CN115868297A - Chili transplanting machine for agricultural production - Google Patents

Abstract

The invention discloses a pepper transplanter for agricultural production, which comprises a vehicle framework and a driving device, wherein the vehicle framework is integrally arranged in a well-shaped structure, the driving device and a handle are arranged at one end of the vehicle framework, the driving device comprises an engine and a reduction gearbox, the reduction gearbox comprises a clutch, a transmission structure is arranged at the bottom end of the driving device, a front wheel is arranged at the bottom end of the transmission structure, a first transmission wheel set is arranged on one side surface of the driving device, a transmission box is arranged in the middle of the vehicle framework, the inner side of the transmission box comprises a movable strip and a fixed strip, and an inclined plate is arranged at the top end of the fixed strip. The automatic seedling throwing device has the advantages that the automatic seedling throwing structure is arranged, the seedling throwing at the upper part can be matched with the transplanting equipment at the lower part, the automatic seedling throwing effect is realized through the furrow opener and the soil covering plate structure, and the automatic operation effect of the whole device is realized.

Description

Chili transplanting machine for agricultural production

Technical Field

The invention relates to the field of plant cultivation, in particular to a pepper transplanter for agricultural production.

Background

The pepper transplanting process is high in labor cost, high in labor intensity and low in efficiency, and becomes an important reason for restricting the development of pepper industry, particularly, the transplanted plants need to be controlled at accurate distances in the interplanting mode among various plants, so that a pepper transplanting machine is usually matched with manpower to operate, and the effect of large-area planting is realized.

However, in the prior art, the seedlings are inclined along the operation direction of the transplanter due to the facts that the soil covering is not practical and the soil covering shape has deviation, or the seedlings are not kept upright after sowing, meanwhile, the transplanter in the prior art needs to be matched with workers to plant the seedlings, and the automatic transplanting effect cannot be achieved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a pepper transplanter for agricultural production.

In order to solve the technical problems, the invention provides the following technical scheme:

the invention relates to a hot pepper transplanter for agricultural production, which comprises a vehicle framework and a driving device, wherein the vehicle framework is integrally arranged in a well-shaped structure, the driving device and a handle are installed at one end of the vehicle framework, the driving device comprises an engine and a reduction gearbox, the reduction gearbox comprises a clutch, a transmission structure is arranged at the bottom end of the driving device, a front wheel is installed at the bottom end of the transmission structure, a first transmission wheel set is arranged on one side surface of the driving device, a transmission box is arranged in the middle of the vehicle framework, the inner side of the transmission box comprises a movable strip and a fixed strip, an inclined plate is installed at the top end of the fixed strip, the transmission box and the driving device are in transmission connection through the first transmission wheel set, a ditching plate is installed at the bottom end of the movable strip, and a soil covering plate is installed at one end of the ditching plate;

the fixed disk is installed to one side of fixed strip, and the rotary disk is installed on the top of fixed disk, and the surface of rotary disk is provided with a seedling section of thick bamboo, the bottom of fixed disk is provided with a seedling section of thick bamboo that falls, and a seedling section of thick bamboo bottom that falls sets up in ditching board rear side, the bottom side of fixed disk is provided with the soil box, the rear wheel is installed to the other end of car skeleton, and the top side of rear wheel is provided with the seat, the rear wheel contains the shaft, and the surface of shaft is provided with the second transmission wheelset, is the transmission connection between second transmission wheelset and the soil box.

As a preferred technical scheme of the invention, the surface of the rotating disc is provided with a sliding guide rail which is arranged in an oval shape, the inner side of the sliding guide rail is provided with a seedling cylinder, the seedling cylinder is rotatably arranged through the sliding guide rail, two sides of the surface of the fixed disc are provided with transmission rings, the inner sides of the transmission rings are provided with holes, the holes penetrate through the surface of the rotating disc and are respectively positioned at two sides of the fixed disc and the rotating disc, the seedling falling cylinder is positioned at the bottom end of the hole, the bottom end of the seedling cylinder is provided with an elastic buckling structure, and the elastic buckling structure comprises a torsion spring and a bottom cover.

According to a preferred technical scheme of the invention, a barrier strip is arranged on the inner side of the inclined plate, a telescopic block is arranged on the inner side of the barrier strip, the inner side of the inclined plate is in a streamline structure bottom plate arrangement, the bottom of the inclined plate is in a convex structure arrangement, a top block is arranged on the bottom side of the inner part of the inclined plate, a lifting plate is arranged at the top end of the top block, the telescopic block is fixedly arranged at the top of one end of the lifting plate, a telescopic spring is arranged at the bottom of the lifting plate, a rotating shaft is arranged on the top side of the other end of the lifting plate, a rod piece is arranged at the top end of the rotating shaft, a side plate is arranged at one end of the rotating shaft, a pressing block is arranged on the surface of the rotating shaft, the pressing block and the lifting plate are arranged in an angle structure, the pressing block is positioned on two sides of the rotating shaft, and a gap is arranged between the side plate and the inclined plate.

As a preferable technical scheme of the invention, a camera is arranged on the top surface of one end, away from the rod piece, of the inclined plate, and a micro motor is arranged on the surface of one end, away from the rod piece, of the inclined plate.

As a preferable technical scheme, a gear box is arranged in the soil box, the second transmission wheel set comprises a conveying belt and a transmission gear, an umbrella wheel structure is arranged in the gear box in an angle mode, a spiral shaft is arranged at the bottom end of the gear box, the bottom of the spiral shaft extends to the bottom end of the soil box, extends out of a pipeline and is located at the top end of the soil covering plate.

As a preferred technical scheme of the invention, the ditching plate is arranged in an inverted-mountain-shaped structure, wherein a top plate is arranged at the top end of the front side of the ditching plate, the top plate is fixedly connected with the movable strip, the first driving wheel set is positioned in the transmission box and comprises a gear structure, the surface of the movable strip is provided with a rack, the rack and the gear structure are arranged in a transmission engagement manner, the top end of the rear side of the ditching plate is arranged in an open shape, and the top of the ditching plate is provided with a seedling dropping cylinder.

As a preferable technical scheme of the present invention, the trenching plate and the soil covering plate are movably connected by a movable shaft, wherein the movable shaft comprises a torsion spring for limiting the soil covering plate, the soil covering plate is arranged in a splayed shape facing the inside, the top end of the soil covering plate is arranged in an open shape, and the top side of the soil covering plate is provided with an extension pipe of the soil box.

Compared with the prior art, the invention has the following beneficial effects:

1: the automatic seedling throwing device has the advantages that the automatic seedling throwing structure is arranged, the seedling throwing at the upper part can be matched with the transplanting equipment at the lower part, the automatic seedling throwing effect is realized through the furrow opener and the soil covering plate structure, and the automatic operation effect of the whole device is realized.

2: the invention can also arrange a device with soil covering at the ditching position, can be matched with the throwing of conglomerate materials such as nutrient soil or chemical fertilizer and the like from the upper part, can realize the maintenance effect on seedlings after being matched with the soil covering plate, and can greatly increase the survival rate of crops.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of a rotary disk structure of the present invention;

FIG. 3 is a schematic view of the structure of the fixing plate of the present invention;

FIG. 4 is a schematic view of the structure of the seedling tube of the present invention;

FIG. 5 is a schematic view of the inclined plate structure of the present invention;

FIG. 6 is a cross-sectional view of the inclined plate structure of the present invention;

FIG. 7 is a partial view of the inclined plate configuration of the present invention;

FIG. 8 is a cross-sectional view of the soil box structure of the present invention;

FIG. 9 is a bottom view of the trenching plate construction of the present invention;

in the figure: 1. a vehicle framework; 101. a drive device; 102. a handle; 103. a transmission structure; 104. a front wheel; 2. a first transmission wheel set; 3. a transmission case; 301. a movable bar; 302. a fixing strip; 4. an inclined plate; 401. blocking strips; 402. a telescopic block; 403. a top block; 404. a lifting plate; 405. a tension spring; 406. a rotating shaft; 407. a side plate; 408. a pressing block; 409. a camera; 410. a micro motor; 411. a rod member; 5. a trenching plate; 6. a soil covering plate; 601. a movable shaft; 7. fixing the disc; 701. rotating the disc; 702. seedling cylinders; 703. seedling falling cylinder; 704. a sliding guide rail; 705. a hole; 706. a snap structure; 8. a soil box; 801. a gear case; 802. a screw shaft; 9. a rear wheel; 901. a seat; 902. a second transmission wheel set.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

Example 1

As shown in fig. 1-9, the invention provides a pepper transplanter for agricultural production, which comprises a cart framework 1 and a driving device 101, wherein the cart framework 1 is integrally arranged in a well-shaped structure, the driving device 101 and a handle 102 are installed at one end of the cart framework 1, the driving device 101 comprises an engine and a reduction gearbox, the reduction gearbox comprises a clutch, a transmission structure 103 is arranged at the bottom end of the driving device 101, a front wheel 104 is installed at the bottom end of the transmission structure 103, a first transmission wheel set 2 is arranged on one side surface of the driving device 101, a transmission box 3 is arranged in the middle of the cart framework 1, the inner side of the transmission box 3 comprises a movable strip 301 and a fixed strip 302, an inclined plate 4 is installed at the top end of the fixed strip 302, the transmission box 3 is in transmission connection with the driving device 101 through the first transmission wheel set 2, a trenching plate 5 is installed at the bottom end of the movable strip 301, and a soil covering plate 6 is installed at one end of the trenching plate 5;

fixed disk 7 is installed to one side of fixed strip 302, rotary disk 701 is installed on the top of fixed disk 7, rotary disk 701's surface is provided with a seedling section of thick bamboo 702, the bottom of fixed disk 7 is provided with a seedling section of thick bamboo 703 that falls, it sets up in ditching board 5 rear side to fall seedling section of thick bamboo 703 bottom, the bottom side of fixed disk 7 is provided with soil box 8, rear wheel 9 is installed to the other end of car skeleton 1, the top side of rear wheel 9 is provided with seat 901, rear wheel 9 includes the shaft, the surface of shaft is provided with second transmission wheelset 902, be the transmission between second transmission wheelset 902 and the soil box 8 and connect.

Further, the surface of rotary disk 701 is provided with sliding guide 704, sliding guide 704 is oval shape setting, the inboard of its sliding guide 704 is provided with a seedling section of thick bamboo 702, and a seedling section of thick bamboo 702 passes through sliding guide 704 and sets up for rotating, the surface both sides of fixed disk 7 are provided with the drive circle, and the inboard of drive circle is provided with hole 705, hole 705 runs through in rotary disk 701 surface, be located fixed disk 7 and rotary disk 701 both sides respectively, a seedling section of thick bamboo 703 is located the bottom of hole 705 that falls, the bottom of a seedling section of thick bamboo 702 is provided with bullet knot structure 706, bullet knot structure 706 includes torsion spring and bottom.

The inboard blend stop 401 that is provided with of hang plate 4, the inboard of blend stop 401 is provided with flexible piece 402, 4 inboard of hang plate is the setting of streamlined structure bottom plate, the bottom is the setting of protruding column structure, the inside bottom side of hang plate 4 is provided with kicking block 403, lifter plate 404 is installed on the top of kicking block 403, the one end top fixed mounting of lifter plate 404 has flexible piece 402, expanding spring 405 is installed to the bottom, the other end top side of lifter plate 404 is provided with axis of rotation 406, member 411 is installed on the top of axis of rotation 406, curb plate 407 is installed to the one end of axis of rotation 406, and the surface of axis of rotation 406 is provided with presses piece 408, it sets up to be 90 degrees structures to press between piece 408 and the lifter plate 404, and press piece 408 to be located axis of rotation 406 both sides, be provided with the clearance between curb plate 407 and the hang plate 4.

The top surface of one end of the inclined plate 4 far away from the rod 411 is provided with a camera 409, and the surface of one end of the inclined plate 4 far away from the rod 411 is provided with a micro motor 410.

A gear box 801 is arranged in the soil box 8, the second transmission wheel set 902 comprises a transmission belt and transmission gears, an umbrella wheel structure arranged at 90 degrees is arranged in the gear box 801, a spiral shaft 802 is arranged at the bottom end of the gear box 801, and the bottom of the spiral shaft 802 extends to the bottom end of the soil box 8 to extend out of a pipeline and is located at the top end of the soil covering plate 6.

Ditching board 5 is the setting of type of falling a mountain structure, and wherein the front side top is provided with the roof, and the roof is fixed connection with activity strip 301, and first transmission wheelset 2 is located 3 insides of transmission case and includes the gear structure, and activity strip 301 surface is provided with the rack, and rack and gear structure set up for the transmission meshing, and the rear side top of ditching board 5 is the opening form setting, and the top is provided with seedling section of thick bamboo 703 that falls.

The trenching plate 5 and the soil covering plate 6 are movably connected through a movable shaft 601, wherein the movable shaft 601 comprises a torsion spring and is used for limiting the soil covering plate 6, the soil covering plate 6 is arranged towards the inner side in a splayed shape, the top end of the soil covering plate 6 is arranged in an open shape, and the top side of the soil covering plate is provided with an extension pipe of a soil box 8.

Specifically, the overall structure is composed of a conventional vehicle frame 1, a driving device 101 and a handle, and a user can drive the front wheel 104 to move the overall device according to the transmission structure 103 only by opening the driving device 101.

When needs the ditching, it is inboard that operation drive arrangement 101 transmits to transmission case 3 through first drive wheel group 2 promptly, inboard gear drive movable strip 301 oscilaltion, drive ditching board 5 moves down until reducing to front wheel 104, at this moment front wheel 104 remove the back will drive ditching board 5 and realize towards the effect of front end ditching, after seedling cylinder 703 drops seedling downwards, the inboard soil covering board 6 of rear side will be the splayed and will gather together ditching board 5 detached soil inwards, it piles native form to be the bar after drawing in to receive the soil covering board 6 on the route of realizing ditching, this kind of mode can avoid the phenomenon that the seedling topples over towards the rear side in a large number to take place.

The seedling falling cylinder 703 mainly falls seedlings through the seedling falling cylinder 702 at the top, a fixed disc 7 at one side of the fixed strip 302 is fixedly arranged at the bottom end, the seedling falling cylinder 702 is driven to move on the surface through a sliding guide rail 704 of the rotating disc 701 at the top, after the seedling falling cylinder 702 moves to a hole 705, the elastic buckling structure 706 is opened, namely, the seedlings fall to the rear side of the ditching plate 5 after a torsion spring at a rotating shaft is opened, and after the sliding guide rail 704 rotates again, the elastic buckling structure 706 is in surface contact with the rotating disc 701, so that the bottom cover is restored to the bottom end of the seedling falling cylinder 702 until the seedlings are put into the seedling falling cylinder 702 again;

seedlings in the seedling cylinders 702 are mainly thrown manually, or naturally fall off through seedlings on the surfaces of the inclined plates 4, the sliding guide rails 704 are arranged in an oval structure, the straight edges and the inclined plates 4 are arranged in a front-back corresponding mode, namely, a plurality of slideways separated by the barrier strips 401 on the inner sides of the inclined plates 4 correspond to the straight edge seedling cylinders 702 one by one, after the hollow seedling cylinders 702 rotate to the straight edges, the cameras 409 form the image recognition hollow seedling cylinders 702, then the micro motors 410 are controlled to start to drive the rotating shafts 406 to rotate, the penetrating rotating shafts 406 rotate to the bottoms of the rotating rear side plates 407 after the rotating shafts are rotated, the pressing blocks 408 press one ends of the lifting plates 404, the other ends of the lifting plates 404 jack up the telescopic blocks 402 based on the jack blocks, so that the seedlings close to the inner sides of the inclined plates 4 are prevented from falling off, only one seedling is separated to match with a small amount of bottom mound 403 to enter the seedling cylinders 702, and after the rotating shafts 406 are reset, the telescopic springs 405 pull the telescopic blocks 402 and the lifting plates 404 to reset;

the seedlings can be directly and manually put into the seedling tube 702 when necessary, or the rotating shaft 406 is directly operated through the rod 411 to control the putting of the seedlings, the height of the seat 901 can be adjusted after the seat is disassembled when necessary, the inclined plate 4 is visited at the rear side to achieve the technical effect of automatic front and rear seedling throwing, and the full-automatic seedling throwing is achieved.

After the conventional trenching plate 5 is matched with the soil covering plate 6 and the movable shaft 601 for soil covering, the separated soil can only be gathered to the middle, so that strip-shaped soil piles are not easy to form under the condition that the soil quality of the soil is not good, at the moment, workers can pour soil piles such as chemical fertilizer or nutrient soil and other agglomerated materials into the soil box 8, the rear wheel 9 is mainly driven by the front wheel 104 or directly driven by the front wheel 104, the rear wheel 9 is driven by the second transmission wheel set 902 to drive the gear box 801 to rotate, so that the umbrella wheel is driven to the screw shaft 805 at 90 degrees at the inner side, the screw shaft 802 can rotate the materials from the soil box 8 to the inner side of the trenching plate 6, namely, the materials are firstly filled to the trenched position, the trenching plate 6 gathers the soil piles separated to the two ends inwards again to form the strip-shaped soil piling function, and the gear box 801, the trenching plate 5 and the soil covering plate 6 can be installed in pairs as necessary.

Finally, it should be noted that: 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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A pepper transplanting machine for agricultural production comprises a vehicle framework (1) and a driving device (101), wherein the vehicle framework (1) is integrally arranged in a well-shaped structure, and is characterized in that the driving device (101) and a handle (102) are installed at one end of the vehicle framework (1), the driving device (101) comprises an engine and a reduction gearbox, the reduction gearbox comprises a clutch, a transmission structure (103) is arranged at the bottom end of the driving device (101), a front wheel (104) is installed at the bottom end of the transmission structure (103), a first transmission wheel set (2) is arranged on one side surface of the driving device (101), a transmission box (3) is arranged in the middle of the vehicle framework (1), a movable strip (301) and a fixed strip (302) are arranged on the inner side of the transmission box (3), an inclined plate (4) is installed at the top end of the fixed strip (302), the transmission box (3) is in transmission connection with the driving device (101) through the first transmission wheel set (2), a trenching plate (5) is installed at the bottom end of the movable strip (301), and a soil covering plate (6) is installed at one end of the trenching plate (5);

fixed disk (7) are installed to one side of fixed strip (302), and rotary disk (701) are installed on the top of fixed disk (7), and the surface of rotary disk (701) is provided with seedling section of thick bamboo (702), the bottom of fixed disk (7) is provided with seedling section of thick bamboo (703), and seedling section of thick bamboo (703) bottom sets up in ditching board (5) rear side, the bottom side of fixed disk (7) is provided with soil box (8), rear wheel (9) are installed to the other end of car skeleton (1), and the top side of rear wheel (9) is provided with seat (901), rear wheel (9) include the shaft, and the surface of shaft is provided with second transmission wheelset (902), is the transmission connection between second transmission wheelset (902) and soil box (8).

2. The pepper transplanter for agricultural production according to claim 1, wherein the surface of the rotating disk (701) is provided with a sliding guide rail (704), the sliding guide rail (704) is arranged in an oval shape, the inner side of the sliding guide rail (704) is provided with a seedling tube (702), the seedling tube (702) is rotatably arranged through the sliding guide rail (704), two sides of the surface of the fixed disk (7) are provided with a transmission ring, the inner side of the transmission ring is provided with a hole (705), the hole (705) penetrates through the surface of the rotating disk (701) and is respectively positioned on two sides of the fixed disk (7) and the rotating disk (701), the seedling tube (703) is positioned at the bottom end of the hole (705), the bottom end of the seedling tube (702) is provided with an elastic buckling structure (706), and the elastic buckling structure (706) comprises a torsion spring and a bottom cover.

3. The pepper transplanter for agricultural production as claimed in claim 1 or 2, wherein a barrier strip (401) is arranged on the inner side of the inclined plate (4), a telescopic block (402) is arranged on the inner side of the barrier strip (401), the inner side of the inclined plate (4) is arranged as a bottom plate with a streamline structure, the bottom of the inclined plate (4) is arranged as a convex structure, a top block (403) is arranged on the bottom side of the inner portion of the inclined plate (4), a lifting plate (404) is installed at the top end of the top block (403), the telescopic block (402) is fixedly installed at the top of one end of the lifting plate (404), a telescopic spring (405) is installed at the bottom of the lifting plate, a rotating shaft (406) is arranged on the top side of the other end of the lifting plate (404), a rod member (411) is installed at the top end of the rotating shaft (406), a side plate (407) is installed at one end of the rotating shaft (406), a pressing block (408) is arranged on the surface of the rotating shaft (406), a 90-degree structure is arranged between the lifting plate (404), and the pressing block (408) is arranged on two sides of the rotating shaft (406), and a gap is arranged between the side plate (407) and the inclined plate (4).

4. The pepper transplanting machine for agricultural production as claimed in claim 3, wherein a camera (409) is installed on the top surface of one end of the inclined plate (4) far away from the rod member (411), and a micro motor (410) is installed on the surface of one end of the inclined plate (4) far away from the rod member (411).

5. The pepper transplanting machine for agricultural production as claimed in claim 1, wherein a gear box (801) is arranged inside the soil box (8), the second transmission wheel set (902) comprises a transmission belt and a transmission gear, an umbrella wheel structure arranged at 90 degrees is arranged inside the gear box (801), a screw shaft (802) is arranged at the bottom end of the gear box (801), and the bottom of the screw shaft (802) extends out of the pipeline to the bottom end of the soil box (8) and is located at the top end of the soil covering plate (6).

6. The pepper transplanter for agricultural production according to claim 1 or 5, wherein the ditching plate (5) is arranged in an inverted mountain-shaped structure, a top plate is arranged at the top of the front side of the ditching plate, the top plate is fixedly connected with the movable strip (301), the first driving pulley set (2) is arranged inside the transmission box (3) and comprises a gear structure, a rack is arranged on the surface of the movable strip (301), the rack and the gear structure are arranged in a transmission engagement manner, the top of the rear side of the ditching plate (5) is arranged in an open manner, and a seedling dropping cylinder (703) is arranged at the top of the ditching plate.

7. The pepper transplanter for agricultural production according to claim 6, wherein the trenching plate (5) and the soil covering plate (6) are movably connected through a movable shaft (601), wherein the movable shaft (601) comprises a torsion spring for limiting the soil covering plate (6), the soil covering plate (6) is arranged in a splayed shape facing the inside, the top end of the soil covering plate (6) is arranged in an open shape, and the top side of the soil covering plate is provided with an extension pipe of the soil box (8).

Images