses the connecting plate 113 on the ground, and the wedge 114 is used for further improving the stability of the support frame 11 on the ground.

After support plate 12 installed on support frame 11, pivot 13 is coaxial with go-between 112, and driving piece 15 is installed in the upper end of support plate 12, and the output and the pivot 13 fixed connection of driving piece 15, driving piece 15 adopt the combination of motor or motor and reduction gear, and driving piece 15 drives pivot 13 and rotates to pivot 13 punches with helical blade 14 ground.

Referring to fig. 1 and fig. 2, when pivot 13 punches ground, pivot 13 is difficult for entering into ground and is become flexible to soil, thereby influence the efficiency of punching, and then install broken cone 21 in pivot 13, broken cone 21 is located the one end of keeping away from backup pad 12 in pivot 13, broken cone 21 adopts the triangular pyramid, the triangular pyramid is coaxial with pivot 13, the most advanced orientation of triangular pyramid is kept away from one side of backup pad 12, when needs punch subaerial, the most advanced butt of triangular pyramid is subaerial, pivot 13 drives the triangular pyramid when rotating and carries out synchronous rotation. The triangular cone supports subaerial back, and pivot 13 drives the triangular cone and rotates, and when the triangular cone rotated, the junction of the side of triangular cone can be stirred the soil pond to be convenient for soil is not hard up, also can make the pivot faster enter into soil in, improved the efficiency of punching.

In other embodiments, the ground breaking cone 21 may also adopt a quadrangular pyramid or a pentagonal pyramid … ….

Referring to fig. 1 and 2, in order to further accelerate the loosening of the soil, a soil breaking plate 22 is provided on the helical blade 14, the soil breaking plate 22 is fixed on the end surface of the helical blade 14 far from the support plate 12, and the soil breaking plate 22 is located on the side of the helical blade 14 close to the soil breaking cone 21. There is a gap between the ground-breaking plate 22 and the rotary shaft 13, and the distance between the ground-breaking plate 22 and the rotary shaft 13 gradually increases from the side of the ground-breaking plate 22 close to the support plate 12 to the side away from the support plate 12. The one end that the board 22 that breaks ground is far away from helical blade 14 is most advanced, and the board 22 that breaks ground of being convenient for breaks ground to soil, and the board 22 that breaks ground is broken ground the back, and the soil between pivot 13 and the board 22 that breaks ground is comparatively not hard up, and helical blade 14 of also being convenient for takes soil out.

When the soil breaking plate 22 breaks the soil, large soil blocks may be generated, and when the helical blades 14 lift the soil, the large soil blocks are not easy to fall to two sides of the foundation pit, so that the soil breaking plate 23 is installed on the rotating shaft 13, the soil breaking plate 23 is installed on the side surface of the rotating shaft 13, and the rotating shaft 13 is perpendicular to the soil breaking plate 23. The end of the soil crushing plate 23 away from the rotating shaft 13 is pointed, so that the soil crushing plate 23 can crush large soil blocks conveniently. The soil crushing plate 23 is positioned in the middle of the helical blade 14, the number of the soil crushing plates 23 can be set to be multiple, and the plurality of soil crushing plates 23 can be distributed in a staggered mode.

Referring to fig. 3, in order to facilitate the transfer of the support frame 11, the punching efficiency of the worker is increased. Bore native device and still include mounting bracket 3 and draw gear 4, the one end of mounting bracket 3 can be articulated with go-between 112 or wherein two mutually opposite landing legs, the other end installation of mounting bracket 3 is fixed on draw gear 4, draw gear 4 can adopt power devices such as tractor, the installation of mounting bracket 3 is fixed in one of them axis of rotation of draw gear 4, draw gear 4 drives the axis of rotation and rotates, the axis of rotation drives mounting bracket 3 and rotates along the axis of rotation, then drive the rising and the decline of support frame 11.

When the earth drilling and pit digging work is not carried out, in order to better transfer the support frame 11 and the rotating shaft 13, a hydraulic cylinder 5 is also arranged on the traction device 4, the cylinder body of the hydraulic cylinder 5 is hinged on the traction device 4, and the piston rod of the hydraulic cylinder 5 is hinged on the supporting leg 111 or the connecting ring 112. Pneumatic cylinder 5 is located the below of mounting bracket 3, has the part of buckling on the mounting bracket 3, and when support frame 11 rotated to draw gear 4, support frame 11 can hug closely mounting bracket 3 and set up, and support frame 11 was located mounting bracket 3 under this moment. The cylinder body of the hydraulic cylinder 5 is connected to the hydraulic oil circuit of the traction device 4, and the hydraulic oil circuit of the traction device 4 controls the extension and contraction of the piston rod of the hydraulic cylinder 5, so that the support frame 11 is close to the mounting frame 3 or far away from the mounting frame 3. At the same time, the electric lines of the drive element 15 can also be connected to the towing installation 4.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a nursery stock is transplanted with boring native device which characterized in that: comprises a support frame (11) standing on the ground, a support plate (12) is connected on the support frame (11) in a sliding way, the support plate (12) is positioned inside the support frame (11), the support plate (12) slides up and down along the height direction of the support frame (11), a rotating shaft (13) is connected on the support plate (12) in a rotating way, a helical blade (14) is arranged on the side surface of the rotating shaft (13), a driving part (15) is arranged on the supporting plate (12), the output end of the driving part (15) is connected with the rotating shaft (13), the driving part (15) is positioned above the supporting plate (12), the rotating shaft (13) is provided with a soil breaking cone (21), the soil breaking cone (21) is positioned at one end of the rotating shaft (13) far away from the supporting plate (12), the spiral blade (14) is provided with a soil breaking plate (22), and the soil breaking plate (22) is positioned on the end face, far away from the support plate (12), of the spiral blade (14).

2. The soil drilling device for transplanting seedlings according to claim 1, wherein: the ground breaking cone (21) is a triangular cone which is coaxial with the rotating shaft (13).

3. The soil drilling device for transplanting seedlings according to claim 2, wherein: a gap exists between the ground breaking plate (22) and the rotating shaft (13), and the gap distance between the ground breaking plate (22) and the rotating shaft (13) is increased along with the distance from the support plate (12).

4. The soil drilling device for transplanting seedlings according to claim 2, wherein: be equipped with hack board (23) on pivot (13), hack board (23) are located helical blade (14) inside, there is the clearance between hack board (23) and helical blade (14).

5. The soil drilling device for transplanting seedlings according to claim 1, wherein: support frame (11) include five landing legs (111) and be used for go-between (112) that five landing legs (111) are connected, five landing legs (111) along the circumferential direction evenly distributed of go-between (112), are equipped with bellying (1111) on landing leg (111), are equipped with spout (121) on backup pad (12), backup pad (12) are through spout (121) and bellying (1111) sliding connection.

6. The soil drilling device for transplanting seedlings as claimed in claim 5, wherein: the number of the connecting rings (112) is multiple, and the connecting rings (112) are uniformly distributed along the height direction of the supporting legs (111).

7. The soil drilling device for transplanting seedlings as claimed in claim 5, wherein: the protruding portion (1111) is provided with a limiting portion (1112), and the supporting plate (12) is in a state of being abutted against the limiting portion (1112).

8. The soil drilling device for transplanting seedlings according to claim 7, wherein: the bottom of landing leg (111) is equipped with connecting plate (113), has seted up the through-hole on connecting plate (113), is equipped with wedge (114) on connecting plate (113), wedge (114) pass the through-hole.

9. The soil drilling device for transplanting seedlings as claimed in claim 5, wherein: still include mounting bracket (3) and draw gear (4), mounting bracket (3) one end is articulated with go-between (112), and the other end is the free end, and the free end of mounting bracket (3) is installed on draw gear (4), and draw gear (4) can drive mounting bracket (3) and rotate.

10. The soil drilling device for transplanting seedlings as claimed in claim 9, wherein: the hydraulic device is characterized by further comprising a hydraulic cylinder (5) arranged on the traction device (4), a cylinder body of the hydraulic cylinder (5) is hinged to the traction device (4), a piston rod is hinged to the supporting leg (111), and a hydraulic oil path of the hydraulic cylinder (5) is connected to a hydraulic oil path of the traction device (4).

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