CN110583421A - Agricultural nursery stock is cultivated and uses quantitative transplanting device - Google Patents

Abstract

The invention discloses a quantitative transplanting device for cultivating agricultural seedlings, which comprises a base and a motor, wherein a lifting cylinder is connected above the base, a second limiting block is fixedly arranged outside the lifting cylinder, the top end of the second limiting block is embedded inside a limiting groove, a fixing rod connected with the top end of an active sliding sleeve penetrates through the top end of an intermediate connecting rod and is connected with an installation sleeve, the installation sleeve is fixedly installed outside a belt, a groove is embedded inside a connecting block, a fixing clamp is integrally installed at the top end of a main chuck, and a rotating shaft is installed between the fixing clamp and the main chuck. This agricultural is grown and is used ration transplanting device is carrying out the in-process that uses, and not only the occupation space of whole device is little, and whole device can be fine carrying out equivalent and equidistant planting work to the nursery stock in the in-process that carries out the nursery stock and transplant, and convenient and swift can once only accomplish equivalent transplanting work, transplants efficiently.

Description

Agricultural nursery stock is cultivated and uses quantitative transplanting device

Technical Field

The invention relates to the technical field of seedling transplanting, in particular to a quantitative transplanting device for agricultural seedling cultivation.

Background

In the process of carrying out agricultural planting, at first need carry out the cultivation work in batches to the nursery stock, the nursery stock is all need to carry out the work of transplanting to the nursery stock after cultivating, at the in-process of transplanting the nursery stock, not only can consume a large amount of time of staff, and also very low to the transplanting efficiency of nursery stock, consequently, the nursery stock transplanting device that just appears in the market assists the staff to carry out the work of transplanting, but some problems have remained in the in-process of transplanting in the current market, for example:

1. in the existing market, in the process of transplanting seedlings, the seedlings cannot be transplanted quantitatively, so that the whole seedling transplanting work is caused, although the labor expenditure of workers is reduced in the transplanting process, the overall transplanting efficiency of the seedlings still cannot meet the ideal requirement, and in the process of transplanting the seedlings, the seedlings cannot be fixed according to the diameter of the seedlings, so that the application range of the whole transplanting device is narrow;

2. traditional transplanting device is carrying out the in-process of work, in order to guarantee to carry out equidistant transplantation, whole in-process of transplanting need be continuous carry out position shift work to whole device, from this, also indirect increase staff's burden, lead to whole work efficiency of transplanting work not obvious to and the occupation space of whole device is great, can not be fine reduce the occupation space of whole device.

We have therefore proposed a quantitative transplanting apparatus for agricultural seedling cultivation in order to solve the problems set forth above.

Disclosure of Invention

The invention aims to provide a quantitative transplanting device for cultivating agricultural seedlings, which solves the problem that the seedling transplanting device in the current market, which is provided by the background technology, cannot perform batch equidistant transplanting in the using process.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an agricultural nursery stock is cultivated and uses quantitative transplanting device, includes base and motor, the top of base is connected with a lift section of thick bamboo, and the outside fixed mounting of a lift section of thick bamboo has the second stopper to the inside at the spacing groove is inlayed on the top of second stopper, the inside surface at the stop collar is inlayed to the spacing groove, and the top fixed mounting of stop collar has a fixing base, and the centre of stop collar is provided with a lift section of thick bamboo and lead screw respectively, and sets up the lead screw above the inside of a lift section of thick bamboo, the centre that the fixing base was run through in the top of lead screw is connected with the rotation axis, and the top coaxial coupling of rotation axis has the rotary disk, and is connected with the belt between rotary disk and the rotary disk, and the top of rotary disk still is fixed with the motor simultaneously, the centre of fixing base is connected with the, The belt conveyer comprises a driven sliding sleeve and a driving sliding sleeve, wherein the fixed sliding sleeve, the driven sliding sleeve and the driving sliding sleeve are sequentially arranged above a middle rod from left to right, the fixed sliding sleeve, the driven sliding sleeve and the driving sliding sleeve are connected through connecting wires, a fixing rod connected with the top end of the driving sliding sleeve penetrates through the top end of the middle connecting rod to be connected with an installation sleeve, the installation sleeve is fixedly installed outside a belt, sliding grooves are embedded in the surfaces of the fixed sliding sleeve, the driven sliding sleeve and the driving sliding sleeve, a fixing shaft is clamped and installed inside the sliding grooves, a connecting block is fixed at the top end of the fixing shaft, penetrates through the reserved groove and is arranged outside the middle connecting rod, a reserved groove is arranged on the surface of the middle connecting rod, a groove is embedded inside the connecting block, a main chuck is arranged inside the groove, and a reset spring is connected between the main chuck and the main chuck, the top end of the main chuck is integrally provided with a fixing clamp, and a rotating shaft is arranged between the fixing clamp and the main chuck.

Preferably, be threaded connection between a lift section of thick bamboo and the lead screw, and be the bearing connection between the top of lead screw and the fixing base to be fixed connection between the bottom of fixing base and the stop collar.

Preferably, the belt includes first connecting band and second connecting band, and structure as an organic whole between first connecting band and the second connecting band to first connecting band is partial to the top position fixed mounting on right side and is had the installation cover.

Preferably, the outside of middle connecting rod is smooth plane, and is fixed connection between middle connecting rod and the fixed sliding sleeve to be bushing between middle connecting rod and driven sliding sleeve and the initiative sliding sleeve, driven sliding sleeve, initiative sliding sleeve and fixed sliding sleeve's three equal external shape simultaneously.

Preferably, the external surfaces of the driven sliding sleeve, the driving sliding sleeve and the fixed sliding sleeve are all inlaid with annular sliding grooves, the sliding grooves and the fixed shaft are in transition fit connection structure, and the top end of the fixed shaft and the connection block are in an integral structure.

Preferably, the top of fixation clamp is the arc structure setting, and the even distribution in inside of fixation clamp has the clutch blocks to the clutch blocks is the rubber material.

Preferably, a transition fit connection structure is arranged between the groove and the top end of the main chuck, and the original length of a return spring arranged in the middle of the main chuck is larger than the width of the groove.

Preferably, the connecting lines are arranged among the driven sliding sleeve, the driving sliding sleeve and the fixed sliding sleeve, and the length of the connecting lines between the adjacent sliding sleeves is equal.

Compared with the prior art, the invention has the beneficial effects that: when the quantitative transplanting device for agricultural seedling cultivation is used, the occupied space of the whole device is small, the equal-quantity and equal-interval planting work on seedlings can be well realized in the seedling transplanting process of the whole device, the device is convenient and quick, the equal-quantity transplanting work can be completed at one time, and the transplanting efficiency is high;

1. the fixed sliding sleeves, the driving sliding sleeves and the driven sliding sleeves can well move in the process that the first connecting belt drives the installation sleeve to move, so that the distances among the sliding sleeves can be equal, the effect of transplanting at equal intervals can be well achieved, the lead screw is continuously rotated clockwise and anticlockwise along with the process that the first moving belt moves left and right, the lifting cylinder at the bottom of the lead screw can be lifted in the process that the lead screw is rotated clockwise and anticlockwise, the lifting cylinder can be well lifted in the process that the lifting cylinder is lifted continuously, the lifting transplanting work can be well completed, the occupied space of the whole device is conveniently reduced, and the effect of convenient placement is facilitated;

2. the setting of fixation clamp can be fine carry out the fixed work to the nursery stock to contained angle between the fixation clamp also can be fine adjust work, guarantees to fix the nursery stock of different diameters size, and the setting of clutch blocks also can guarantee to increase and the nursery stock between the frictional force, reaches the phenomenon that fixed unstability can not appear and takes place, makes the application range of whole device wider.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is a schematic top view of the retaining clip of the present invention;

FIG. 6 is a schematic view of the connection structure between the connection block and the driven sliding sleeve according to the present invention.

In the figure: 1. a base; 2. a limiting sleeve; 3. a lifting cylinder; 4. a screw rod; 5. a fixed seat; 6. a rotating shaft; 7. rotating the disc; 8. a motor; 9. a belt; 901. a first connecting belt; 902. a second connecting band; 10. a middle connecting rod; 11. fixing the rod; 12. installing a sleeve; 13. an active sliding sleeve; 14. reserving a groove; 15. a driven sliding sleeve; 16. a second limiting block; 17. a limiting groove; 18. fixing the sliding sleeve; 19. an intermediate lever; 20. connecting blocks; 21. a rotating shaft; 22. a fixing clip; 2201. a friction block; 23. a main chuck; 24. a fixed shaft; 25. a groove; 26. a return spring; 27. a chute; 28. and connecting the wires.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a quantitative transplanting device for cultivating agricultural seedlings comprises a base 1, a limiting sleeve 2, a lifting barrel 3, a screw rod 4, a fixed seat 5, a rotating shaft 6, a rotating disk 7, a motor 8, a belt 9, a first connecting belt 901, a second connecting belt 902, an intermediate connecting rod 10, a fixing rod 11, an installation sleeve 12, a driving sliding sleeve 13, a preformed groove 14, a driven sliding sleeve 15, a second limiting block 16, a limiting groove 17, a fixing sliding sleeve 18, an intermediate rod 19, a connecting block 20, a rotating shaft 21, a fixing clamp 22, a friction block 2201, a main clamping head 23, a fixing shaft 24, a groove 25, a reset spring 26, a sliding groove 27 and a connecting wire 28, wherein the lifting barrel 3 is connected above the base 1, the second limiting block 16 is fixedly installed on the outer portion of the lifting barrel 3, the top end of the second limiting block 16 is embedded in the limiting groove 17, the limiting groove 17 is embedded in the inner surface of the limiting sleeve 2, the top end of the limiting sleeve 2 is fixedly, a lifting cylinder 3 and a screw rod 4 are respectively arranged in the middle of the limiting sleeve 2, the screw rod 4 is arranged above the inner part of the lifting cylinder 3, the top end of the screw rod 4 penetrates through the middle of the fixed seat 5 to be connected with the rotating shaft 6, the rotating disk 7 is coaxially connected above the rotating shaft 6, a belt 9 is connected between the rotating disk 7 and the rotating disk 7, a motor 8 is also fixed at the top end of the rotating disk 7, an intermediate connecting rod 10 is connected in the middle of the fixed seat 5, an intermediate rod 19 is arranged inside the intermediate connecting rod 10, a fixed sliding sleeve 18, a driven sliding sleeve 15 and a driving sliding sleeve 13 are respectively arranged outside the intermediate rod 19, the fixed sliding sleeve 18, the driven sliding sleeve 15 and the driving sliding sleeve 13 are sequentially arranged above the intermediate rod 19 from left to right, the fixed sliding sleeve 18, the driven sliding sleeve 15 and the driving sliding sleeve 13 are all connected through, the dead lever 11 that initiative sliding sleeve 13 top is connected runs through the top of intermediate junction pole 10 and is connected with installation cover 12, and the outside fixed mounting of installation cover 12 and belt 9, fixed sliding sleeve 18, the surface of driven sliding sleeve 15 and initiative sliding sleeve 13 is all inlayed and is had spout 27, and the inside block of spout 27 installs fixed axle 24, and the top of fixed axle 24 is fixed with connecting block 20, and connecting block 20 runs through the outside that reserve groove 14 set up at intermediate junction pole 10, the surface of intermediate junction pole 10 is provided with reserve groove 14 simultaneously, the inside of connecting block 20 is inlayed and is had recess 25, and the inside of recess 25 is provided with main chuck 23, and be connected with reset spring 26 between main chuck 23 and the main chuck 23, fixation clamp 22 is installed to main chuck 23's top an organic whole, and pivot 21 is installed to fixation clamp 22 and the centre of main chuck 23.

Be threaded connection between a lift section of thick bamboo 3 and the lead screw 4, and be connected for the bearing between the top of lead screw 4 and the fixing base 5 to be fixed connection between the bottom of fixing base 5 and stop collar 2, make things convenient for threaded connection between lead screw 4 and the lift section of thick bamboo 3, accomplish the effect of highly adjusting fixing base 5.

Belt 9 includes first connecting band 901 and second connecting band 902, and structure as an organic whole between first connecting band 901 and the second connecting band 902 to top position fixed mounting on first connecting band 901 deviation to the right side has installation cover 12, conveniently carries out the effect that the in-process pulling installation cover 12 that removes at first connecting band 901 to the right side carries out the removal, and then makes initiative sliding sleeve 13 drive driven sliding sleeve 15 carry out the effect that removes under installation cover 12's effect.

The outside of middle connecting rod 10 is smooth plane, and is fixed connection between middle connecting rod 10 and the fixed sliding sleeve 18, and be bushing between middle connecting rod 10 and driven sliding sleeve 15 and the initiative sliding sleeve 13, driven sliding sleeve 15, initiative sliding sleeve 13 and the fixed sliding sleeve 18 three's external shape is the same simultaneously.

Driven sliding sleeve 15, initiative sliding sleeve 13 and fixed sliding sleeve 18 three's external surface all inlays and is annular spout 27, and for transition complex connection structure between spout 27 and the fixed axle 24, and structure as an organic whole between the top of fixed axle 24 and the connecting block 20, conveniently make fixed axle 24 can rotate around spout 27, reach and take connecting block 20 and main chuck 23 to carry out rotatory effect, make things convenient for fixation clamp 22 to separate with the nursery stock, reach the effect of removing whole device.

The top of fixation clamp 22 is the arc structure setting, and the even distribution in inside of fixation clamp 22 has clutch blocks 2201 to clutch blocks 2201 are the rubber material, conveniently make and carry out the block installation that stability is good between fixation clamp 22 and the nursery stock, the not hard up phenomenon of block can not appear and take place.

The groove 25 and the top end of the main chuck 23 are in transition fit connection structure, and the original length of the return spring 26 arranged in the middle of the main chuck 23 is larger than the width of the groove 25, so that the minimum clearance between the 2 fixing clamps 22 in the initial state is ensured, and the effect of conveniently clamping and fixing nursery stocks with different diameters is achieved.

The connecting lines 28 are arranged among the driven sliding sleeve 15, the driving sliding sleeve 13 and the fixed sliding sleeve 18, the lengths of the connecting lines 28 between the adjacent sliding sleeves are equal, the distances among the adjacent driven sliding sleeve 15, the driving sliding sleeve 13 and the fixed sliding sleeve 18 are equal in the process that the driving sliding sleeve 13 moves, and the effect of transplanting in equal distance is achieved.

The working principle of the embodiment is as follows: when the quantitative transplanting device for agricultural seedling cultivation is used, firstly, the whole device is placed at a proper position under the action of the bottom base 1, then, the whole device is moved to the proper position, and then, the whole device can be used;

first, as shown in fig. 3-6, a seedling to be transplanted needs to be placed, at this time, a worker is required to break the fixing clip 22 by the rotating shaft 21, and then, the seedling to be transplanted is placed in the middle of the fixing clip 22, and at the same time, during the breaking of the fixing clip 22, the main clamp 23 integrally connected with the fixing clip 22 moves oppositely inside the groove 25, and further, the return spring 26 is squeezed, so that, after the fixing clip 22 finishes fixing the seedling, the worker does not apply stress to the fixing clip 22, the return spring 26 resets to move the main clamp 23 inside the groove 25 in the opposite direction, and thus, the fixing clip 22 at the top end returns to the initial position, thereby, the fixing work of the seedling is finished, and during the fixing of the seedling, due to the arrangement of the friction block 2201 inside the fixing clip 22, the friction between the nursery stock and the fixing clamp 22 is further ensured, so that the nursery stock is stably fixed in the fixing clamp 22;

after the fixing is completed, as shown in fig. 1-4, the motor 8 is started, so that the motor 8 drives the rotating disc 7 to perform a rotating operation, and further, the belt 9 on the rotating disc 7 performs a moving operation, in a process that the belt 9 moves, the first connecting band 901 and the second connecting band 902 at two sides of the rotating disc 7 perform an opposite moving operation, in a process that the first connecting band 901 moves to the right side, the mounting sleeve 12 connected above the first connecting band also performs a moving operation to the right side, in a process that the mounting sleeve 12 moves to the right side, the driving sliding sleeve 13 performs a sliding operation above the intermediate rod 19 through the arrangement of the fixing rod 11, the driving sliding sleeve 13 continuously moves to the right side, and under a pulling action of the connecting wire 28, each driven sliding sleeve 15 also slides above the intermediate rod 19, so that when the whole connecting wire 28 is pulled to the longest, the sliding sleeves are arranged above the middle rod 19 at equal intervals, further the seedlings fixed on the fixing clamps 22 are arranged at equal intervals, meanwhile, in the process that the motor 8 rotates, the rotating shaft 6 in the rotating disc 7 drives the screw rod 4 at the bottom to rotate, in the process that the screw rod 4 rotates, the outer part of the rotating disc is in threaded connection with the inner part of the lifting cylinder 3, therefore, the screw rod 4 can descend in the lifting cylinder 3, in the process that the screw rod 4 descends, the fixing seat 5 is driven to descend, further, the whole middle connecting rod 10 descends, in the process that the middle connecting rod 10 descends, the middle rod 19 descends, further, the seedlings outside the middle rod 19 also descend, and therefore, when the seedlings on the fixing clamps 22 are distributed at equal intervals, the whole nursery stock also descends to the hole with the lowest end on the ground, then, the worker can plant the nursery stock, and in the planting process, the worker only needs to fill the soil to complete the transplanting work due to the fixing and limiting work of the fixing clamp 22 on the nursery stock;

after planting, according to fig. 6, the worker repeats the above work to apply force to the fixing clip 22, so that the fixing clip 22 is broken, and then the top end of the fixing shaft 24 is rotated inside the sliding groove 27, so that the fixing shaft 24 drives the connecting block 20 to rotate around the outside of the sliding sleeve, thereby separating the fixing clip 22 and the nursery stock from each other, and finally, the control motor 8 reversely rotates to make each sliding sleeve in a fit state, thereby the work can be repeated to continue to place and plant the nursery stock, thereby completing a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides an agricultural nursery stock is cultivated and uses quantitative transplanting device, includes base (1) and motor (8), its characterized in that: the lifting cylinder (3) is connected above the base (1), a second limiting block (16) is fixedly installed outside the lifting cylinder (3), the top end of the second limiting block (16) is embedded inside a limiting groove (17), the limiting groove (17) is embedded on the inner surface of a limiting sleeve (2), a fixing seat (5) is fixedly installed at the top end of the limiting sleeve (2), the lifting cylinder (3) and a lead screw (4) are respectively arranged in the middle of the limiting sleeve (2), the lead screw (4) is arranged above the inner portion of the lifting cylinder (3), the top end of the lead screw (4) penetrates through the middle of the fixing seat (5) and is connected with a rotating shaft (6), a rotating disc (7) is coaxially connected above the rotating shaft (6), a belt (9) is connected between the rotating disc (7) and the rotating disc (7), and a motor (8) is further fixed at the top end of the rotating disc (7), the utility model discloses a fixing base for the leather belt, including fixing base (5), intermediate connecting rod (10) is connected in the middle of fixing base (5), and the inside of intermediate connecting rod (10) is provided with intermediate lever (19), and the outside of intermediate lever (19) is provided with fixed sliding sleeve (18), driven sliding sleeve (15) and initiative sliding sleeve (13) respectively, and fixed sliding sleeve (18), driven sliding sleeve (15) and initiative sliding sleeve (13) set gradually from the left hand right side in the top of intermediate lever (19) simultaneously, all be connected through connecting wire (28) between fixed sliding sleeve (18), driven sliding sleeve (15) and initiative sliding sleeve (13) the three, dead lever (11) that initiative sliding sleeve (13) top is connected run through the top of intermediate connecting rod (10) and are connected with installation cover (12), and the outside fixed mounting of installation cover (12) and belt (9), fixed sliding sleeve (18) have, The surface of driven sliding sleeve (15) and initiative sliding sleeve (13) is all inlayed and is had spout (27), and the inside block of spout (27) installs fixed axle (24), and the top of fixed axle (24) is fixed with connecting block (20), and connecting block (20) run through reserve tank (14) and set up in the outside of intermediate junction pole (10), and the surface of intermediate junction pole (10) is provided with reserve tank (14) simultaneously, the inside of connecting block (20) is inlayed fluted (25), and the inside of recess (25) is provided with main chuck (23), and is connected with reset spring (26) between main chuck (23) and main chuck (23), fixation clamp (22) are installed to the top an organic whole of main chuck (23), and pivot (21) are installed to the centre of fixation clamp (22) and main chuck (23).

2. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the lifting cylinder (3) is in threaded connection with the screw rod (4), the top end of the screw rod (4) is connected with the fixing seat (5) through a bearing, and the bottom of the fixing seat (5) is fixedly connected with the limiting sleeve (2).

3. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the belt (9) comprises a first connecting belt (901) and a second connecting belt (902), the first connecting belt (901) and the second connecting belt (902) are of an integral structure, and the first connecting belt (901) is fixedly installed at the top end position deviated to the right side of the connecting belt and provided with an installation sleeve (12).

4. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the outside of middle connecting rod (10) is smooth plane, and is fixed connection between middle connecting rod (10) and fixed sliding sleeve (18), and be bushing between middle connecting rod (10) and driven sliding sleeve (15) and initiative sliding sleeve (13), driven sliding sleeve (15), initiative sliding sleeve (13) and fixed sliding sleeve (18) three's external shape is all the same simultaneously.

5. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the outer surfaces of the driven sliding sleeve (15), the driving sliding sleeve (13) and the fixed sliding sleeve (18) are all inlaid with annular sliding grooves (27), the sliding grooves (27) and the fixed shaft (24) are in transition fit connection structure, and the top end of the fixed shaft (24) and the connecting block (20) are in an integral structure.

6. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the top end of the fixing clamp (22) is of an arc-shaped structure, friction blocks (2201) are uniformly distributed in the fixing clamp (22), and the friction blocks (2201) are made of rubber.

7. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the connecting structure of transition fit is also arranged between the groove (25) and the top end of the main chuck (23), and the original length of a return spring (26) arranged in the middle of the main chuck (23) is larger than the width of the groove (25).

8. The quantitative transplanting device for agricultural seedling cultivation according to claim 1, wherein: the connecting lines (28) are arranged among the driven sliding sleeve (15), the driving sliding sleeve (13) and the fixed sliding sleeve (18), and the lengths of the connecting lines (28) between the adjacent sliding sleeves are equal.