CN113575061B - Industrial panax notoginseng transplanter - Google Patents

Abstract

The invention relates to an industrial panax notoginseng transplanter, which belongs to the field of agricultural machinery and comprises a frame (1), a frame upper plate (2), a gasoline engine (3), a speed reducer (4), a motor II (7), a traveling wheel (8), a seedling conveying device, a transplanting device, a rotary tillage device (11), a furrow opener (12), a chain wheel transmission mechanism I (13), a chain wheel transmission mechanism II (14), a chain wheel transmission mechanism IV (16) and a fertilizing device (17). The invention can realize the mechanized transplantation of the panax notoginseng, has compact structure of the whole machine, is suitable for the transplantation process of the industrial plantation of the panax notoginseng, and can finish the whole panax notoginseng transplantation process by a single person. The seedling conveying device and the transplanting device are combined, the consistency of row spacing, planting spacing and depth of the transplanted seedlings can be ensured, the transplanting efficiency and the transplanting qualification rate are improved, the labor intensity of farmers is reduced, and the seedling conveying device and the transplanting device have important significance on the standardized planting of pseudo-ginseng and the income increase of the farmers.

Description

Industrial panax notoginseng transplanter

Technical Field

The invention belongs to the technical field of agricultural machinery, and particularly relates to an industrial panax notoginseng transplanter.

Background

Pseudo-ginseng is a special Chinese medicinal material in Yunnan province, the yield accounts for about 98 percent of the country, the income of the pseudo-ginseng industry reaches 1000 hundred million yuan by the end of 2020, and the pseudo-ginseng has a special effect on treating cardiovascular and cerebrovascular diseases and is called as a hemostatic. Panax notoginseng transplanting is one of important links of Panax notoginseng planting, and the problems of high labor intensity and low operation efficiency exist in the current manual transplanting. Compared with manual transplanting, the mechanical transplanting can realize consistent plant spacing and row spacing in transplanting operation, uniform depth and reduced labor intensity and production cost.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the industrial panax notoginseng transplanter, which realizes the mechanical transplantation of panax notoginseng, has a compact structure, is suitable for the industrial planting of panax notoginseng, reduces the labor intensity of farmers while improving the transplantation efficiency and the transplantation quality, and simultaneously adopts a gasoline engine to provide power, reduces the structural size and the weight of the whole transplanter and is convenient for single-person operation.

In order to realize the purpose, the invention is realized by the following technical scheme:

the utility model provides a batch production pseudo-ginseng transplanter includes frame 1, frame upper plate 2, gasoline engine 3, reduction gear 4, motor II 7, walking wheel 8, seedling conveyor, transplanting device, rotary cultivator attachment 11, furrow opener 12, sprocket drive mechanism I13, sprocket drive mechanism II 14, sprocket drive mechanism IV 16, fertilizer injection unit 17, frame 1's bottom front end and rear end install walking wheel 8 through the shaft respectively, frame upper plate 2 is installed to frame 1's front end top, install gasoline engine 3 on frame upper plate 2, gasoline engine 3 is connected with reduction gear 4, reduction gear 4 is connected at the shaft through sprocket drive mechanism IV 16 and frame 1 front end's walking wheel 8, two pairs of walking wheel 8's shaft passes through sprocket drive mechanism II 14 and connects, frame 1's bottom front side installs rotary cultivator attachment 11, rotary cultivator attachment 11's the shaft passes through sprocket drive mechanism I13 and motor II 7's drive shaft, motor II 7 fixed mounting is on frame upper plate 2, installs furrow opener 12 on frame 1 of rotary cultivator attachment 11 rear side, installs on frame 1 of rotary cultivator attachment 12 rear side, fertilizer injection unit installs the seedling conveyor on frame 1 and frame 1's seedling conveyor top 17.

Further, the seedling conveying device comprises a side plate 9-1, a roller I9-2, a roller II 9-3, a roller III 9-4, a conveying belt 9-5, a seedling blocking plate 9-6, a conveying shaft I9-7, a conveying shaft II 9-8, a conveying shaft III 9-9 and a seedling motor 9-10, wherein the side plate 9-1 is fixedly installed on the rack 1, the upper portion of the side plate 9-1 is provided with the roller I9-2 and the roller II 9-3 which are at the same height through the conveying shaft I9-7 and the conveying shaft II 9-8 respectively, the conveying shaft I9-7 is connected with a power output end of the seedling motor 9-10, the lower portion of the side plate 9-1 is provided with the roller III 9-4 through the conveying shaft III 9-9, the conveying belt 9-5 is sleeved on the roller I9-2, the roller II 9-3 and the roller III 9-4, and the seedling blocking plate 9-6 is arranged on the conveying belt 9-5 at equal intervals and uniformly.

Further, the transplanting device comprises a seedling clamp 10-1, a seedling clamp rotating shaft 10-2, a seedling clamp fixing shaft 10-3, seedling clamp connecting plates 10-4, cams 10-5, a cam rotating shaft 10-6, a direct current motor 10-7, a motor I6 and a chain wheel transmission mechanism III 15, wherein the seedling clamp rotating shaft 10-2 is installed on the rack 1 through a bearing, the seedling clamp rotating shaft 10-2 is connected with a power output shaft of the motor I6 through the chain wheel transmission mechanism III 15, the two seedling clamp connecting plates 10-4 are installed on the seedling clamp rotating shaft 10-2, the seedling clamp connecting plates 10-4 are provided with the seedling clamp 10-1, the cam rotating shaft 10-6 is installed on the rack 1 through a bearing, a power output end of the direct current motor 10-7 is connected with the cam rotating shaft 10-6, and two cams 10-5 are installed at positions, corresponding to the cam rotating shaft 10-6 and the seedling clamp connecting plates 10-4, of the cam rotating shaft 10-6.

Further, the seedling clamp 10-1 comprises a left clamp 10-1-1, a right clamp 10-1-2, a limiting plate 10-1-3, a tightening tension spring 10-1-4, a seedling clamp opening and closing shaft 10-1-5, a seedling clamp opening and closing plate 10-1-6, an air bag 10-1-7, a seedling clamp opening and closing fixing block 10-1-8, a seedling clamp fixing shaft 10-1-9 and a rotating slide block 10-1-10, wherein the left clamp 10-1-1 and the right clamp 10-1-2 are fixed on the seedling clamp opening and closing shaft 10-1-5 through bolts, the tightening tension spring 10-1-4 arranged on the limiting plate 10-1-3 is also fixed on the seedling clamp opening and closing shaft 10-1-5, the seedling clamp opening and closing plate 10-1-6 is arranged above the seedling clamp opening and closing shaft 10-1-5, the air bag 10-1-7 is fixed in the middle of the two seedling clamp opening and closing plates 10-1-6, the seedling clamp opening and closing plate 10-1-9 and the rotating shaft 10-2 are arranged on the seedling clamp opening and closing shaft through the rotating slide block 10-1-6, and the seedling clamp opening and rotating slide block 10-1-10-1-6 are connected on the seedling clamp fixing shaft 10-1.

Further, the fertilizer applying device 17 comprises a fertilizer box 17-1, a mounting plate 17-2, a shell 17-3, grooved wheels 17-4, a transmission shaft 17-5, a fixing plate 17-6 and a fertilizer applying pipe 17-7, wherein the fertilizer box 17-1 is welded on the mounting plate 17-2, the mounting plate 17-2 is fixed on the rack 1, the grooved wheels 17-4 are mounted in the shell 17-3, the grooved wheels 17-4 are mounted on the mounting plate 17-2 through the transmission shaft 17-5, and the opening at the bottom of the shell 17-3 is connected with the fertilizer applying pipe 17-7.

The invention has the beneficial effects that:

the method can complete the mechanized transplanting operation of the pseudo-ginseng, is suitable for the industrialized planting of the pseudo-ginseng, meets the agronomic requirements of the pseudo-ginseng transplanting, can realize the consistency of the plant spacing and the row spacing of the transplanted pseudo-ginseng seedlings and the uniform depth, improves the seedling emergence quality and the operation efficiency, reduces the labor intensity of farmers, and has important significance for the standardized planting of the pseudo-ginseng. Meanwhile, the seedling conveying device and the transplanting device are combined, the seedling taking and transplanting processes of the pseudo-ginseng are realized, the reliability is high, and the whole transplanting process can be completed by only one person; after the transplantation of the panax notoginseng is finished, the fertilizing device can also finish fertilizing operation, and the yield of the panax notoginseng at the later stage is improved.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a perspective view of the seedling clamp;

fig. 5 is a perspective view of the fertilizer applying device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention and the accompanying drawings, 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.

As shown in fig. 1-3, an industrial panax notoginseng transplanter comprises a frame 1, a frame upper plate 2, a gasoline engine 3, a speed reducer 4, a motor ii 7, traveling wheels 8, a seedling conveying device, a transplanting device, a rotary tillage device 11, a furrow opener 12, a sprocket transmission mechanism i 13, a sprocket transmission mechanism ii 14, a sprocket transmission mechanism iv 16 and a fertilizing device 17, wherein the traveling wheels 8 are respectively installed at the front end and the rear end of the bottom of the frame 1 through wheel shafts, the frame upper plate 2 is installed at the top of the front end of the frame 1, the gasoline engine 3 is connected with the speed reducer 4, the speed reducer 4 is connected with the traveling wheels 8 at the front end of the frame 1 through the sprocket transmission mechanism iv 16 on the wheel shafts, the wheel shafts of the two pairs of traveling wheels 8 are connected through the sprocket transmission mechanism ii 14, the bottom front side of the frame 1 is provided with the furrow opener 11, the rotary tillage shaft of the furrow opener 11 is connected with the driving shaft of the motor ii 7 through the sprocket transmission mechanism i 13, the motor ii 7 is fixedly installed on the frame upper plate 2, the frame 1 is installed at the rear side of the frame 11, the furrow opener 12 is installed on the frame 1, the rotary tillage device 1 is installed on the rotary tillage device, the seedling conveying device 1, and the seedling conveying device 17 is installed on the seedling conveying device matched with the top of the frame 1. The gasoline engine 3 drives the speed reducer 4 to work, the speed reducer 4 drives the wheel shafts at the front end to rotate through the sprocket transmission mechanism IV 16, two wheel shafts are driven through the sprocket transmission mechanism II 14, the driving travelling wheels 8 rotate to realize the travelling of the whole transplanter in the field, the transplanter is in the travelling process, the motor II 7 drives the rotary cultivator 11 device to rotate through the sprocket transmission mechanism I13 to realize the rotary cultivation of soil, the soil is guaranteed to be loose, then the seed ditches are opened in the loose soil through the ditcher 12, after the seed ditches are opened, the seedling conveying device conveys seedlings to the transplanting device, the seedlings are transplanted to the seed ditches through the transplanting device, and then the fertilizer is applied to the seed ditches through the fertilizer applying device 17.

The seedling conveying device comprises a side plate 9-1, a roller I9-2, a roller II 9-3, a roller III 9-4, a conveying belt 9-5, a seedling blocking plate 9-6, a conveying shaft I9-7, a conveying shaft II 9-8, a conveying shaft III 9-9 and a seedling motor 9-10, wherein the side plate 9-1 is fixedly installed on a rack 1, the upper part of the side plate 9-1 is provided with the roller I9-2 and the roller II 9-3 which are at the same height through the conveying shaft I9-7 and the conveying shaft II 9-8 respectively, the conveying shaft I9-7 is connected with a power output end of the seedling motor 9-10, the lower part of the side plate 9-1 is provided with the roller III 9-4 through the conveying shaft III 9-9, the conveying belt 9-5 is sleeved on the roller I9-2, the roller II 9-3 and the roller III 9-4, and the seedling blocking plate 9-6 is uniformly arranged on the conveying belt 9-5 at equal intervals. The seedlings are placed on the conveying belts 9-5 between the two adjacent seedling blocking plates 9-6, the seedling motors 9-10 drive the conveying shafts I9-7 to rotate, and the conveying belts 9-5 are driven to transmit through the rollers I9-2, the rollers II 9-3 and the rollers III 9-4, so that the seedlings are conveyed to the transplanting device.

The transplanting device comprises a seedling clamp 10-1, a seedling clamp rotating shaft 10-2, a seedling clamp fixing shaft 10-3, a seedling clamp connecting plate 10-4, cams 10-5, a cam rotating shaft 10-6, a direct current motor 10-7, a motor I6 and a chain wheel transmission mechanism III 15, wherein the seedling clamp rotating shaft 10-2 is installed on a rack 1 through a bearing, the seedling clamp rotating shaft 10-2 is connected with a power output shaft of the motor I6 through the chain wheel transmission mechanism III 15, the two seedling clamp connecting plates 10-4 are installed on the seedling clamp rotating shaft 10-2, the seedling clamp connecting plate 10-4 is provided with the seedling clamp 10-1, the cam rotating shaft 10-6 is installed on the rack 1 through a bearing, a power output end of the direct current motor 10-7 is connected with the cam rotating shaft 10-6, and the two cams 10-5 are installed at positions, corresponding to the cam rotating shaft 10-6 and the seedling clamp connecting plate 10-4, of the cam rotating shaft 10-6. As shown in figure 4, the seedling clamp 10-1 comprises a left clamp 10-1-1, a right clamp 10-1-2, a limit plate 10-1-3, a tension spring 10-1-4, a seedling clamp opening and closing shaft 10-1-5, a seedling clamp opening and closing plate 10-1-6, an air bag 10-1-7, a seedling clamp opening and closing fixing block 10-1-8, a seedling clamp fixing shaft 10-1-9 and a rotating slide block 10-1-10, wherein the left clamp 10-1-1 and the right clamp 10-2 are fixed on the seedling clamp opening and closing shaft 10-1-5 through bolts, the tension spring 10-1-4 arranged on the limit plate 10-1-3 is also fixed on the seedling clamp opening and closing shaft 10-1-5, the seedling clamp opening and closing plate 10-1-6 is arranged above the seedling clamp opening and closing shaft 10-1-5, the air bag 10-1-7 is fixed between the two seedling clamp opening and closing plates 10-1-6, a rotating shaft 10-1-9 and the seedling clamp opening and closing shaft 10-2 are connected through the seedling clamp opening and closing shaft 10-1-6, and the seedling clamp opening and the rotating slide block 10-1-5 are connected. When the seedling conveying device conveys seedlings to the transplanting device, an air bag 10-1-7 of a seedling clamp 10-1 of the transplanting device starts to be inflated, a left clamp 10-1-1 and a right clamp 10-1-2 on the seedling clamp 10-1 are opened for a certain angle under the action of a seedling clamp opening plate 10-1-6, then the pseudo-ginseng seedlings are manually placed into a seedling blocking plate 9-6 on a conveying belt 9-5 in a single-plant mode according to a certain direction, a motor II 7 drives a roller I9-2 to rotate, the seedlings are conveyed to a seedling clamp position through the conveying belt 9-5, the motor I6 drives a seedling clamp rotating shaft 10-2 to rotate, and then the seedling clamp 10-1 is driven to rotate towards the advancing direction of a machine to the front of the seedling clamp position through a seedling clamp connecting plate 10-4, the DC motor 10-7 drives the cam 10-5 to rotate, the seedling clamp 10-1 is inclined and positioned at the seedling clamping position under the action of the cam, at the moment, the air bag 10-1-7 in the seedling clamp 10-1 is deflated, the left clamp 10-1-1 and the right clamp 10-1-2 clamp the seedling and close together under the action of the tension spring 10-1-4, the seedling clamp 10-1 rotates to the horizontal position again in the rotation process of the cam 10-5, finally, the seedling clamp connecting plate 10-4 drives the seedling clamp 10-1 to rotate to the seedling throwing position, the air bag 10-1-7 is inflated, the left clamp 10-1-1 and the right clamp 10-1-2 are opened, the seedling falls into the opened seedling ditch,

As shown in figure 5, the fertilizer applying device 17 comprises a fertilizer box 17-1, a mounting plate 17-2, a shell 17-3, a grooved pulley 17-4, a transmission shaft 17-5, a fixing plate 17-6 and a fertilizer applying pipe 17-7, wherein the fertilizer box 17-1 is welded on the mounting plate 17-2, the mounting plate 17-2 is fixed on a frame 1, the grooved pulley 17-4 is installed in the shell 17-3, the grooved pulley 17-4 is installed on the mounting plate 17-2 through the fixing plate grooved pulley 17-4, the fertilizer applying pipe 17-7 is connected to the opening of the bottom of the shell 17-3, after seedlings are transplanted in a seed furrow, a driving mechanism drives the grooved pulley 17-4 to rotate, and the fertilizer in the fertilizer box 17-1 is applied to the seed furrow through the fertilizer applying pipe 17-7 by the rotating grooved pulley 17-4, so that the whole transplanting process is completed.

The working process of the invention is as follows:

during transplanting, the gasoline engine 3 drives the walking device 8 to start advancing on the rail through the speed reducer 4, the motor II 7 drives the rotary tillage device 11 to rotate, the land is leveled, the furrow opener 12 opens a seedling ditch along with the advancing process of the furrow opener, the air bags 10-1-7 in the seedling clips 10-1 start to be inflated, the left clips 10-1-1 and the right clips 10-1-2 on the seedling clips 10-1 are opened for a certain angle under the action of the seedling clip opening plates 10-6, then the pseudo-ginseng seedlings are manually placed into the seedling blocking plates 9-6 on the conveyor belt 9-5 in a single-plant mode in a certain direction, the motor II 7 drives the roller I9-2 to rotate, further the seedlings are conveyed to the seedling clip positions through the conveyor belt 9-5, and the motor I6 drives the seedling clip rotating shaft 10-2 to rotate, then the seedling clamp 10-1 is driven to rotate towards the advancing direction of the machine to the front of a seedling clamping position of the seedling clamp by the seedling clamp connecting plate 10-4, the cam 10-5 is driven by the direct current motor 10-7 to rotate, the seedling clamp 10-1 is inclined and positioned at the seedling clamping position of the seedling clamp under the action of the cam 10-7, the air bag 10-1-7 in the seedling clamp 10-1 is deflated, the seedling clamp 10-1 is clamped by the left clamp 10-1-1 and the right clamp 10-1-2 under the action of the tension spring 10-1-4, seedlings are closed together, the seedling clamp 10-1 is rotated to the horizontal position again in the rotation process of the cam 10-5, finally the seedling clamp connecting plate 10-4 drives the seedling clamp 10-1 to rotate to a seedling throwing position, the air bag 10-1-7 is inflated, the left clamp 10-1-1 and the right clamp 10-1-2 are opened, the seedlings fall into the opened seedling ditches, and fertilizer in the fertilizer boxes 17-1 enters the seedling ditches through the rotation of the grooved wheels 17-4 and the fertilizing pipes 17-7 to complete the whole transplanting process.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, while the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (4)

1. The utility model provides a batch production pseudo-ginseng transplanter which characterized in that: the industrial panax notoginseng transplanter comprises a frame (1), a gasoline engine (3), a speed reducer (4), a motor II (7), a walking wheel (8), a seedling conveying device, a transplanting device, a motor I (6), a rotary tillage device (11), a furrow opener (12), a chain wheel transmission mechanism I (13), a chain wheel transmission mechanism III (15), a chain wheel transmission mechanism IV (16) and a fertilizing device (17), wherein the walking wheel (8) is arranged at the front end and the rear end of the bottom of the frame (1), the gasoline engine (3) is arranged at the front end of the frame (1), the gasoline engine (3) is connected with the speed reducer (4), the speed reducer (4) is connected with a wheel shaft of the walking wheel (8) through the chain wheel transmission mechanism IV (16), the rotary tillage device (11) is arranged at the front side of the bottom of the frame (1), a rotary tillage shaft of the rotary tillage device (11) is connected with a driving shaft of the motor II (7) through the chain wheel transmission mechanism I (13), the motor II (7) is fixedly arranged on the frame (1), the frame (11) at the rear side of the rotary tillage device (11), the furrow opener (12) is arranged on the frame (1), the seedling conveying device (1) and the seedling clamp (10) which is arranged on the transplanting device, and the seedling conveying device (1) which is matched with the transplanting device (1) and comprises the seedling conveying device (10) matched with the transplanting device (1) and seedling conveying device (1) arranged on the transplanting device (1) Seedling clamp rotating shaft (10-2), seedling clamp connecting plate (10-4), cam (10-5), cam rotating shaft (10-6), direct current motor (10-7), seedling clamp rotating shaft (10-2) is installed on frame (1), seedling clamp rotating shaft (10-2) is connected with motor I (6) through sprocket drive mechanism III (15), seedling clamp connecting plate (10-4) is installed at both ends of seedling clamp rotating shaft (10-2), seedling clamp (10-1) is installed on seedling clamp connecting plate (10-4), cam rotating shaft (10-6) is installed on frame (1) through a bearing, the power output end of direct current motor (10-7) is connected with cam rotating shaft (10-6), two cams (10-5) are installed at the position where cam rotating shaft (10-6) corresponds to seedling clamp connecting plate (10-4), and fertilizing device (17) is installed at the top of the rear end of frame (1).

2. The industrial panax notoginseng transplanter according to claim 1, wherein: the seedling conveying device comprises side plates (9-1), a roller I (9-2), a roller II (9-3), a roller III (9-4), a conveying belt (9-5), seedling blocking plates (9-6), a conveying shaft I (9-7), a conveying shaft II (9-8), a conveying shaft III (9-9) and a seedling motor (9-10), wherein the side plates (9-1) are fixedly installed on the rack (1), the upper portion of each side plate (9-1) is provided with the roller I (9-2) and the roller II (9-3) which are the same in height through the conveying shaft I (9-7) and the conveying shaft II (9-8), the conveying shaft I (9-7) is connected with the power output end of the seedling motor (9-10), the lower portion of the side plate (9-1) is provided with the roller III (9-4) through the conveying shaft III (9-9), the conveying belt (9-5) is sleeved on the roller I (9-2), the roller II (9-3) and the roller III (9-4), and the seedling blocking plates (9-5) are evenly arranged at equal intervals.

3. The industrial panax notoginseng transplanter according to claim 1, wherein: the seedling clamp (10-1) comprises a left clamp (10-1-1), a right clamp (10-1-2), a limiting plate (10-1-3), a tightening tension spring (10-1-4), a seedling clamp opening and closing shaft (10-1-5), a seedling clamp opening and closing plate (10-1-6), an air bag (10-1-7), a seedling clamp opening and closing fixing block (10-1-8), a seedling clamp fixing shaft (10-1-9) and a rotating slide block (10-1-10), wherein the left clamp (10-1-1) and the right clamp (10-1-2) are fixed on the seedling clamp opening and closing shaft (10-1-5) through bolts, a tension spring (10-1-4) arranged on the limit plate (10-1-3) is also fixed on the seedling clamp opening and closing shaft (10-1-5), the seedling clamp opening and closing plate (10-1-6) is arranged above the seedling clamp opening and closing shaft (10-1-5), an air bag (10-1-7) is fixed between the two seedling clamp opening and closing plates (10-1-6), the seedling clamp fixing shaft (10-1-9) is connected with the seedling clamp rotating shaft (10-2) through the seedling clamp opening and closing plate (10-1-6), a rotating slide block (10-1-10) is arranged on the seedling clamp fixing shaft (10-1- 9) The above.

4. The industrial panax notoginseng transplanter according to claim 1, wherein: the fertilizer applying device (17) comprises a fertilizer box (17-1), a mounting plate (17-2), a shell (17-3), a grooved pulley (17-4), a transmission shaft (17-5) and a fertilizer applying pipe (17-7), wherein the fertilizer box (17-1) is welded on the mounting plate (17-2), the mounting plate (17-2) is fixed on the rack (1), the grooved pulley (17-4) is mounted in the shell (17-3), the grooved pulley (17-4) is mounted on the mounting plate (17-2) through the transmission shaft (17-5), and the opening at the bottom of the shell (17-3) is connected with the fertilizer applying pipe (17-7).

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