CN109964597B - Garlic transplanting device and seeder convenient for subsequent harvesting of garlic sprouts - Google Patents

Abstract

The invention discloses a garlic transplanting device and a planter facilitating subsequent harvesting of garlic sprouts, which solve the problems of large occupied space of the garlic transplanting device and large planting distance of garlic seeds in the prior art, and have the beneficial effects of realizing denser garlic sprout planting and reducing planting space, and the scheme is as follows: a garlic planter comprises a support plate, wherein the support plates are arranged at a set distance; the multi-stage alignment material bowls are supported by the supporting plates, each stage of alignment material bowls are sequentially arranged up and down, and each stage of alignment material bowls comprises at least two half opening and closing pieces; the first rotating component is connected with the at least one opening and closing piece of the at least one-stage alignment material bowl, the first rotating component comprises a rotating rod connected with the opening and closing piece, the rotating rod penetrates through the supporting plate to be movably arranged, the rotating rod is connected with the multi-connecting-rod mechanism, the multi-connecting-rod mechanism is supported through the supporting plate, and the multi-connecting-rod mechanism moves to drive the rotating rod and the corresponding opening and closing piece to be opened so as to realize blanking.

Description

Garlic transplanting device and seeder convenient for subsequent harvesting of garlic sprouts

Technical Field

The invention relates to the field of garlic seeding, in particular to a seeder convenient for subsequent harvesting of garlic sprouts.

Background

The garlic planter is used for planting garlic seeds in the field, wherein the aim of planting garlic seeds from a receiving bowl to the field is mainly realized by virtue of an inter-cut device, the inter-cut device is required to ensure that the garlic teeth of the garlic seeds face upwards, but the inventor finds that the existing machine adopts a water floating inter-cut device to align the garlic teeth of the garlic seeds in actual work, the inter-cut device has large area, the whole moving space requirement of a multilayer structure is high, the inter-cut device comprises a plurality of aligning bowls, the aligning bowls are required to be opened, the planting distance of the intangible garlic is increased, the requirement of reducing the planting distance cannot be met, and accordingly the planting density of the garlic with the same area is reduced.

Disclosure of Invention

In order to overcome the defects in the prior art, the garlic transplanting machine provided by the invention can realize the alignment of garlic teeth through the arrangement of the multistage alignment material bowl, controls the alignment material bowl through the first rotating part, is convenient to operate, realizes the lateral opening of the alignment material bowl, reduces the planting distance of garlic seeds, and can realize the requirement of close planting of garlic seedlings.

The garlic transplanting device comprises the following specific scheme:

a garlic planter comprising:

the support plates are arranged at intervals by a set distance;

the multi-stage alignment material bowls are supported by the supporting plates, each stage of alignment material bowls are sequentially arranged up and down, each stage of alignment material bowls comprises at least two half opening and closing pieces, and the opening direction of each opening and closing piece is consistent with the length direction of the supporting plate;

the first rotating component is connected with the at least one opening and closing piece of the at least one-stage alignment material bowl, the first rotating component comprises a rotating rod connected with the opening and closing piece, the rotating rod penetrates through the supporting plate to be movably arranged, the rotating rod is connected with the multi-connecting-rod mechanism, the multi-connecting-rod mechanism is supported through the supporting plate, and the multi-connecting-rod mechanism moves to drive the rotating rod and the corresponding opening and closing piece to be opened so as to realize blanking.

In the garlic planter, the first rotary part drives the rotary rod to rotate through the multi-link mechanism, so that the opening and closing piece is driven to realize the opening relative reverse movement, the bowl is opened laterally, thereby realizing blanking, because many link mechanisms support through the backup pad, can realize the control to a plurality of alignment bowls of same level moreover, first rotating member area is few, through the setting of multistage alignment bowl like this, the garlic kind falls down in proper order, can accomplish the alignment of garlic kind.

Further, the multi-link mechanism comprises a first link rod arranged along the length direction of the supporting plate, the first link rod is lower than the rotating rod, the first link rod is hinged with a second link rod, the second link rod is connected with the rotating rod, and the first link rod is connected with a first power source.

Further, a fan-shaped switch is arranged at the end part of the second connecting rod, which is connected with the rotating rod.

Further, one of the opening and closing parts in the multistage aligning material bowl is connected with the first rotating part, the other opening and closing part is connected with a fixing rod, two ends of the fixing rod penetrate through the supporting plate, the fixing rod is connected with the supporting plate through a locking part, and one end part of the fixing rod is provided with a second fan-shaped switch.

Further, one of the multi-stage alignment bowls is connected with a second rotating component, the second rotating component comprises a rotating block, the rotating block is connected with at least one opening and closing piece in the corresponding alignment bowl, one end of the rotating block is hinged with a third connecting rod, and the top side of the third connecting rod is connected with a third power source so as to enable the third power source to horizontally move through the third connecting rod.

Further, the rotating block is L-shaped, and one rotating side is connected with at least one opening and closing piece in the corresponding alignment material bowl beyond the supporting plate.

Further, the multistage alignment bowl comprises a three-stage alignment bowl, wherein at least one opening and closing piece in the first stage alignment bowl and the second stage alignment bowl is connected with the first rotating component from top to bottom, and the third stage alignment bowl is connected with the second rotating component.

Further, each stage of aligning material bowl comprises a plurality of pairs of two-half opening and closing pieces, the two-half opening and closing pieces form an aligning material bowl, the adjacent pairs of opening and closing pieces are arranged at intervals to ensure smooth opening of the door, the tops of the opening and closing pieces are connected through supporting plates, and the opening and closing pieces on the outer sides are connected with the supporting plates.

Further, from the top down, the bottom of the first-stage alignment material bowl is arc-shaped, the opening and closing part in the second-stage alignment material bowl is sharp mouth-shaped, the length of the opening and closing part in the third-stage alignment material bowl is larger than that of the opening and closing part in the second-stage alignment material bowl, the opening and closing part at one side in the third-stage alignment material bowl is long sharp mouth-shaped, and thus the opening and closing part in the third-stage alignment material bowl is of a structure with a large upper part and a small lower part, and thus the lateral opening and closing of the door can not occupy a large space.

A second object of the present invention is to provide a planter for facilitating the subsequent harvesting of garlic sprouts, comprising:

the rack is provided with a power mechanism to drive the rack to move;

the material feeding device comprises a material bin, wherein a circulating feeding mechanism is arranged in the material bin, a distributor is arranged on one side of the feeding mechanism, a plurality of material sliding pipes are arranged on the bottom side of the distributor, and a material receiving bowl is arranged on the bottom side of the material sliding pipes;

the garlic transplanting device is arranged below the receiving bowl.

The garlic planter can be effectively provided with a garlic transplanting device, so that ordered sowing of garlic in the field is realized. The garlic transplanting machine has the advantages that the garlic transplanting machine realizes lateral opening of the door, the shape of the material bowl is fully aligned, the requirement on occupied space for opening the door is not high, and the door is not opened longitudinally, so that the planting distance of two adjacent rows of garlic can be effectively shortened, the planting density of the garlic is effectively improved, and the quick harvesting of farmers is facilitated after the garlic is grown out, and the planting harvest rate of farmlands is also fully improved.

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

1) According to the invention, the opening and closing piece is effectively controlled through the arrangement of the multi-link mechanism, so that the lateral opening of the material bowl is realized, and because the material bowl is in a shape with a big upper part and a small lower part, more lateral space is not occupied, the longitudinal space is not occupied when the door is opened, the whole transplanting device structure is simplified, and the corresponding planting distance of garlic is reduced, so that the requirement of close planting of garlic sprouts can be met.

2) According to the invention, the direction adjustment of the garlic seeds can be effectively completed through the arrangement of the multistage alignment material bowl, and the direction adjustment is completed according to the principle of head weight and foot weight in the free falling process of the garlic seeds according to the self gravity characteristics of the garlic seeds, so that the garlic seeds can be vertically planted in the soil, and the requirement that the garlic buds planted by the garlic seeds are upward is met.

3) The invention is convenient to control the opening or closing of the alignment material bowl by arranging the whole transplanting machine, is convenient to control the material bowl, and can meet the upward requirement of garlic planting teeth.

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 invention.

Fig. 1 is a schematic diagram of a structure of an inter-cut device in embodiment 1 of the present invention.

Fig. 2 is another schematic diagram of the interposer in embodiment 1 of the present invention.

Fig. 3 and 4 are schematic views of a planter according to embodiment 2 of the present invention.

In the figure, 1, a second cylinder, 2, a first cylinder, 3, a first fan-shaped switch, 4, a second connecting rod, 5, a first connecting rod, 6, a first stage alignment bowl, 7, a second stage alignment bowl, 8, a third stage alignment bowl, 9, a third cylinder, 10, a support plate, 11, a rotary block, 12, a connecting shaft, 13, a gas tank, 14, an air pump, 15, an engine, 16, a speed reducer, 17, a feed bin, 18, a feeding mechanism, 19, a distributor, 20, a chute, 21, a receiving bowl, 22, an inter-cut device, 23, a third connecting rod, 24, a lug, 25, a fixed rod, 26, a rotary rod, 27, a sector plate, 28, a first shaft, 29, a second shaft, 30, a frame, 31, a driving shaft, 32, an intermediate transmission shaft, 33, a chain, 34, a chain wheel, 35, a connecting block and 36.

Detailed Description

It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

As described in the background art, the invention provides a garlic planter for solving the technical problems.

The invention is further described below with reference to the drawings.

Example 1

In an exemplary embodiment of the present invention, as shown in fig. 1 and 2, a garlic planter comprises two support plates 10, the two support plates 10 being disposed at a set distance apart; the multi-stage alignment material bowls are supported by the supporting plate 10, each stage of alignment material bowls are sequentially arranged up and down, each stage of alignment material bowls comprises a plurality of rows of alignment material bowls which are horizontally arranged, and each alignment material bowl comprises two half opening and closing pieces; the first rotating component, wherein each alignment bowl in the at least one-level alignment bowl all is connected with the first rotating component, the first rotating component includes a plurality of rotary rods 26, rotary rod 26 perpendicular to backup pad 10 sets up, same horizontal line, rotary rod 26 is equipped with a plurality of one side piece that opens and shuts in order to connect the alignment bowl of multirow, rotary rod 26 passes backup pad 10 activity setting, and rotary rod 26 is connected with many link mechanism, many link mechanism support through backup pad 10, many link mechanism movements and then drive rotary rod and corresponding piece that opens and shuts are opened in order to realize the blanking.

In this embodiment, the multi-stage alignment bowl includes a three-stage alignment bowl, wherein the adjustment bowls of adjacent stages are set at intervals from top to bottom, the alignment bowls corresponding to the first stage alignment bowl 6 and the second stage alignment bowl 7 are connected with respective first rotating members, the first rotating member connected with the second stage alignment bowl 7 is lower than the corresponding first rotating member connected with the first stage alignment bowl 6, and the third stage alignment bowl 8 is connected with the second rotating member.

Further, the multi-link mechanism comprises a first link 5 arranged along the length direction of the supporting plate 10, the first link 5 is lower than the rotary rod 26, the length of the first link 5 can cover all alignment bowls on the same horizontal line, the first link 5 is hinged with a second link 4, the second link 4 is connected with the rotary rod 26, each rotary rod is correspondingly provided with a second link 4, the second link 4 is connected with the corresponding rotary rod 26 and the first link 5, the first link 5 is connected with a first power source, the first power source is a cylinder, as shown in fig. 1, the first link 5 connected with each alignment bowl in the first-stage alignment bowl is connected with the first cylinder 2, the second link connected with each alignment bowl in the second-stage alignment bowl is connected with the second cylinder, the first cylinder 2 and the second cylinder 1 are horizontally arranged, in addition, the end part of the second link 4 connected with the rotary rod 26 is provided with a first fan-shaped switch 3, and the identification of the rotary rod can be facilitated through the arrangement of the first fan-shaped switch 3.

When the automatic leveling machine is used, the first air cylinder 2 or the second air cylinder 1 pushes out and drives the corresponding first connecting rod 5 to translate, the first connecting rod 5 is hinged with the second connecting rod 4, so that the second connecting rod 4 and a fan-shaped switch at the end of the second connecting rod rotate anticlockwise, and further the rotating rod is driven to rotate relative to the supporting plate 10, so that one side opening and closing piece connected with the rotating rod is driven to rotate slightly, garlic seeds in each leveling material bowl in the first-stage leveling material bowl fall into the corresponding leveling material bowl in the second-stage leveling material bowl, or the garlic seeds in the leveling material bowl in the second-stage leveling material bowl fall into the leveling material bowl in the third-stage leveling material bowl 8.

Because each alignment bowl all includes two halves piece that opens and shuts, needs the piece that opens and shuts of side direction and rotary rod connection and support, another piece that opens and shuts is connected with dead lever 25, the both ends of dead lever 25 pass backup pad 10 and set up, and the dead lever passes through the retaining member and is connected with backup pad 10, the retaining member is the nut, dead lever and rotary rod all can be the screw rod, likewise, one of them tip of dead lever 25 sets up the second fan-shaped switch, in the same alignment bowl, two fan-shaped switches set up in opposite directions, avoid causing the interference to adjacent fan-shaped switch action, through the setting of second fan-shaped switch, when needs to adjust alignment bowl, the adjustment to the dead lever is convenient.

Further, the second rotating component comprises a rotating block 11, the rotating block 11 is connected with an opening and closing piece on one side of an alignment material bowl in the third-stage alignment material bowl 8, one end of the rotating block 11 is hinged with a third connecting rod 23, the top side of the third connecting rod 23 is connected with a third power source so as to horizontally move through the third connecting rod by the third power source, the third power source is a third cylinder 9, the third cylinder 9 is correspondingly arranged on the other side of the inter-cut device 22 relative to the second cylinder 1, and is supported by a supporting plate, the third connecting rod 23 is horizontally arranged, a bump 24 is arranged on one side, close to the end part of the third cylinder 9, of the third connecting rod 23, the bump 24 is connected with the third cylinder 9, the third cylinder 9 is pushed out in a straight line so as to drive the third connecting rod 23 to translate, the rotating block 11 is driven to rotate because the third connecting rod 23 is hinged with the top side of the rotating block 11, one side of the rotating block 11 is L-shaped, the rotating block 11 passes through the bottom of the supporting plate 10 and is connected with one opening and closing piece on one side of the alignment material bowl of the same row of alignment material bowl in the third-stage alignment material bowl 8, and the number of the rotating block 11 is the same as the number of alignment material bowl in the third-stage alignment material bowl.

In addition, in this embodiment, the pushing direction of the first link is the same as the pushing direction of the third link, and after the pushing action is completed, the first cylinder, the second cylinder and the third cylinder drive the first link or the third link to return.

In this embodiment, from top to bottom, the space for holding garlic is formed after all leveling material bowls are closed, the two sides of the top space are respectively provided with bowl edges, the opening and closing direction of the opening and closing parts is consistent with the length direction of the supporting plate, the bottoms of all leveling material bowls in the first-stage leveling material bowl 6 are arc-shaped, so that the leveling material bowls of the first-stage leveling material bowl form nearly hemispheres after being closed, one side of the opening and closing part in the second-stage leveling material bowl 7 is in a sharp mouth shape, the opening and closing part in the third-stage leveling material bowl 8 is longer than the opening and closing part in the second-stage leveling material bowl 7, the opening and closing part in the third-stage leveling material bowl 8 is in a long sharp mouth shape, namely, the sizes of the upper ends of all leveling material bowls are larger than the sizes of the bottoms, the falling and leveling of garlic are convenient, and the space occupied by the lateral direction is not larger.

As a preferred scheme of the present embodiment, in order to stably fix the two support plates 10, the four corners of the two support plates 10 are connected by the connecting shafts 12.

The specific working principle of the transplanting machine is as follows: when the garlic seeds fall into the first-stage alignment bowl, the electromagnetic valve controls the first air cylinder to do telescopic motion, the first air cylinder stretches out and drives the first connecting rod to translate, the first connecting rod is hinged with the second connecting rod, the second connecting rod is rigidly connected with the first sector gear switch, the first connecting rod drives the second connecting rod to displace, the second connecting rod drives the sector gear switch to slightly rotate anticlockwise, all alignment bowls in the first-stage alignment bowl finish door opening actions, the garlic seeds fall into all alignment bowls in the second-stage alignment bowl, the electromagnetic valve controls the second air cylinder to do actions like the first air cylinder, opening and closing pieces in the second-stage alignment bowls finish opening doors, the garlic seeds fall into all alignment bowls in the third-stage alignment bowls, the electromagnetic valve controls the third air cylinder to act, the rotating block is driven to move through the third connecting rod, accordingly the alignment bowls are opened, at the moment that the third-stage alignment bowls open doors, the transplanting device moves to the bottommost end, and the garlic seeds fall into soil in an upward state at the moment.

Example 2

The invention also provides a planter for facilitating subsequent harvesting of garlic sprouts, as shown in fig. 3 and 4, comprising:

a frame 30, which is provided with a power mechanism to drive the movement of the frame;

the material bin 17 is internally provided with a circulating feeding mechanism, one side of the feeding mechanism 18 is provided with a distributor 19, the bottom side of the distributor 19 is provided with a plurality of material sliding pipes 20, and the bottom side of the material sliding pipes 20 is provided with a material receiving bowl 21;

in the garlic planter according to embodiment 1, the garlic planter is disposed below the receiving bowl 21, and the opening and closing directions of the opening and closing members in the garlic planter are perpendicular to the advancing direction of the planter, so as to open the door from the lateral direction.

The frame of the seeder is provided with an engine 15 and a speed reducer 16, and the frame is provided with an air pump 14, the air pump 14 is connected with an air tank 13, and the air tank 13 is respectively and independently connected with the first air cylinder 2, the second air cylinder 1 and the third air cylinder 9.

The inter-cut device 22 is to move back and forth and up and down relative to the frame 30, the feeding mechanism 18 is driven by the speed reducer 16 to drive the driving shaft 31 and the driven shaft to realize circulation motion, the driving shaft 31, the middle transmission shaft 32 and the first shaft 28 supported by the frame 30 in the feeding mechanism 18 form three vertexes of a triangle, transmission is realized among the three shafts through a belt or chain transmission part, the first shaft 28 is transmitted with the second shaft 29 through another belt or chain transmission part, the first shaft 28 drives the sector plate 27 to move and is used for balancing the gravity of the inter-cut device 22, in order to ensure the reliability of transmission, the length of the middle transmission shaft 32 is longer than the length of the inter-cut device 22, so that the second shaft 29 is conveniently connected with the inter-cut device 22 from the side part of the inter-cut device through a connecting rod, the first shaft 28 rotates, thereby driving the second shaft 29 to move, and the second shaft 29 rotates relative to the first shaft 28, thereby driving the inter-cut device 22 to realize up and down motion.

In addition, the intermediate transmission shaft 32 is connected with a sprocket 34 arranged below the frame 30 through a chain 33, the sprocket 34 is fixed on a sprocket shaft, two end parts of the sprocket shaft are respectively connected with a long connecting rod 36 through connecting blocks 35, the long connecting rod 36 is reliably connected with one side of the transplanting device 22, when the intermediate transmission shaft 32 moves, the frame sprocket 34 is driven to move, the sprocket 34 drives the sprocket shaft to rotate, thereby driving the connecting blocks 35 at two ends to move, and further driving the long connecting rod 36 to move, so that the transplanting device 22 is driven to realize forward or backward movement.

When the engine 15 rotates, the air pump 14 and the speed reducer 16 are driven to rotate through the belt, air generated by the air pump 14 is stored in the air tank 13 to be reserved for driving the air cylinder to work, then the speed reducer 16 drives the feeding mechanism 18 to rotate through a chain, and meanwhile, the transplanting machine 22 is driven to perform reciprocating transplanting motion through a transmission mechanism. The feeding mechanism extracts garlic seeds from the storage bin, the garlic seeds are conveyed to the distributor 19, the garlic seeds fall into each chute 20 from the distributor 19 and then enter each receiving bowl 21, when the inserting device 22 reciprocates below the receiving bowl 21, the receiving bowl 21 is a common receiving bowl, the electromagnetic valve controls the air cylinder specifically, and then the opening and closing of the receiving bowl are controlled, and the garlic seeds fall into the inserting device 22 from the receiving bowl 21. Then the garlic seeds sequentially pass through three-stage alignment bowls in the transplanting machine to finish garlic bud alignment, and finally when the transplanting machine reciprocates to the lowest end, the last-stage alignment bowl controls the opening of the door through a cylinder to enable the garlic seeds to be planted in the soil.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. A garlic planter, comprising:

the support plates are arranged at intervals by a set distance;

the three-stage alignment material bowls are supported by the supporting plates, each stage of alignment material bowls are sequentially arranged up and down, and each stage of alignment material bowls comprises at least two half opening and closing pieces;

the first rotating component comprises a rotating rod connected with the opening and closing piece, the rotating rod penetrates through the supporting plate to be movably arranged, the rotating rod is connected with the multi-link mechanism, the multi-link mechanism is supported by the supporting plate, and the multi-link mechanism moves to drive the rotating rod and the corresponding opening and closing piece to be opened so as to realize blanking;

the multi-link mechanism comprises a first link rod arranged along the length direction of the supporting plate, the first link rod is lower than the rotating rod, the first link rod is hinged with a second link rod, the second link rod is connected with the rotating rod, and the first link rod is connected with a first power source;

the end part of the second connecting rod, which is connected with the rotary rod, is provided with a first fan-shaped switch;

in the three-stage aligning bowl, one opening and closing piece is connected with the first rotating part, the other opening and closing piece is connected with a fixed rod, two ends of the fixed rod penetrate through the supporting plate, the fixed rod is connected with the supporting plate through a locking piece, and one end part of the fixed rod is provided with a second fan-shaped switch;

one of the three-stage alignment bowls is connected with a second rotating part, the second rotating part comprises a rotating block, the rotating block is connected with at least one opening and closing piece in the corresponding alignment bowl, one end of the rotating block is hinged with a third connecting rod, and the top side of the third connecting rod is connected with a third power source so as to horizontally move through the third connecting rod by the third power source;

the rotating block is L-shaped, and one rotating side of the rotating block passes over the supporting plate and is connected with at least one opening and closing piece in the corresponding alignment material bowl;

the third-stage alignment material bowl is connected with the second rotating component; the aligning material bowl of each stage comprises a plurality of pairs of two half opening and closing parts, the tops of the opening and closing parts are connected through supporting plates, and the opening and closing parts on the outer sides are connected with the supporting plates;

the three-stage aligning material bowl is from top to bottom, the bottom of the first-stage aligning material bowl is arc-shaped, the opening and closing part in the second-stage aligning material bowl is tip-mouth-shaped, and the length of the opening and closing part in the third-stage aligning material bowl is greater than that of the opening and closing part in the second-stage aligning material bowl.

2. Planter convenient to follow-up harvesting garlic sprouts, its characterized in that includes:

the rack is provided with a power mechanism to drive the rack to move;

the material feeding device comprises a material bin, wherein a circulating feeding mechanism is arranged in the material bin, a distributor is arranged on one side of the feeding mechanism, a plurality of material sliding pipes are arranged on the bottom side of the distributor, and a material receiving bowl is arranged on the bottom side of the material sliding pipes;

a garlic planter as claimed in claim 1, wherein the garlic planter is disposed below the receiving bowl.