CN216600781U - Full-automatic type horizontal transplanting machine for sweet potato seedlings - Google Patents

Abstract

The utility model relates to a full-automatic horizontal sweet potato seedling transplanter which comprises a rack, a rotary tillage device, a ridging device and a seedling conveying device, wherein the rack is provided with land wheels, and the rotary tillage device, the ridging device and the seedling conveying device are sequentially arranged on the rack from front to back. The sweet potato seedling transplanting machine adopts the seedling separating device to automatically and sequentially place sweet potato seedlings into the seedling clamp, and the sweet potato seedlings are transversely and horizontally transplanted onto ridges through the opening and closing of the seedling clamp, so that the full-automatic transplanting of the sweet potato seedlings is realized, the labor force is thoroughly liberated, and the sweet potato transplanting efficiency is greatly improved; the sweet potato seedlings are conveyed by the seedling conveying device, and the seedling clamp is perpendicular to the ridges of the field, so that the horizontal planting of the sweet potato seedlings can be realized, the dense planting of the sweet potatoes can be realized, the agricultural requirements of planting and transplanting the sweet potatoes are better met, and the economic benefit of sweet potato planting is improved.

Description

Full-automatic type horizontal transplanting machine for sweet potato seedlings

Technical Field

The utility model relates to the technical field of agricultural machinery, in particular to the field of transplanting sweet potato seedlings, and specifically relates to a full-automatic horizontal sweet potato seedling transplanting machine.

Background

The sweet potato is a food crop with rich nutrition, wide application, high and stable yield, and the sweet potato planting area and the total yield of China all account for the first place in the world. At present, sweet potato planting methods mainly comprise an oblique planting method, a horizontal planting method, a straight planting method, a boat bottom planting method, a hook planting method and the like, wherein the oblique planting method and the horizontal planting method are most in line with the agricultural requirements of sweet potato planting. However, because of the lack of relevant transplanting machines, the sweet potato planting mainly depends on manual planting, the labor intensity is high, and the development of the sweet potato industry is severely restricted. Therefore, the realization of the mechanized transplanting meeting the agronomic requirements of sweet potato planting becomes the problem which needs to be solved urgently for sweet potato planting.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a full-automatic transverse horizontal sweet potato seedling transplanting machine, which realizes the mechanized transplanting of sweet potato seedlings.

The utility model is realized by the following technical scheme, and provides a full-automatic transverse horizontal sweet potato seedling transplanter which comprises a rack, a rotary tillage device, a ridging device and a seedling conveying device, wherein the rack is provided with land wheels, the rotary tillage device, the ridging device and the seedling conveying device are sequentially arranged on the rack from front to back, a seedling falling point of the seedling conveying device is matched with the ridging device, a seedling separating device is arranged above the seedling conveying device, and a seedling falling point of the seedling separating device is matched with the seedling conveying device.

This scheme drives the frame through traction equipment and removes when using, cultivates and loosen the soil through rotary cultivator attachment, carries out the ridging through the ridging device to the soil after loosening and is moulding to guarantee to send the seedling device to place the accuracy of seedling position, send the seedling device to through dividing the seedling device with the divided seedling, send the seedling to the field ridge after moulding through sending the seedling device, thereby realized the mechanized transplantation of seedling.

As optimization, divide seedling device to include cylinder V, overlap first seedling area and the second seedling area of twining on cylinder V, and be located cylinder III and cylinder IV of cylinder V below both sides respectively, cylinder III keeps away from one side of cylinder IV and is equipped with cylinder I, cylinder IV keeps away from one side of cylinder III and is equipped with cylinder II, first seedling area and second seedling area form the centre gripping to the seedling, first seedling area twines on cylinder I from cylinder V downwards behind cylinder III, the second seedling area twines on cylinder II from cylinder V downwards behind cylinder IV, power device is connected respectively to cylinder I and cylinder II. When the seedling separating device in the optimized scheme is used, seedlings are clamped between a first seedling belt and a second seedling belt, a certain distance is reserved between adjacent seedlings, then the first seedlings and the second seedlings are integrally wound on a roller V, a power device drives the roller I and the roller II to rotate during transplanting operation, the first seedling belt and the second seedling belt are separated from the roller III and the roller IV, the seedlings fall down one by one to realize seedling separation, the seedlings are clamped by the first seedling belt and the second seedling belt, and damage to the seedlings is avoided; the seedling can be conveniently separated well before the transplanting operation, and the transplanting operation efficiency is improved.

As optimization, the opposite side surfaces of the first seedling strip and the second seedling strip are respectively provided with adhesive sections at intervals, the adhesive sections on the first seedling strip and the adhesive sections on the second seedling strip are arranged oppositely, and the intervals of the adhesive sections form clamping seams for clamping seedlings. This optimization scheme is through setting up the viscidity section on first seedling area and second seedling area, has both realized blockking to the centre gripping of seedling, forms to the seedling, has guaranteed the interval between the adjacent seedling, bonds first seedling area and second seedling area simultaneously together, avoids first seedling area and second seedling area to appear misplacing or open and lead to the seedling to drop.

As optimization, the roller I and the roller II are respectively in transmission connection with the land wheel. According to the arrangement of the optimized scheme, when the land wheel rotates along with the movement of the transplanter, the roller I and the roller II are driven to rotate, and the synchronism of the movement and the seedling dividing operation of the transplanter is ensured.

As optimization, send seedling device including rotating the endless conveyor who sets up in the frame, and install on the conveyer belt and along conveyer belt circumference evenly distributed's a plurality of seedling clamps, the movement track that the seedling clamp is through being divided under seedling device seedling point and the ridging device and rise directly over the ridge. This send seedling device of optimization scheme is at the during operation, through the rotation of conveyer belt, drives seedling clamp in proper order under the branch seedling device seedling point that falls, and when seedling clamp moved to the branch seedling device seedling point that falls under, accepts the seedling that falls from dividing the seedling device, along with the rotation of conveyer belt, presss from both sides the seedling and send to the ridge that ridging device played, realizes sending the seedling.

Preferably, the seedling clamp comprises a fixed plate fixedly connected to the outer side surface of the conveying belt, and a movable clamping plate and a fixed clamping plate which are arranged on the fixed plate and are opposite to each other, the fixed clamping plate is fixedly connected with the fixed plate, the movable clamping plate is hinged to the fixed plate through a transverse shaft, a supporting arm extending to the inner side of the conveying belt is further fixedly connected to the movable clamping plate, and a roller positioned in the conveying belt is rotatably arranged on the supporting arm; the conveying belt comprises a seedling receiving section, a vertical section and a return section which are arranged in sequence along the conveying direction, a supporting plate is fixedly arranged behind the vertical section, and the distance between the supporting plate and the vertical section is smaller than the distance between the roller and the conveying belt when the seedling clamp is opened; the side of the movable clamping plate far away from the fixed clamping plate is connected with the fixed plate through a spring. The seedling clamp of the optimized scheme is in an open state when positioned at the seedling receiving section of the conveyor belt to receive seedlings, when the seedling clamp is moved to the vertical section, the rollers move close to the conveyor belt due to the arrangement of the supporting plates, so that the movable clamping plates are pushed to rotate towards the fixed clamping plates, the springs are stretched, the opening of the seedling clamp is closed, the seedlings are clamped, and the seedlings are prevented from falling off when conveyed downwards; through setting up vertical section, realize the vertical transport to the seedling, be convenient for realize that the horizontal level of sweet potato seedling plants and inserts.

Preferably, the conveyor belt is in transmission connection with the land wheel. The setting of this optimization scheme drives the conveyer belt through the land wheel and rotates, has guaranteed the synchronization that transplanter walking and seedling were carried.

The scheme also provides a transplanting method by using the full-automatic type sweet potato seedling transverse horizontal transplanter, which comprises the following steps:

1. seedlings are placed in clamping seams formed by the first seedling belts and the second seedling belts, the first seedling belts and the second seedling belts are bonded through adhesive sections, the seedlings are prevented from falling off, then the first seedling belts and the second seedling belts clamping the seedlings are wound on the roller V, the movable ends of the first seedling belts downwards wind the roller III and then are wound on the roller I, and the movable ends of the second seedling belts downwards wind the roller IV and then are wound on the roller II;

2. the transplanter is driven to move forward by a tractor, the land wheel drives the main transmission shaft to rotate, and the main transmission shaft drives the roller I, the roller II and the conveyor belt to rotate; when the roller I and the roller II rotate, the clamped seedlings are conveyed downwards, and when the seedlings reach the lower part between the roller III and the roller IV, the clamping of the first seedling belt and the second seedling belt is lost, and the seedlings fall into a seedling clamp; when the conveying belt moves, the seedling clamp is driven to move from the seedling receiving section to the vertical section, and when the seedling clamp moves to the vertical section, the roller moves close to the conveying belt under the action of the supporting plate, so that the movable clamping plate is driven to rotate towards the fixed clamping plate, seedlings are clamped by the seedling clamp, and the spring is stretched; when the seedling clamp moves from the vertical section to the return section, the support plate loses the resistance of the roller, the movable clamp plate rotates away from the fixed clamp plate under the action of the spring, the clamping of the seedling is lost, and the seedling is horizontally placed on the ridge in a transverse direction;

3. the seedlings planted on the ridges are compacted through the soil compacting wheels arranged at the rear end of the rack, so that the seedling transplantation is realized.

The utility model has the beneficial effects that:

1. sweet potato seedlings are automatically and sequentially placed into the seedling clamps by adopting the seedling separating device, and are horizontally transplanted to ridges through the opening and closing of the seedling clamps, so that the full-automatic transplantation of the sweet potato seedlings is realized, the labor force is thoroughly liberated, and the sweet potato transplantation efficiency is greatly improved;

2. the sweet potato seedlings are conveyed by the seedling conveying device, and the seedling clamp is perpendicular to the ridges of the field, so that the horizontal planting of the sweet potato seedlings can be realized, the dense planting of the sweet potatoes can be realized, the agricultural requirements of planting and transplanting the sweet potatoes are better met, and the economic benefit of sweet potato planting is improved.

Drawings

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

FIG. 2 is a schematic left side view of the general structure of the present invention;

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

FIG. 4 is an isometric illustration of the general structure of the present invention;

FIG. 5 is a schematic front view of the seedling feeder of the present invention;

FIG. 6 is a schematic left side view of the seedling feeder of the present invention;

FIG. 7 is an isometric illustration of a seedling feeder of the present invention;

FIG. 8 is a schematic view of the structure of the seedling clamp of the present invention;

FIG. 9 is a schematic structural view of the seedling separating device of the present invention;

shown in the figure:

1. frame, 2, rotary tillage axle, 3, rotary tillage sword, 4, spring, 5, driven sprocket IV, 6, belt, 7, conveyer belt, 8, the shaft of drive wheel, 9, bearing frame, 10, the bobbin shaft of cylinder II, 11, seedling clamp, 12, gyro wheel, 13, backup pad, 14, the centre gripping area, 15, send seedling support frame, 16, gearbox, 17, mounted frame, 18, final drive shaft, 19, seedling place the board, 20, ridging device, 21, land wheel, 22, driven sprocket II, 23, drive wheel, 24, soil compacting wheel, 25, belt pulley, 26, the bobbin shaft of cylinder I, 27, drive sprocket I, 28, driven sprocket I, 29, cylinder III, 30, cylinder IV, 31, cylinder II, 32, cylinder I, 33, cylinder V, 34, drive sprocket II, 35, driven sprocket III, 36, driven sprocket IV, 37, drive sprocket III.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

As shown in figures 1-3, the full-automatic horizontal sweet potato seedling transplanter comprises a frame 1 provided with land wheels 21, a rotary tillage device, a ridging device 20, a seedling conveying device and soil compacting wheels 24, wherein the rotary tillage device, the ridging device, the seedling conveying device and the soil compacting wheels are sequentially arranged on the frame from front to back, a seedling falling point of the seedling conveying device is matched with the ridging device, a seedling distributing device is arranged above the seedling conveying device, and a seedling falling point of the seedling distributing device is matched with the seedling conveying device. The frame 1 is used for fixing and supporting other parts and is hung on farm tools such as a tractor and the like through a suspension bracket 17, and the suspension bracket is arranged above the rotary tillage device; the frame is also provided with a gear box 16 and a seedling placing plate 19, and the gear box 16 provides power for the rotary tillage device through belt transmission.

The rotary tillage device comprises a rotary tillage shaft 2 and a rotary tillage cutter 3 mounted on the rotary tillage shaft, a belt pulley 25 is mounted at one end of the rotary tillage shaft, the belt pulley 25 is in transmission connection with an output shaft of the gearbox through a belt 6, and the belt drives the rotary tillage shaft 2 and the rotary tillage cutter 3 to rotate for land reclamation and loosening.

Ridging device 20 installs at rotary cultivator attachment's rear, carries out the ridging to soil after loosening and moulds, guarantees to send the seedling device to put the accuracy of seedling position, and prior art is adopted to ridging device's structure.

As shown in the figures 2 and 9, the seedling separating device is installed on a machine frame above the seedling conveying device and comprises a roller V33, a first seedling belt and a second seedling belt which are wound on the roller V in an overlapping mode, and a roller III 29 and a roller IV 30 which are located on two sides of the lower portion of the roller V respectively, a roller I32 is arranged on one side, far away from the roller IV, of the roller III, a roller II 31 is arranged on one side, far away from the roller III, of the roller IV, the first seedling belt and the second seedling belt form clamping for seedlings, the first seedling belt is wound on the roller I after passing through the roller III downwards from the roller V, the second seedling belt is wound on the roller II after passing through the roller IV downwards from the roller V, the roller I and the roller II are connected with a power device respectively, and seedling falling points of the seedling separating device are arranged between the roller III and the roller IV. Cylinder V is located between cylinder I and cylinder II, and cylinder V's direction of rotation is opposite with the direction of rotation of cylinder I, cylinder II, and when cylinder V rotated, unreeled the holding belt 14 that first seedling area and second seedling area formed, when cylinder I and cylinder II were rotatory, carried out the rolling to first seedling area and second seedling area respectively.

Roller I and roller II are connected with land wheel transmission respectively, and two land wheel fixed mounting in the both ends of final drive shaft 18 in the frame, and final drive shaft passes through the bearing with the frame and is connected, and final drive shaft 18 passes through chain drive with roller I, roller II respectively and is connected. Specifically, the bobbin shaft 26 of cylinder I and the bobbin shaft 10 of cylinder II are installed in frame 1 through the bearing frame respectively, have driven sprocket I28 through the key rigid coupling on the bobbin shaft 26 of cylinder I, have driven sprocket II 22 through the key rigid coupling on the bobbin shaft 10 of cylinder II, install on the final drive shaft 18 with driven sprocket II 22 through the drive sprocket II 34 that chain drive is connected to and pass through the drive sprocket I27 that chain drive is connected with driven sprocket I28.

In order to improve the reliability of the seedling clamping of the seedling separating device, the adhesive sections are arranged on the opposite side surfaces of the first seedling belt and the second seedling belt at intervals respectively, the adhesive sections on the first seedling belt and the second seedling belt are arranged oppositely, the interval of the adhesive sections forms a clamping seam for clamping seedlings, and the seedlings are clamped in the clamping seam at equal intervals. First seedling area and second seedling area are through the viscidity section bonding, guarantee the reliability to the seedling centre gripping, and the viscidity section that will bond at cylinder III and cylinder IV department separates, and the seedling of being convenient for drops. When the first seedling belt and the second seedling belt are manufactured, the adhesive belt can be used as a base belt, the adhesive layer of the adhesive belt is removed at intervals, the adhesive layer at the position where the adhesive layer is not removed forms an adhesive section, and the position where the adhesive layer is removed is the position of the clamping seam.

Send seedling device including rotating endless conveyor 7 that sets up in the frame, and install on conveyer belt 7 and along conveyer belt circumference evenly distributed's a plurality of seedling clamps 11, the seedling clamp is equidistant to be set up, along with the conveyer belt motion, the movement track that the seedling clamp falls under the seedling point through dividing the seedling device and the ridging device plays the field ridge directly over. When the seedling clamp is positioned right below the seedling falling point of the seedling separating device, the opening of the seedling clamp faces upwards to accept the seedlings, and when the seedling clamp is positioned right above the ridges of the field formed by the ridge forming device, the opening of the seedling clamp faces downwards to release the seedlings. The spacing distance of the seedlings is matched with that of the seedling clamp so as to ensure that the seedlings just fall into the seedling clamp when falling.

The seedling clamp comprises a fixing plate fixedly connected to the outer side face of the conveying belt through bolts, and a movable clamping plate and a fixed clamping plate which are installed on the fixing plate and arranged oppositely, the seedling clamp opening formed by the fixed clamping plate and the movable clamping plate extends transversely and is perpendicular to the field ridge, and therefore the horizontal planting of sweet potato seedlings is achieved. The fixed clamping plate is fixedly connected with the fixed plate, the movable clamping plate is hinged with the fixed plate through a transverse shaft, a supporting arm extending to the inner side of the conveying belt is further fixedly connected onto the movable clamping plate, and the roller 12 located in the conveying belt is rotatably mounted on the supporting arm. The conveyer belt includes along the transport direction in proper order connects seedling section, vertical section and returns the section, and the rear of vertical section has set firmly backup pad 13, and the distance between backup pad 13 and the vertical section is less than the distance between gyro wheel and the conveyer belt when the seedling clamp is opened, and backup pad 13 passes through bearing frame 9 and send the vertical fixed mounting of seedling support frame 15 in frame 1. The seedling transplanting section is horizontally arranged, when the seedling clamp is positioned at the seedling transplanting section, the connecting point of the supporting arm and the movable clamp plate is positioned behind the transverse shaft, and the supporting arm is inclined backwards and extends. The side of the movable clamping plate far away from the fixed clamping plate is connected with the fixed plate through a spring 4, when the seedling clamp is positioned at the seedling transplanting section and the returning section, the spring is in a natural state, and when the seedling clamp is positioned at the vertical section, the spring is in a stretched state. When the seedling clamp 11 moves to the vertical position of the conveyor belt 7, the roller 12 of the seedling clamp reaches the support plate 13, the seedling clamp 11 is closed, the spring 4 is stretched, when the seedling clamp 11 moves to the upper part of the ridge surface, the roller 12 of the seedling clamp is separated from the support plate 13, the spring 4 contracts, the seedling clamp 11 is loosened, and seedlings are horizontally placed on the ridge.

The conveyer belt is connected with the land wheel transmission, and is concrete, and the conveyer belt is supported by a drive wheel 23 and two supporting wheels, and drive wheel 23 and two supporting wheels are right angled triangle and distribute, and the drive wheel is located the lower extreme on right angle limit, and the shaft 8 of drive wheel passes through bearing frame 9 and send seedling support frame 15 to install in the frame. The wheel shaft 8 of the driving wheel is provided with a driven chain wheel III 35 and a driven chain wheel IV 36 through key connection, the main driving shaft 18 is provided with a driving chain wheel III 37 in transmission connection with the driven chain wheel III 35 through a chain and a driven chain wheel IV 5 in transmission connection with the driven chain wheel IV 36 through the chain, the power of the main driving shaft 18 is transmitted to the wheel shaft 8 of the driving wheel, and the driving wheel 23 drives the conveying belt 7 to rotate.

Land wheel 21 is two of coaxial setting, installs in frame 1 through final drive shaft 18 for support frame 1 and the advancing of driving the machines, land wheel 21 walking drives final drive shaft 18 and rotates, and final drive shaft 18 provides power to each drive sprocket, and each drive sprocket and each driven sprocket pass through the chain and connect, thereby drives and send seedling device and divide seedling device motion.

The soil pressing wheels 24 are arranged on the two sides of the rear part of the frame 1 and are positioned on the same straight line with the seedling clamp 11; the soil pressing wheel 24 is arranged on the soil pressing wheel shaft and is connected with the machine frame 1 to contact with the ridge surface and compact the seedlings planted on the ridge.

The transplanting method of the full-automatic transverse horizontal sweet potato seedling transplanter comprises the following steps:

1. seedlings are placed in clamping seams formed by the first seedling belts and the second seedling belts, the first seedling belts and the second seedling belts are bonded through adhesive sections, the seedlings are prevented from falling off, then the first seedling belts and the second seedling belts clamping the seedlings are wound on the roller V, the movable ends of the first seedling belts downwards wind the roller III and then are wound on the roller I, and the movable ends of the second seedling belts downwards wind the roller IV and then are wound on the roller II;

2. the tractor is connected with the frame 1 of the transplanter through the suspension bracket 17, the transplanter is driven to advance through the tractor, the land wheel drives the main transmission shaft to rotate, and the main transmission shaft drives the roller I, the roller II and the conveyor belt to rotate; when the roller I and the roller II rotate, the clamped seedlings are conveyed downwards, when the seedlings reach the lower part between the roller III and the roller IV, the first seedling belt and the second seedling belt are separated, the clamping of the first seedling belt and the second seedling belt is lost, and the seedling clamp is just positioned below the dropped seedlings, so that the seedlings drop into the seedling clamp; when the conveying belt moves, the seedling clamp is driven to move from the seedling receiving section to the vertical section, and when the seedling clamp moves to the vertical section, the roller moves close to the conveying belt under the action of the supporting plate, so that the movable clamping plate is driven to rotate towards the fixed clamping plate, seedlings are clamped by the seedling clamp, and the spring is stretched; when the seedling clamp moves from the vertical section to the return section, the supporting plate loses the resistance of the roller, the movable clamping plate rotates away from the fixed clamping plate under the action of the spring, the seedling clamp is opened, the clamping of the seedlings is lost, and the seedlings are horizontally placed on the ridges;

3. the seedlings planted on the ridges are compacted through the soil compacting wheel arranged at the rear end of the rack, so that the seedling transplantation is realized, and the transplantation operation is finally completed, so that the mechanical transplantation of the sweet potatoes is realized, and the agronomic requirements of the horizontal planting and planting of the sweet potatoes are met;

4. after the seedlings fall off, the first seedling belt and the second seedling belt are directly taken down from the roller, another group of seedling belts are replaced, the seedlings are put on the taken-down seedling belts again, and the next round of transplanting is waited.

Of course, the above description is not limited to the above examples, and the undescribed technical features of the present invention can be implemented by or using the prior art, and will not be described herein again; the above embodiments and drawings are only for illustrating the technical solutions of the present invention and not for limiting the present invention, and the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that changes, modifications, additions or substitutions within the spirit and scope of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, and shall also fall within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a horizontal transplanter of full-automatic type sweet potato seedling which characterized in that: including frame (1) of installing land wheel (21), and from going to rotary cultivator attachment, ridging device (20) and send the seedling device of installing in the frame after to in proper order, send seedling device's seedling point and ridging device adaptation, send the top of seedling device to be equipped with branch seedling device, divide seedling device's seedling point and send seedling device adaptation.

2. The full-automatic transverse horizontal sweet potato seedling transplanting machine according to claim 1, characterized in that: divide seedling device to include cylinder V (33), overlap first seedling area and the second seedling area of twining on cylinder V, and be located cylinder III (29) and cylinder IV (30) of cylinder V below both sides respectively, cylinder III keeps away from one side of cylinder IV and is equipped with cylinder I (32), cylinder IV keeps away from one side of cylinder III and is equipped with cylinder II (31), first seedling area and second seedling area form the centre gripping to the seedling, first seedling area twines on cylinder I after cylinder III downwards from cylinder V, the second seedling area twines on cylinder II after cylinder IV downwards from cylinder V, power device is connected respectively to cylinder I and cylinder II.

3. The full-automatic transverse horizontal sweet potato seedling transplanting machine according to claim 2, characterized in that: the side that first seedling area and second seedling area are relative is provided with the viscidity section at the interval respectively on, and the viscidity section on the first seedling area sets up with the viscidity section on the second seedling area is relative, and the centre gripping seam of centre gripping seedling is formed to the interval department of viscidity section.

4. The full-automatic transverse horizontal sweet potato seedling transplanting machine according to claim 2, characterized in that: and the roller I and the roller II are respectively in transmission connection with a land wheel.

5. The full-automatic transverse horizontal sweet potato seedling transplanter according to claim 1, wherein: send seedling device including rotating endless conveyor (7) that sets up in the frame, and install on conveyer belt (7) and along a plurality of seedling clamps (11) of conveyer belt circumference evenly distributed, the movement track that the seedling clamp falls under the seedling point through dividing the seedling device and the ridging device plays the field ridge directly over.

6. The full-automatic transverse horizontal sweet potato seedling transplanting machine according to claim 5, characterized in that: the seedling clamp comprises a fixed plate fixedly connected to the outer side surface of the conveying belt, and a movable clamping plate and a fixed clamping plate which are arranged on the fixed plate and are opposite to each other, the fixed clamping plate is fixedly connected with the fixed plate, the movable clamping plate is hinged to the fixed plate through a transverse shaft, a supporting arm extending to the inner side of the conveying belt is further fixedly connected to the movable clamping plate, and a roller (12) positioned in the conveying belt is rotatably arranged on the supporting arm;

the conveying belt comprises a seedling receiving section, a vertical section and a return section which are sequentially arranged along the conveying direction, a supporting plate (13) is fixedly arranged behind the vertical section, and the distance between the supporting plate (13) and the vertical section is smaller than the distance between the roller and the conveying belt when the seedling clamp is opened;

the side surface of the movable clamping plate far away from the fixed clamping plate is connected with the fixed plate through a spring (4).

7. The full-automatic transverse horizontal sweet potato seedling transplanting machine according to claim 5, characterized in that: the conveyer belt is connected with the land wheel in a transmission way.

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