CN211240843U - Air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester - Google Patents

Abstract

The utility model discloses a belong to agricultural apparatus technical field, specifically be an integrative combine of air-suction type garlic aligns to cut root and cut seedling, it includes: organism, commentaries on classics roller, cylinder, vibrating motor, driving motor, fixed box and controller, eight rotating electrical machines of inside one side fixed mounting of organism, rotating electrical machines's top fixed mounting has eight rotatory rollers, eight fixedly connected with eight drive belts on the rotatory roller, two bin outlets have been seted up to the rectangle recess bottom that the inside opposite side of organism was seted up, one side fixed mounting of organism is four change the roller, four change one side of roller and equally divide eight feed levers of other fixedly connected with. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester can simultaneously cut seedlings and roots through air-suction overturning and remove garlic whiskers, has a better cutting effect, does not need subsequent manual cutting, and is time-saving and labor-saving.

Description

Air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester

Technical Field

The utility model relates to the technical field of agricultural machinery, in particular to an air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester.

Background

The garlic is an important economic crop and vegetable crop in China, and the planting area of the garlic is over 1200 ten thousand mu each year. The garlic harvesting step accounts for more than half of the total production cost, the manual harvesting efficiency is low, and the labor intensity is high. At present, the domestic garlic mechanical harvesting mainly comprises a sectional garlic excavator and a garlic combine harvester, the sectional garlic excavator has the advantages of simple structure and low cost, but the degree of automation is low, the purposes of loosening soil and digging garlic are only achieved, and garlic pulling, seedling cutting, root cutting and collection in the later period are manually completed. The existing garlic combine harvester has the functions of digging, clamping and conveying, seedling cutting and the like, but the seedling cutting can not ensure the consistent length generally, and the root hairs at the bottom of garlic can not be cut off almost, and the garlic seedlings and the seedling cutting hairs need to be trimmed manually in the follow-up process, so that the garlic combine harvester wastes time and labor.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

The utility model is provided in view of the problems existing in the seedling and beard cutting device of the existing garlic combine harvester and/or the prior garlic combine harvester.

Therefore, the utility model aims at providing an air-suction type garlic aligns cuts a root and cuts integrative combine of seedling can cut the seedling, cut the root simultaneously through the air-suction upset realization to get rid of the garlic palpus, the excision effect is better, need not carrying out subsequent artifical excision, labour saving and time saving.

For solving the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:

an air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester comprises: the automatic feeding device comprises a machine body, rotating rollers, air cylinders, a vibration motor, a driving motor, a fixed box and a controller, wherein eight rotating motors are fixedly installed on one side inside the machine body, eight rotating rollers are fixedly installed on the top ends of the rotating motors, eight transmission belts are fixedly connected to the eight rotating rollers, two discharge ports are formed in the bottom end of a rectangular groove formed in the other side inside the machine body, four rotating rollers are fixedly installed on one side of the machine body, eight feeding rods are respectively and fixedly connected to one side of each rotating roller, rotating shafts are fixedly installed at the bottom ends of the eight feeding rods, the eight transmission belts are fixedly connected to the eight rotating shafts, four first wheels are respectively and fixedly connected to one ends of the eight feeding rods, four material guide rods are respectively and fixedly connected to one end of each feeding rod, and two air cylinders are fixedly installed on one side of the machine body, one end of each of the two cylinders is fixedly connected with a hydraulic rod, one end of each of the two hydraulic rods is fixedly connected with a fixing frame, second wheels are fixedly mounted on two sides of the bottom end of each fixing frame, one side of the machine body is fixedly mounted with the vibration motor, one end of the vibration motor is fixedly connected with a connecting frame, a seedling pulling plate is fixedly connected to the bottom end of each connecting frame, four driving motors are fixedly mounted on four corners of the top end of the interior of the machine body, chains are fixedly connected to the bottoms of the four driving motors, ten connecting rods are fixedly connected to the bottom ends of the chains, servo motors are fixedly mounted on one sides of the bottom ends of the ten connecting rods, gas suction ports are fixedly mounted at the bottoms of output shafts of the ten servo motors, ten gas suction ports are fixedly connected with gas suction pumps, and the ten gas suction pumps, the inside one side fixed mounting of organism fixed box, the equal fixed mounting in one side top and the bottom of fixed box has the cutting motor, two the equal fixed mounting in one end of cutting motor has the cutting wheel, the inside fixed mounting in one side of organism the controller.

As an air-suction type garlic aligns, cuts a preferred scheme of integrative combine of root and seedling, wherein: a baffle is fixedly arranged in a rectangular groove formed in one side of the interior of the machine body and is positioned between the two discharge ports.

As an air-suction type garlic aligns, cuts a preferred scheme of integrative combine of root and seedling, wherein: the top end fixed mounting of organism has the seat, the top fixed mounting of organism has the action bars.

As an air-suction type garlic aligns, cuts a preferred scheme of integrative combine of root and seedling, wherein: two pedals are fixedly mounted on one side of the machine body, and a handle is fixedly mounted on one side of the machine body.

As an air-suction type garlic aligns, cuts a preferred scheme of integrative combine of root and seedling, wherein: and auxiliary rollers are fixedly arranged on one sides of the eight feeding rods.

As an air-suction type garlic aligns, cuts a preferred scheme of integrative combine of root and seedling, wherein: and a crawler base is fixedly arranged at the bottom end of the machine body.

As an air-suction type garlic aligns, cuts a preferred scheme of integrative combine of root and seedling, wherein: and illuminating lamps are fixedly arranged on two sides of the machine body.

Compared with the prior art: when the device encounters garlic plants, the vibration motor drives the connecting frame, the connecting frame drives the seedling pulling plate to vibrate and pull out the garlic plants, the material guide rod guides the garlic plants to the material feeding rod, the rotating motor drives the rotating roller to rotate, the rotating roller and the rotating shaft drive the transmission belt to move, the transmission belt conveys the garlic plants to the inside of the machine body, the driving motor drives the chain to move, the chain drives the connecting rod to move, the connecting rod drives the air suction port to be mutually connected with the garlic plants, the air suction port adsorbs the garlic plants, the servo motor drives the garlic plants to be in a horizontal position, then the garlic plants are conveyed into the fixing box, the cutting motor drives the cutting wheel to complete separation of the garlic rods and garlic heads, and the garlic whiskers are cut off, when the device encounters uneven ground, the second wheel enables each group of material feeding rods to independently move, the roller makes every group stack feeder pole can reciprocate and adapt to not the ground of co-altitude, and this integrative combine of root cutting seedling is cut in alignment of air-suction garlic can cut the seedling, cut the root simultaneously through the upset realization of air-suction to get rid of the garlic palpus, the excision effect is better, need not carry out subsequent artifical excision, labour saving and time saving.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor. Wherein:

fig. 1 is a side 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 sectional view of the machine body of the present invention.

In the figure: 100 machine bodies, 110 rotating motors, 120 rotating rollers, 130 transmission belts, 140 discharge ports, 150 baffles, 160 seats, 170 operating rods, 180 pedals, 190 handles, 200 rotating rollers, 210 feeding rods, 211 auxiliary rollers, 220 rotating shafts, 230 first wheels, 240 guide rods, 300 air cylinders, 310 hydraulic rods, 320 fixing frames, 330 second wheels, 400 vibrating motors, 410 connecting frames, 420 seedling pulling plates, 500 driving motors, 510 chains, 520 connecting rods, 530 servo motors, 540 suction ports, 550 air suction pumps, 600 fixing boxes, 610 cutting motors, 620 cutting wheels, 700 controllers, 800 crawler bases and 900 illuminating lamps.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways than those specifically described herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the schematic drawings, and in the detailed description of the embodiments of the present invention, for convenience of explanation, the sectional view showing the device structure will not be partially enlarged according to the general scale, and the schematic drawings are only examples, and should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The utility model provides an air-suction type garlic aligns cuts integrative combine of root and seedling, can cut the seedling, cuts the root simultaneously through the air-suction upset realization to get rid of the garlic palpus, the excision effect is better, need not carrying out subsequent artifical excision, labour saving and time saving please refer to figure 1, figure 2, figure 3 and figure 4, include: the roller device comprises a machine body 100, a roller 200, an air cylinder 300, a vibration motor 400, a driving motor 500, a fixed box 600 and a controller 700;

referring to fig. 1, 2, 3 and 4 again, eight rotating motors 110 are fixedly installed at one side inside the machine body 100, eight rotating rollers 120 are fixedly installed at the top ends of the rotating motors 110, eight transmission belts 130 are fixedly connected to the eight rotating rollers 120, two discharge ports 140 are formed at the bottom end of a rectangular groove formed at the other side inside the machine body 100, specifically, the eight rotating motors 110 are connected to one side inside the machine body 100 through bolt threads, the eight rotating rollers 120 are connected to the top ends of the rotating motors 110 through coupling buckles, the eight transmission belts 130 are in transmission connection with the eight rotating rollers 120, two discharge ports 140 are formed at the bottom end of a rectangular groove formed at the other side inside the machine body 100, the machine body 100 is used for accommodating and protecting internal devices, the rotating motors 110 are used for driving the rotating rollers 120 to rotate, the rotating rollers 120 are used for driving the transmission belts 130 to rotate, the transmission belts 130 are, the discharge opening 140 is used for discharging the separated garlic stems and garlic bulbs;

referring to fig. 1, 2, 3 and 4 again, four rotating rollers 200 are fixedly installed at one side of the machine body 100, eight feeding rods 210 are fixedly connected to one side of each rotating roller 200, rotating shafts 220 are fixedly installed at the bottom ends of the eight feeding rods 210, eight transmission belts 130 are fixedly connected to the eight rotating shafts 220, four first wheels 230 are fixedly connected to one ends of the eight feeding rods 210, four guide rods 240 are fixedly connected to one ends of the eight feeding rods 210, specifically, one side of the machine body 100 is connected to the four rotating rollers 200 through shaft fasteners, eight feeding rods 210 are welded to one sides of the four rotating rollers 200, rotating shafts 220 are welded to the bottom ends of the eight feeding rods 210, the eight transmission belts 130 are movably connected to the eight rotating shafts 220, four first wheels 230 are connected to one ends of the eight feeding rods 210 through shaft fasteners, four guide rods 240 are welded to one ends of the eight feeding rods 210, the rotating roller 200 is used for enabling the feeding rod 210 to move up and down in a rotating manner on the machine body 100, the feeding rod 210 is used for providing a channel for garlic plant movement, so that the garlic plants are conveyed by matching with the transmission belt 130, the rotating shaft 220 is used for fixing the transmission belt 130, so that the transmission belt 130 can convey the garlic plants, the first wheel 230 is used for enabling the feeding rod 210 to move along, and the material guiding rod 240 is used for guiding the garlic plants to move to the feeding rod 210;

referring again to FIGS. 1 and 2, fig. 3 and 4, two air cylinders 300 are fixedly installed on one side of the machine body 100, one ends of the two air cylinders 300 are fixedly connected with hydraulic rods 310, one ends of the two hydraulic rods 310 are fixedly connected with a fixing frame 320, and both sides of the bottom end of the fixing frame 320 are fixedly installed with second wheels 330, specifically, one side of the machine body 100 is connected with the two air cylinders 300 through bolt threads, one ends of the two air cylinders 300 are connected with the hydraulic rods 310 through bolt threads, one ends of the two hydraulic rods 310 are connected with a fixing frame 320 through bolt threads, both sides of the bottom end of the fixing frame 320 are connected with the second wheels 330 through shaft fasteners, the air cylinders 300 are used for controlling the expansion and contraction of the hydraulic rods 310, the hydraulic rods 310 are used for driving the fixing frame 320 to move upwards, the fixing frame 320 is used for fixing the second wheels 330, and the second wheels 330;

referring to fig. 1 and 4 again, a vibration motor 400 is fixedly installed at one side of the machine body 100, one end of the vibration motor 400 is fixedly connected with a connecting frame 410, a seedling pulling plate 420 is fixedly connected to the bottom end of the connecting frame 410, specifically, one side of the machine body 100 is connected with the vibration motor 400 through a bolt and a thread, one end of the vibration motor 400 is connected with the connecting frame 410 through a bolt and a thread, the seedling pulling plate 420 is welded to the bottom end of the connecting frame 410, the vibration motor 400 is used for driving the connecting frame 410 to vibrate, the connecting frame 410 is used for driving the seedling pulling plate 420 to vibrate, and the seedling pulling plate 420 is used for pulling out garlic plants from the ground through vibration;

referring to fig. 4 again, four corners of the top of the interior of the machine body 100 are fixedly provided with driving motors 500, the bottom ends of the four driving motors 500 are fixedly connected with chains 510, the bottom ends of the chains 510 are fixedly connected with ten connecting rods 520, one sides of the bottom ends of the ten connecting rods 520 are fixedly provided with servo motors 530, the bottom ends of the output shafts of the ten servo motors 530 are fixedly provided with air suction ports 540, the ten air suction ports 540 are fixedly connected with air suction pumps 550, the ten air suction pumps 550 are respectively and fixedly connected with the ten connecting rods 520, specifically, the four corners of the top of the interior of the machine body 100 are respectively connected with the driving motors 500 through bolt threads, the bottom ends of the four driving motors 500 are in transmission connection with the chains 510, the bottom ends of the chains 510 are welded with the ten connecting rods 520, one sides of the bottom ends of the ten connecting rods, the ten air suction ports 540 are communicated with air suction pumps 550 through pipelines, the ten air suction pumps 550 are respectively connected with ten connecting rods 520 through bolts and threads, the driving motor 500 is used for driving the chains 510 to move, the chains 510 are used for driving the connecting rods 520 to move, the connecting rods 520 are used for fixing an upper device and driving the device to move, the servo motor 530 is used for controlling the adjustment direction of the air suction ports 540, the air suction ports 540 are used for sucking the roots of garlic plants and driving the garlic plants to rotate to the horizontal position, and the air suction pumps 550 are used for providing an adsorption function for the air suction ports 540;

referring to fig. 4 again, a fixing box 600 is fixedly installed at one side inside the machine body 100, cutting motors 610 are fixedly installed at the top end and the bottom end of one side of the fixing box 600, cutting wheels 620 are fixedly installed at one ends of the two cutting motors 610, a controller 700 is fixedly installed inside one side of the machine body 100, specifically, one side inside the machine body 100 is connected with the fixing box 600 through bolt threads, the top end and the bottom end of one side of the fixing box 600 are connected with the cutting motors 610 through bolt threads, one ends of the two cutting motors 610 are connected with the cutting wheels 620 through bolt threads, the inside of one side of the machine body 100 is connected with the controller 700 through bolt threads, the fixing box 600 is used for providing places for cutting garlic rods, garlic bulbs and garlic whiskers, the cutting motors 610 are used for driving the cutting wheels 620 to rotate, the cutting wheels 620 are used for providing a cutting function, and the controller 700 is;

when the garlic harvester is used specifically, the device is started, the air cylinder 300 is opened, the air cylinder 300 controls the hydraulic rod 310 to extend and put down the fixed frame 320, the second wheel 330 of the fixed frame 320 assists the device to move in the field, when the device encounters garlic plants, the vibration motor 400 drives the connecting frame 410, the connecting frame 410 drives the seedling pulling plate 420 to vibrate and pull out the garlic plants, the material guiding rod 240 guides the garlic plants to the material feeding rod 210, the rotation motor 110 drives the rotation roller 120 to rotate, the rotation roller 120 and the rotating shaft 220 drive the transmission belt 130 to move, the transmission belt 130 conveys the garlic plants to the inside of the machine body 100, the driving motor 500 is opened, the driving motor 500 drives the chain 510 to move, the chain 510 drives the connecting rod 520 to move, the connecting rod 520 drives the air suction port 540 to be mutually connected with the garlic plants, the air suction port 540 adsorbs the garlic plants, the servo motor 530 drives the garlic plants to be in a horizontal position, then the garlic plants are conveyed into the fixed box 600, the cutting wheel, and garlic hairs are cut off, when the garlic cloves encounter uneven ground, the second wheels 330 enable each group of the feeding rods 210 to move independently, and the rotary rollers 200 enable each group of the feeding rods 210 to move up and down to adapt to the ground with different heights.

Referring to fig. 4 again, a baffle 150 is fixedly installed in a rectangular groove formed in one side of the inside of the machine body 100, the baffle 150 is located between the two discharge ports 140, specifically, the baffle 150 is welded in the rectangular groove formed in one side of the inside of the machine body 100, the baffle 150 is located between the two discharge ports 140, and the baffle 150 is used for separating the rectangular groove formed in the inside of the machine body 100, so that the garlic stems and the garlic heads are separated and collected.

Referring to fig. 1, 2 and 3 again, a seat 160 is fixedly installed at the top end of the machine body 100, an operating rod 170 is fixedly installed at the top end of the machine body 100, specifically, the seat 160 is connected to the top end of the machine body 100 through a bolt thread, the operating rod 170 is connected to the top end of the machine body 100 through a bolt thread, the seat 160 is used for facilitating a user to sit on the device for operation, and the operating rod 170 is used for facilitating an operation of the device.

Referring to fig. 1 and 2 again, two pedals 180 are fixedly installed at one side of the machine body 100, and a handle 190 is fixedly installed at one side of the machine body 100, specifically, two pedals 180 are welded at one side of the machine body 100, a handle 190 is welded at one side of the machine body 100, the pedals 180 are used for conveniently stepping on the machine body 100, and the handle 190 is used for conveniently grasping and climbing on the machine body 100.

Referring to fig. 3 again, auxiliary rollers 211 are fixedly mounted on one sides of the eight feeding rods 210, specifically, the auxiliary rollers 211 are connected to one sides of the eight feeding rods 210 through a rotating shaft 220, and the auxiliary rollers 211 are used for assisting the movement of the driving belt 130.

Referring to fig. 1 and 2 again, a crawler base 800 is fixedly installed at the bottom end of the machine body 100, and specifically, the crawler base 800 is welded at the bottom end of the machine body 100, and the crawler base 800 is used for enabling the device to move.

Referring to fig. 1, 2 and 3 again, the lighting lamps 900 are fixedly installed on both sides of the machine body 100, specifically, the lighting lamps 900 are connected to both sides of the machine body 100 through bolts and threads, and the lighting lamps 900 are used for providing a light source.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the non-exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. An air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester is characterized by comprising: the automatic feeding machine comprises a machine body (100), eight rotating rollers (200), an air cylinder (300), a vibration motor (400), a driving motor (500), a fixed box (600) and a controller (700), wherein eight rotating motors (110) are fixedly installed on one side of the interior of the machine body (100), eight rotating rollers (120) are fixedly installed at the top ends of the rotating motors (110), eight conveying belts (130) are fixedly connected onto the rotating rollers (120), two discharging ports (140) are formed in the bottom end of a rectangular groove formed in the other side of the interior of the machine body (100), four rotating rollers (200) are fixedly installed on one side of the machine body (100), eight feeding rods (210) are respectively and fixedly connected onto one side of the four rotating rollers (200), a rotating shaft (220) is fixedly installed on the bottom ends of the eight feeding rods (210), and eight conveying belts (130) are fixedly connected onto the rotating shaft (220), one end of each of the eight feeding rods (210) is fixedly connected with four first wheels (230), one end of each of the eight feeding rods (210) is fixedly connected with four material guide rods (240), one side of the machine body (100) is fixedly provided with two air cylinders (300), one end of each of the two air cylinders (300) is fixedly connected with a hydraulic rod (310), one end of each of the two hydraulic rods (310) is fixedly connected with a fixing frame (320), two sides of the bottom end of each fixing frame (320) are fixedly provided with second wheels (330), one side of the machine body (100) is fixedly provided with the vibrating motor (400), one end of the vibrating motor (400) is fixedly connected with a connecting frame (410), the bottom end of each connecting frame (410) is fixedly connected with a seedling pulling plate (420), and four corners of the top end inside the machine body (100) are fixedly provided with the driving motor (500), the bottom ends of the four driving motors (500) are fixedly connected with chains (510), the bottom ends of the chains (510) are fixedly connected with ten connecting rods (520), one sides of the bottom ends of the ten connecting rods (520) are fixedly provided with servo motors (530), the bottom ends of output shafts of the ten servo motors (530) are fixedly provided with air suction ports (540), the ten air suction ports (540) are fixedly connected with air suction pumps (550), the ten air suction pumps (550) are respectively and fixedly connected with the ten connecting rods (520), the fixed box (600) is fixedly arranged at one side inside the machine body (100), the top end and the bottom end of one side of the fixed box (600) are both fixedly provided with cutting motors (610), one ends of the two cutting motors (610) are both fixedly provided with cutting wheels (620), the controller (700) is fixedly arranged in one side of the machine body (100).

2. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester as claimed in claim 1, wherein a baffle (150) is fixedly installed in a rectangular groove formed in one side of the interior of the harvester body (100), and the baffle (150) is located between the two discharge ports (140).

3. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester as claimed in claim 1, wherein a seat (160) is fixedly mounted at the top end of the machine body (100), and an operating rod (170) is fixedly mounted at the top end of the machine body (100).

4. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester as claimed in claim 1, wherein two pedals (180) are fixedly mounted on one side of the machine body (100), and a handle (190) is fixedly mounted on one side of the machine body (100).

5. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester as claimed in claim 1, wherein auxiliary rollers (211) are fixedly mounted on one side of each of the eight feeding rods (210).

6. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester as claimed in claim 1, wherein a crawler base (800) is fixedly mounted at the bottom end of the machine body (100).

7. The air-suction type garlic aligning, root cutting and seedling cutting integrated combine harvester as claimed in claim 1, wherein lighting lamps (900) are fixedly mounted on both sides of the machine body (100).

Images