CN214430097U - Seedling transplanting device for reducing damage of corn seedlings - Google Patents

Abstract

The application relates to a seedling transplanting device for reducing damage of corn seedlings, which comprises a bracket; the seedling transplanting pipe is arranged on the bracket and used for driving the soil near the corn seedlings; the connecting rod is arranged at one end of the support far away from the seedling transplanting pipe and is used for being grasped by personnel; wherein, be equipped with on the support and step on portion, the first portion of transplanting seedlings outside of tubes lateral wall is connected with the support, it has seted up the opening on the pipe to transplant seedlings, the opening is seted up along the axial of transplanting seedlings the pipe, be equipped with the kink on the connecting rod, the kink is located the one end of keeping away from the support on the connecting rod, wear to be equipped with the go-between on the support, be connected with the horizontal pole on the go-between, the vertical fixation has the montant on the horizontal pole, one side of keeping away from the connecting rod on horizontal pole and montant are located the support, fixedly connected with bulldozes the ring on the montant, bulldoze the ring and lie in the inside of transplanting seedlings the pipe. This application has reduced the damage that maize seedling transplanting in-process seedling transplanting device caused maize seedling.

Description

Seedling transplanting device for reducing damage of corn seedlings

Technical Field

The application relates to the field of corn seedling transplantation, in particular to a seedling transplanting device capable of reducing corn seedling damage.

Background

When carrying out the planting of maize, often need cultivate the maize seedling, carry out the in-process of cultivating at the maize seedling, sometimes the maize seedling can die because of various reasons, at this moment need transplant other maize seedlings in the field to change the maize seedling that this department died, and then carry out furthest's utilization to the field.

In the transplanting process of corn seedlings, the transplanting device needs to be applied to the corn seedlings, and sometimes the transplanting device easily damages the corn seedlings in the transplanting process of the corn seedlings by utilizing the transplanting device.

Disclosure of Invention

In order to reduce the damage that maize seedling transplanting in-process transplanting device caused maize seedling, this application provides a transplanting device that reduces maize seedling damage.

The application provides a pair of seedling transplanting device that reduces maize seedling damage adopts following technical scheme:

a seedling transplanting device for reducing the damage of corn seedlings comprises

A support;

the seedling transplanting pipe is arranged on the bracket and used for driving the soil near the corn seedlings; and

the connecting rod is arranged at one end of the support far away from the seedling transplanting pipe and is used for being grasped by personnel;

wherein, be equipped with on the support and step on the portion, the first half of transplanting of seedlings outside of tubes lateral wall is connected with the support.

Through adopting above-mentioned technical scheme, when needs transplant to maize seedling, the staff will move the seedling pipe and aim at maize seedling, and make maize seedling pass and move the seedling pipe, the staff steps on the portion of stepping on downwards the support, make the pipe of moving the seedling insert in the ground, then the staff rotates the pipe of moving the seedling gently, and slowly upwards lift the pipe of moving the seedling, then put into the hole that needs to change maize seedling with maize seedling together with soil in the ware of moving the seedling, then fill up earthing around the maize seedling, and water the survival rate that raises the seedling of transplanting of some water, in-process to this maize seedling transplantation, the staff is touching maize seedling, and carry out together transplantation to maize seedling and its soil on every side when transplanting, the injury to maize seedling is also higher, the injury to maize seedling has reduced the maize seedling.

Optionally, the seedling transplanting pipe is provided with a notch, and the notch is formed along the axial direction of the seedling transplanting pipe.

Through adopting above-mentioned technical scheme, through seting up the opening on transplanting seedlings the pipe to in-process transplanting maize seedling has reduced the extrusion of transplanting seedlings the pipe near maize seedling to the soil, has reduced the damage to maize seedling.

Optionally, a bending part is arranged on the connecting rod, and the bending part is located at one end, far away from the support, of the connecting rod.

Through adopting above-mentioned technical scheme, through setting up the kink on the connecting rod to carrying out the in-process of transplanting to maize seedling, the staff of being convenient for carries out the gripping to the connecting rod.

Optionally, wear to be equipped with the go-between on the support, be connected with the horizontal pole on the go-between, the vertical fixation has the montant on the horizontal pole, horizontal pole and montant are located the one side of keeping away from the connecting rod on the support, fixedly connected with bulldozes the ring on the montant, it is located the inside of transplanting seedlings pipe to bulldoze the ring.

Through adopting above-mentioned technical scheme, after lifting up the seedling to maize seedling and accomplishing, when placing maize seedling in to the hole, the staff can promote the horizontal pole, then the horizontal pole drives the montant and together moves forward with bulldozing the ring, the go-between removes on the support this moment, bulldoze the ring and will move intraductal soil that carries maize seedling of carrying and release, make maize seedling and soil together fall into the hole of digging in advance in to improve the integrality of maize seedling and soil, reduced the damage to maize seedling.

Optionally, the bulldozing ring and the seedling transplanting pipe are coaxially arranged, an opening is formed in the bulldozing ring, and the opening is communicated with the opening.

Through adopting above-mentioned technical scheme, be convenient for push away the picture ring and exert force to the soil in the seedling transplanting pipe to better release the soil in the seedling transplanting pipe, reduced the damage to maize seedling root.

Optionally, a sleeve penetrates through the connecting rod, a push rod is fixed on the sleeve, and the push rod is fixedly connected with the cross rod.

Through adopting above-mentioned technical scheme, the staff pushes down and moves the sleeve pipe, and the sleeve pipe moves on the connecting rod to the catch bar drives the horizontal pole and removes, and then the horizontal pole drives bulldozes the ring and removes, and bulldoze the ring and will move the intraductal soil of seedling and release, has reduced the destruction to near maize seedling soil, thereby has reduced the damage to maize seedling root, improves maize seedling's survival rate.

Optionally, a compression spring is fixed on the sleeve, the compression spring penetrates through the connecting rod, the compression spring is located between the bracket and the connecting rod, and the compression spring is abutted against the bracket.

By adopting the technical scheme, after the bulldozing ring is pushed out by the push rod, the sleeve is upwards jacked up by the elastic force of the compression spring, and then the bulldozing ring is popped back, so that the bulldozing ring can be conveniently reset.

Optionally, a pressure lever is arranged on the outer wall of the sleeve, and the pressure lever is positioned on one side of the sleeve far away from the support.

Through adopting above-mentioned technical scheme, through set up the depression bar on the sleeve pipe to be convenient for the staff promotes the sleeve pipe forward, makes bulldoze better pushing away soil of ring, also is convenient for the staff pulling sleeve pipe simultaneously, makes the sleeve pipe reset.

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

1. when maize seedling is transplanted to needs, the staff aims at maize seedling with the pipe of transplanting seedlings, and make maize seedling pass the pipe of transplanting seedlings, the staff steps on the portion of stepping on the support downwards, make the pipe of transplanting seedlings insert in the ground, then the staff rotates the pipe of transplanting seedlings gently, and slowly upwards lift up the pipe of transplanting seedlings, then put into the hole that needs to change maize seedling with the maize seedling in the ware of transplanting seedlings together with soil in, then fill up earthing up around the maize seedling, and water some and improve the survival rate of the seedling of transplanting, at the in-process of transplanting this maize seedling, the staff is touching maize seedling, and together transplant maize seedling and its soil on every side during the transplantation, the injury to maize seedling is also higher, the injury to maize seedling has reduced the maize seedling.

2. After the maize seedling is played the seedling and is accomplished, when placing maize seedling in to the hole, the staff can promote the horizontal pole, then the horizontal pole drives the montant and together moves forward with bulldozing the ring, and the go-between moves on the support this moment, and bulldoze the ring and will move intraductal soil that carries maize seedling of carrying of seedling and release, makes maize seedling and soil together fall into the hole of digging in advance to the integrality of maize seedling and soil has been improved, has reduced the damage to maize seedling.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Description of reference numerals: 11. a support; 111. a stepping part; 12. transplanting a seedling tube; 121. opening the gap; 13. a connecting rod; 131. a bending section; 21. a connecting ring; 22. a cross bar; 23. a vertical rod; 24. soil ring pushing; 31. a sleeve; 311. a pressure lever; 32. a push rod; 33. compressing the spring.

Detailed Description

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

The embodiment of the application discloses a seedling transplanting device for reducing damage of corn seedlings.

Referring to fig. 1, the seedling transplanting device for reducing the damage of the corn seedlings comprises a bracket 11, a seedling transplanting pipe 12 and a connecting rod 13.

Support 11 adopts a plurality of poles concatenations to form, and the one end of pipe 12 welding on support 11 of transplanting seedlings, connecting rod 13 are the same to be welded on support 11, and connecting rod 13 is located the one end of keeping away from pipe 12 of transplanting seedlings on support 11. When transplanting corn seedlings, the worker holds the connecting rod 13, aligns the corn seedlings with the seedling transplanting pipe 12, then places the seedling transplanting pipe 12 downwards, so that the corn seedlings pass through the seedling transplanting pipe 12, and the seedling transplanting pipe 12 is placed on the ground. Be equipped with on the support 11 and trample portion 111, the staff tramples on trampling portion 111, make trample portion 111 insert in the soil, and gentle rotation connecting rod 13, make seedling transplanting pipe 12 rotate in soil, let the soil in seedling transplanting pipe 12 separate with other soil, then upwards mention connecting rod 13, and drive connecting rod 13 and remove, to transplant seedling transplanting pipe 12 and place in the soil pit dug in advance, gentle rotation connecting rod 13, then slowly take out seedling transplanting pipe 12 from soil, and to earthing up near the maize seedling, then water a little, improve maize seedling's survival rate.

Further, referring to fig. 1, a notch 121 is formed in the seedling transplanting tube 12, the notch 121 is formed along the axial direction of the seedling transplanting tube 12, the notch 121 penetrates through the tube wall of the seedling transplanting tube 12, and when the seedling transplanting tube 12 is rotated, the notch 121 can reduce the extrusion of the seedling transplanting tube 12 on the soil with the corn seedlings.

Be equipped with kink 131 on connecting rod 13, kink 131 is located the one end of keeping away from support 11 on connecting rod 13, and in the in-process of transplanting maize seedling, kink 131 on connecting rod 13 is convenient for the staff to carry out the gripping to whole ware of transplanting seedlings.

Further, referring to fig. 1, a connection ring 21 is further provided on the bracket 11, the connection ring 21 is inserted into the bracket 11, an axis of the connection ring 21 is parallel to an axis of the connection rod 13, and the connection ring 21 moves on the bracket 11 along the axis direction. The number of the connecting rings 21 is two, the two connecting rings 21 are symmetrically arranged on the bracket 11, a cross rod 22 is connected between the two connecting rings 21, the cross rod 22 is positioned between the brackets 11, and the cross rod 22 is perpendicular to the connecting rod 13. A vertical rod 23 is vertically fixed on the cross rod 22, the vertical rod 23 is parallel to the connecting rod 13, and the vertical rod 23 is positioned on one side of the cross rod 22 far away from the connecting rod 13. The number of the vertical rods 23 is two, the two vertical rods 23 are fixedly connected with a soil removal ring 24, the soil removal ring 24 is in a ring shape, the axis of the soil removal ring 24 is parallel to the axis of the vertical rods 23, the soil removal ring 24 is coaxial with the seedling transplanting pipe 12, and the soil removal ring 24 is positioned at one end, far away from the cross rod 22, of the vertical rods 23.

After the seedling transplanting tube 12 is placed in the pit, the cross bar 22 or the dozer ring 24 is pushed, and the soil in the seedling transplanting tube 12 is pushed out by the dozer ring 24. In order to reduce the damage of the soil caused by the soil shifter ring 24, the soil shifter ring 24 is also provided with an opening, and the opening on the soil shifter ring 24 is positioned on the same side with the notch 121 on the seedling transplanting pipe 12.

Further, referring to fig. 1, a sleeve 31 further penetrates through the connecting rod 13, a push rod 32 is fixed on the sleeve 31, the push rod 32 is located at one end of the sleeve 31 far away from the bending portion 131, the push rod 32 is parallel to the sleeve 31, one end of the push rod 32 is welded to the sleeve 31, and the other end of the push rod 32 is welded to the cross rod 22.

When the soil in the seedling transplanting pipe 12 needs to be lowered to be pushed out, a worker pushes the sleeve 31 on the connecting rod 13, the sleeve 31 drives the push rod 32 to move, then the push rod 32 pushes the cross rod 22 to move forwards, the cross rod 22 drives the vertical rod 23 and the soil shifting ring 24 to move forwards, then the soil shifting ring 24 pushes out the soil in the seedling transplanting pipe 12, meanwhile, the connecting ring 21 moves on the support 11, and the corn seedlings are located inside the soil shifting ring 24 and the seedling transplanting pipe 12.

Referring to fig. 1, after transplanting the young corn seedlings, the worker should lift the sleeve 31 upward to restore it, and then transplant new young corn seedlings. In order to facilitate the resetting of the sleeve 31, a compression spring 33 is fixed on the sleeve 31, the compression spring 33 is located on the sleeve 31 and the bracket 11, and two ends of the compression spring 33 respectively abut against the sleeve 31 and the bracket 11. After the sleeve 31 is pushed to make the soil in the seedling transplanting tube 12 fall out, the sleeve 31 is bounced up by the elastic force of the compression spring 33, so that the sleeve 31 is conveniently reset on the connecting rod 13.

In the process of transplanting the maize seedling, for staff's promotion sleeve pipe 31, the welding has depression bar 311 on sleeve pipe 31's outer wall, depression bar 311 perpendicular to sleeve pipe 31's axis, when promoting or pulling sleeve pipe 31, the staff all can realize through promoting or pulling depression bar 311 to the staff of being convenient for more transplants maize seedling, has improved staff's work efficiency.

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 (8)

1. The utility model provides a reduce ware of transplanting seedlings of maize seedling damage which characterized in that: comprises that

A support (11);

the seedling transplanting pipe (12) is arranged on the bracket (11) and is used for driving soil near the corn seedlings; and

the connecting rod (13) is arranged at one end of the bracket (11) far away from the seedling transplanting pipe (12) and is used for being grasped by personnel;

wherein, be equipped with on support (11) and step on portion (111), the first half of seedling tube (12) lateral wall is connected with support (11).

2. A seedling transplanter for reducing damage to young corn plants as claimed in claim 1, wherein: the seedling transplanting pipe (12) is provided with a notch (121), and the notch (121) is formed along the axial direction of the seedling transplanting pipe (12).

3. A seedling transplanter for reducing damage to young corn plants as claimed in claim 1, wherein: and a bending part (131) is arranged on the connecting rod (13), and the bending part (131) is positioned at one end, far away from the support (11), of the connecting rod (13).

4. A seedling transplanter for reducing damage to young corn plants as claimed in claim 1, wherein: wear to be equipped with go-between (21) on support (11), be connected with horizontal pole (22) on go-between (21), the vertical fixation has montant (23) on horizontal pole (22), horizontal pole (22) and montant (23) are located one side of keeping away from connecting rod (13) on support (11), fixedly connected with bulldozes ring (24) on montant (23), bulldoze ring (24) are located the inside of transplanting seedling pipe (12).

5. The transplanter for reducing damage to young corn plants as claimed in claim 4, wherein: the bulldozing ring (24) and the seedling transplanting pipe (12) are coaxially arranged, an opening is formed in the bulldozing ring (24), and the opening is communicated with the notch (121).

6. The transplanter for reducing damage to young corn plants as claimed in claim 4, wherein: the connecting rod (13) is provided with a sleeve (31) in a penetrating mode, the outer wall of the sleeve (31) is fixedly provided with a push rod (32), and the push rod (32) is fixedly connected with the cross rod (22).

7. The transplanter for reducing damage to young corn plants as claimed in claim 6, wherein: be fixed with compression spring (33) on sleeve pipe (31), compression spring (33) wear to establish on connecting rod (13), compression spring (33) are located between support (11) and connecting rod (13), and compression spring (33) and support (11) butt.

8. The transplanter for reducing damage to young corn plants as claimed in claim 7, wherein: the outer wall of the sleeve (31) is provided with a pressure lever (311), and the pressure lever (311) is positioned on one side, far away from the support (11), of the sleeve (31).

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