CN108496636A - A kind of greenhouse electricity drive Full-automatic rice plate rice breeding machine - Google Patents

Abstract

The invention discloses a kind of greenhouse electricity to drive Full-automatic rice plate rice breeding machine, including car body, seedling disk laying rack, seedling disk conveyer belt, actuating unit, Suction cup assembly, earthing portion, sowing portion, paving soil portion, walking mechanism, driving mechanism；Seedling disk laying rack is installed on the car body；Seedling disk conveyer belt is installed on the car body, and close to seedling disk laying rack, the other end of seedling disk conveyer belt is rearward arranged for one end of seedling disk conveyer belt；Actuating unit is for driving Suction cup assembly movement the seedling disk being located on seedling disk laying rack is moved to seedling disk conveyer belt；Earthing portion, sowing portion, paving soil portion are sequentially arranged at along the direction of advance of seedling cultivation machine on car body；Walking mechanism is installed on the car body；Driving mechanism includes lithium battery, motor, speed reducer, transmission shaft, lithium battery and electronic mechatronics；Motor is connect with speed reducer drive, and speed reducer is connect with transmission shaft driven；Transmission shaft is sequentially connected with the seedling disk conveyer belt, earthing portion, sowing portion, paving soil portion, walking mechanism.

Description

A kind of greenhouse electricity drive Full-automatic rice plate rice breeding machine

Technical field

The present invention relates to seedling cultivation machine fields more particularly to a kind of greenhouse electricity to drive Full-automatic rice plate rice breeding machine.

Background technology

With the continuous renewal and development of agriculture production technology, agricultural modernization production is gradually to automation, mechanization hair Exhibition, seedling are the important links of Rice Production, and sprout-tray seedling growth is one of modern seedling major way, and plate rice breeding needs are being educated The a series of programs such as shop fixtures is native, sows, covers table soil are completed in seedling disk, and these are that seedling is successfully crucial.For greenhouse Air circulation is relatively slow, and according to previous gasoline engine as power source, larger pollution will be generated to greenhouse.Needle To this special circumstances, power is provided using lithium battery cooperation motor, zero emission and pollution has not only been only reached, has fired simultaneously The economic higher of oil, meets the main trend of current energy-saving and environmental protection.Simplified machine can also be realized using the scheme of motor simultaneously Structure reduces volume, mitigates weight, and turning radius smaller is suitble to the warm office work in narrow space.

Invention content

To solve technical problem present in background technology, the present invention proposes that a kind of greenhouse electricity drives Full-automatic rice disc type Seedling cultivation machine.

A kind of greenhouse electricity proposed by the present invention drives Full-automatic rice plate rice breeding machine, including car body, seedling disk laying rack, seedling Disk conveyer belt, actuating unit, Suction cup assembly, earthing portion, sowing portion, paving soil portion, walking mechanism, driving mechanism；Seedling disk laying rack Installation is on the car body；Seedling disk conveyer belt is installed on the car body, and one end of seedling disk conveyer belt is close to seedling disk laying rack, the conveying of seedling disk The other end of band is rearward arranged；Actuating unit is for driving Suction cup assembly movement will be located at the seedling disk on seedling disk laying rack It is moved on seedling disk conveyer belt；Earthing portion, sowing portion, paving soil portion are sequentially arranged at along the direction of advance of seedling cultivation machine on car body；Row Walk mechanism installation on the car body；Driving mechanism includes lithium battery, motor, speed reducer, transmission shaft, lithium battery and electronic electromechanics Connection；Motor is connect with speed reducer drive, and speed reducer is connect with transmission shaft driven；Transmission shaft and the seedling disk conveyer belt, Earthing portion, sowing portion, paving soil portion, walking mechanism are sequentially connected.

Preferably, actuating unit includes the first power unit, the second power unit, lead screw, slide bar, sliding block, and lead screw is located at The top of seedling disk laying rack, seedling disk conveyer belt, lead screw arrange that lead screw is rotatablely connected with car body along the moving direction of seedling cultivation machine；It is sliding Bar is located at the top of seedling disk laying rack, seedling disk conveyer belt, and slide bar is arranged in parallel with lead screw, and slide bar is connect with car body；Sliding block and silk Bar is threadedly coupled, and sliding block is connect with sliding bar；First power unit is for driving lead screw to rotate；Second power unit is installed On sliding block and for driving Suction cup assembly to move up and down.

Preferably, seedling disk conveyer belt includes the first driving shaft, first driven shaft, the first belt, support shaft, and first actively Axis, first driven shaft are rotatablely connected with car body, and the first driving shaft, first driven shaft are divided successively along the moving direction of seedling cultivation machine Cloth, the first driving shaft are connect by the first belt with first driven shaft, and the first driving shaft is connect with transmission shaft driven；Support shaft With car body be rotatablely connected, support shaft be located at the inside of the first belt and with the first belt contacts.

Preferably, the quantity of support shaft is multiple, and multiple support shafts are sequentially distributed along the moving direction of seedling cultivation machine.

Preferably, paving soil portion includes paving Tu Cang, the first rotary shaft, the first hack component, and paving Tu Cang is installed on the car body simultaneously Positioned at the top of seedling disk conveyer belt；First rotary shaft is located in the native storehouse of paving and is rotatablely connected with car body, the first rotary shaft and transmission Axis is sequentially connected；First hack component is mounted in the first rotary shaft；Preferably, paving soil portion further includes the second driving shaft, second Driven shaft, the second belt, the second driving shaft, second driven shaft are located at the lower section of the first hack component and are located at seedling disk conveyer belt Top, the second driving shaft, second driven shaft be sequentially distributed along the moving direction of seedling cultivation machine, and the second driving shaft passes through the second skin Band is connect with second driven shaft, and the second driving shaft is connect with transmission shaft driven.

Preferably, the first hack component includes multiple cylinders, and multiple cylinders are interlaced to be mounted on the first rotary shaft On, the angle between two cylinders of arbitrary neighborhood is 30-80 degree.

Preferably, sowing portion includes sowing storehouse, installation axle, seeding belt, and the installation of sowing storehouse is on the car body and defeated positioned at seedling disk Send the top of band；Installation axle is located in sowing storehouse and is rotatablely connected with car body, and installation axle is connect with transmission shaft driven；Seeding belt Installation is on the mounting shaft.

Preferably, earthing portion includes earthing storehouse, the second rotary shaft, the second hack component, and earthing storehouse is installed on the car body simultaneously Positioned at the top of seedling disk conveyer belt；Second rotary shaft is located in earthing storehouse and is rotatablely connected with car body, the second rotary shaft and driving Mechanism driving connects；Second hack component is mounted in the second rotary shaft；Preferably, earthing portion further includes third driving shaft, Three driven shafts, third belt, third driving shaft, third driven shaft are located at the lower section of the second hack component and are conveyed positioned at seedling disk The top of band, third driving shaft, third driven shaft are sequentially distributed along the moving direction of seedling cultivation machine, and third driving shaft passes through third Belt and the driven axis connection of third, third driving shaft are connect with transmission shaft driven.

Preferably, walking mechanism includes axle, two Athey wheels, and axle installation connects on the car body and with transmission shaft driven It connects；Two Athey wheels are separately mounted to the both ends of axle.

Preferably, further include outlet plate, export the downstream side that plate is located at seedling disk conveyer belt, outlet plate is inclined Shape arranges that the higher-end for exporting plate is arranged close to seedling disk conveyer belt.

In the present invention, using lithium battery, more environmentally friendly, structure of the invention is compact, reasonable, realizes and automates, is disposable Extensive balance seedling is completed, simple operation is simple, greatly improves working efficiency, reduces labor intensity, and with stopping With walking, control is sensitive convenient, and balance is neat, compact, spreads soil uniformly, and rice shoot bedding is smooth, reduces the wave of seed and seedling disk base soil Take

Description of the drawings

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the structural schematic diagram in earthing portion, sowing portion, paving soil portion etc.；

Fig. 3 is the structural schematic diagrams such as earthing portion, sowing portion, paving soil portion, walking mechanism, driving mechanism.

Specific implementation mode

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutual combination；Below with reference to the accompanying drawings it elaborates to the present invention and in conjunction with the embodiments

Referring to Fig.1-3, a kind of greenhouse electricity proposed by the present invention drives Full-automatic rice plate rice breeding machine, including car body 1, seedling Disk laying rack 2, seedling disk conveyer belt, actuating unit, Suction cup assembly 40, earthing portion, sowing portion, paving soil portion, walking mechanism, driving Mechanism；Seedling disk laying rack 2 is mounted on car body 1；Seedling disk conveyer belt is mounted on car body 1, and one end of seedling disk conveyer belt is close to seedling The other end of disk laying rack 2, seedling disk conveyer belt is rearward arranged；Actuating unit is for driving the movement of Suction cup assembly 40 with by position It is moved on seedling disk conveyer belt in the seedling disk on seedling disk laying rack 2；Earthing portion, sowing portion, paving soil portion are along the advance side of seedling cultivation machine To being sequentially arranged on car body 1；Walking mechanism is mounted on car body 1；Driving mechanism includes lithium battery 41, motor 36, slows down Machine 37, transmission shaft 38, lithium battery 41 are electrically connected with motor 36；Motor 36 and speed reducer 37 are sequentially connected, speed reducer 37 with Transmission shaft 38 is sequentially connected；Transmission shaft 38 is passed with the seedling disk conveyer belt, earthing portion, sowing portion, paving soil portion, walking mechanism Dynamic connection.

In further embodiment, actuating unit includes the first power unit 4, the second power unit 5, lead screw 8, slides Bar 6, sliding block 7, lead screw are located at the top of seedling disk laying rack 2, seedling disk conveyer belt, and lead screw is arranged along the moving direction of seedling cultivation machine, silk Bar is rotatablely connected with car body；Slide bar is located at the top of seedling disk laying rack, seedling disk conveyer belt, and slide bar is arranged in parallel with lead screw, slide bar It is connect with car body；Sliding block is connect with wire rod thread, and sliding block is connect with sliding bar；First power unit is for driving lead screw to turn It is dynamic；Second power unit is mounted on sliding block and for driving Suction cup assembly to move up and down.

Multiple seedling disks are placed on seedling disk laying rack 2, in operation, drive lead screw to rotate using the first power unit, when Suction cup assembly stops when being located at the top of seedling disk, drives Suction cup assembly to decline using the second power unit, adsorbs seedling disk, then Suction cup assembly, seedling disk is driven to rise, the first power unit drives lead screw rotation again, and when Suction cup assembly, that seedling disk is located at seedling disk is defeated Stop when the top for sending band, drives Suction cup assembly to decline using using the second power unit, seedling disk is placed on seedling disk conveyer belt On, repeatedly, realize the movement of seedling disk.

In further embodiment, seedling disk conveyer belt includes the first driving shaft 15, first driven shaft 16, the first belt 17, support shaft 18, the first driving shaft 15, first driven shaft 16 are rotatablely connected with car body 1, and the first driving shaft 15, first is driven Axis 16 is sequentially distributed along the moving direction of seedling cultivation machine, and the first driving shaft 15 is connect by the first belt 17 with first driven shaft 16, First driving shaft 15 is connect with transmission shaft driven；Support shaft 18 is rotatablely connected with car body 1, and support shaft 18 is located at the first belt 17 Inside and contacted with the first belt 17；In further embodiment, the quantity of support shaft 18 is multiple, multiple support shafts 18 are sequentially distributed along the moving direction of seedling cultivation machine.

When seedling disk is moved on the first belt 17 of seedling disk conveyer belt, driving mechanism drives the rotation of the first driving shaft 15, Seedling disk is driven to move using the first belt 17.

Since seedling disk conveying strip length is larger, by the way that support shaft 18 is arranged, support seedling disk avoids, can be effective Transmit seedling disk.

In further embodiment, paving soil portion includes the native storehouse 19 of paving, the first rotary shaft 20, the first hack component 21, paving Native storehouse 19 is mounted on the top on car body 1 and positioned at seedling disk conveyer belt；First rotary shaft 20 is located in paving soil storehouse 19 and and car body 1 rotation connection, the first rotary shaft 20 are connect with transmission shaft driven；First hack component 21 is mounted in the first rotary shaft 20.

Paving soil portion further includes the second driving shaft 22, second driven shaft 23, the second belt 24, the second driving shaft 22, second from Moving axis 23 is located at the lower section of the first hack component 21 and the top positioned at seedling disk conveyer belt, the second driving shaft 22, second driven shaft 23 are sequentially distributed along the moving direction of seedling cultivation machine, and the second driving shaft 22 is connect by the second belt 24 with second driven shaft 23, and Two driving shafts 22 are connect with transmission shaft driven.

It is put into soil in Pu Tucang 19, drives the first rotary shaft 20 to rotate using driving mechanism, utilizes the first hack group Soil is crushed, is refined by part 21.

Soil is fallen by the outlet in paving soil storehouse 19 on the second belt 24, and driving mechanism is utilized to drive the second driving shaft 22 Rotation transmits soil using the second belt 24, and soil falls from the second belt 24, trickle down on seedling disk, seedling disk uplink at 5mm to 8mm substratums.Subsoil is uniformly and the not no stone of bulky grain.

In further embodiment, sowing portion includes sowing storehouse 25, installation axle 26, seeding belt 27, and sowing storehouse 25 is installed Top on car body 1 and positioned at seedling disk conveyer belt；Installation axle 26 is located in sowing storehouse 25 and is rotatablely connected with car body 1, installation Axis 26 is connect with transmission shaft driven；Seeding belt 27 is mounted in installation axle 26.

It is put into seed in sowing storehouse 25, drives installation axle 26 to rotate using driving mechanism, in the drive of seeding belt 27 Under, seed is fallen from sowing storehouse 25, is uniformly trickled down on seedling disk.

In further embodiment, earthing portion includes earthing storehouse 28, the second rotary shaft 29, the second hack component 30, is covered Native storehouse 28 is mounted on the top on car body 1 and positioned at seedling disk conveyer belt；Second rotary shaft 29 is located in earthing storehouse 28 and and car body 1 rotation connection, the second rotary shaft 29 are sequentially connected with driving mechanism；Second hack component 30 is mounted in the second rotary shaft 29； Preferably, earthing portion further includes third driving shaft 31, third driven shaft 32, third belt 33, third driving shaft 31, third from Moving axis 32 is located at the lower section of the second hack component 30 and the top positioned at seedling disk conveyer belt, third driving shaft 31, third driven shaft 32 are sequentially distributed along the moving direction of seedling cultivation machine, and third driving shaft 31 is connect by third belt 33 with third driven shaft 32, Third driving shaft 31 is connect with transmission shaft driven.

It is put into soil in earthing storehouse 28, drives the second rotary shaft 29 to rotate using driving mechanism, utilizes the second hack group Soil is crushed, is refined by part 30.

Soil is fallen by the outlet in earthing storehouse 28 on third belt 33, and third driving shaft 31 is driven using driving mechanism Rotation transmits soil using third belt 33, and soil falls from third belt 33, trickle down on seedling disk, seedling disk uplink at 5mm to 8mm overburden layers.

In further embodiment, walking mechanism includes 34, two Athey wheels 35 of axle, and axle 34 is mounted on car body 1 Above and with transmission shaft driven it connect；Two Athey wheels 35 are separately mounted to the both ends of axle 34.Axle is driven using driving mechanism 34, Athey wheel 35 rotates, and then drives entire seedling cultivation machine movement.

Further include outlet plate 39 in further embodiment, outlet plate 39 is located at the downstream of seedling disk conveyer belt Side, outlet plate 39 obliquely arrange that the higher-end for exporting plate 39 is arranged close to seedling disk conveyer belt.Facilitate seedling disk from going out Mouth plate 39 flows out.

It is powered to motor using lithium battery, drives speed reducer 37 to rotate using motor, speed reducer 37 drives transmission shaft 38 rotations.

First driving gear A can be installed on transmission shaft 38, the first driven gear B is installed on axle 34, pass through One chain C realizes transmission.

Second driving gear D can be installed on transmission shaft 38, in the first driving shaft 15, the second driving shaft 22, third master Moving axis 31, the second rotary shaft 29, installs the second driven gear E in installation axle 26 at first rotary shaft 20, and it is real to pass through the second chain F Now it is driven.In order to control the tension of the second chain F, can be controlled by increasing Tension gear P.

Seedling disk is placed in seedling disk laying rack, is moved to seedling disk on seedling disk conveyer belt simultaneously using actuating unit, Suction cup assembly It moves along seedling disk conveyer belt, when seedling disk is moved to the lower section in paving soil portion, is trickled down subsoil on seedling disk using paving soil portion, Seedling disk uplink is at 5mm to 8mm substratums.Subsoil is uniformly and the not no stone of bulky grain.When seedling disk is moved to the lower section in sowing portion When, seed is trickled down on seedling disk using sowing portion.It, will be fine crushing using earthing portion when seedling disk is moved to the earthing in sowing portion Soil trickle down on seedling disk, row at 5mm to 8mm overburden layer.Finally by outlet plate outflow.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited to This, any one skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention And its inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (10)

1. a kind of greenhouse electricity drives Full-automatic rice plate rice breeding machine, which is characterized in that defeated including car body, seedling disk laying rack, seedling disk Send band, actuating unit, Suction cup assembly, earthing portion, sowing portion, paving soil portion, walking mechanism, driving mechanism；Seedling disk laying rack is installed On the car body；Seedling disk conveyer belt is installed on the car body, one end of seedling disk conveyer belt close to seedling disk laying rack, seedling disk conveyer belt it is another One end is rearward arranged；Actuating unit is for driving Suction cup assembly movement the seedling disk being located on seedling disk laying rack is moved to seedling On disk conveyer belt；Earthing portion, sowing portion, paving soil portion are sequentially arranged at along the direction of advance of seedling cultivation machine on car body；Walking mechanism is pacified Dress is on the car body；Driving mechanism includes lithium battery, motor, speed reducer, transmission shaft, lithium battery and electronic mechatronics；It is electronic Machine is connect with speed reducer drive, and speed reducer is connect with transmission shaft driven；Transmission shaft and the seedling disk conveyer belt, earthing portion, sowing Portion, paving soil portion, walking mechanism are sequentially connected.

2. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that actuating unit includes First power unit, the second power unit, lead screw, slide bar, sliding block, lead screw are located at the top of seedling disk laying rack, seedling disk conveyer belt, Lead screw arranges that lead screw is rotatablely connected with car body along the moving direction of seedling cultivation machine；Slide bar is located at seedling disk laying rack, seedling disk conveyer belt Top, slide bar are arranged in parallel with lead screw, and slide bar is connect with car body；Sliding block is connect with wire rod thread, and sliding block is connect with sliding bar； First power unit is for driving lead screw to rotate；Second power unit is mounted on sliding block and is moved down on Suction cup assembly for driving It is dynamic.

3. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that seedling Pan Shusongdaibao The first driving shaft, first driven shaft, the first belt, support shaft are included, the first driving shaft, first driven shaft, which are rotated with car body, to be connected It connects, the first driving shaft, first driven shaft are sequentially distributed along the moving direction of seedling cultivation machine, and the first driving shaft passes through the first belt and One driven axis connection, the first driving shaft are connect with transmission shaft driven；Support shaft is rotatablely connected with car body, and support shaft is located at the first skin The inside of band and with the first belt contacts.

4. greenhouse electricity according to claim 3 drives Full-automatic rice plate rice breeding machine, which is characterized in that the quantity of support shaft To be multiple, multiple support shafts are sequentially distributed along the moving direction of seedling cultivation machine.

5. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that paving soil portion includes paving Tu Cang, the first rotary shaft, the first hack component, paving Tu Cang installations are on the car body and positioned at the top of seedling disk conveyer belt；First rotation Shaft is located in the native storehouse of paving and is rotatablely connected with car body, and the first rotary shaft is connect with transmission shaft driven；First hack component is installed In the first rotary shaft；Preferably, paving soil portion further includes the second driving shaft, second driven shaft, the second belt, the second driving shaft, Second driven shaft is located at the lower section of the first hack component and the top positioned at seedling disk conveyer belt, the second driving shaft, second driven shaft Moving direction along seedling cultivation machine is sequentially distributed, and the second driving shaft is connect by the second belt with second driven shaft, the second driving shaft It is connect with transmission shaft driven.

6. greenhouse electricity according to claim 5 drives Full-automatic rice plate rice breeding machine, which is characterized in that first hack Component includes multiple cylinders, and multiple cylinders are interlaced to be mounted in the first rotary shaft, the folder between two cylinders of arbitrary neighborhood Angle is 30-80 degree.

7. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that sowing portion includes broadcasting Kind storehouse, installation axle, seeding belt, the installation of sowing storehouse is on the car body and positioned at the top of seedling disk conveyer belt；Installation axle is located at sowing storehouse Interior and be rotatablely connected with car body, installation axle connect with transmission shaft driven；Seeding belt is installed on the mounting shaft.

8. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that earthing portion includes covering Tu Cang, the second rotary shaft, the second hack component, the installation of earthing storehouse is on the car body and positioned at the top of seedling disk conveyer belt；Second rotation Shaft is located in earthing storehouse and is rotatablely connected with car body, and the second rotary shaft is sequentially connected with driving mechanism；Second hack component is pacified In the second rotary shaft；Preferably, earthing portion further includes third driving shaft, third driven shaft, third belt, and third is actively Axis, third driven shaft are located at the lower section of the second hack component and the top positioned at seedling disk conveyer belt, and third driving shaft, third are driven Axis is sequentially distributed along the moving direction of seedling cultivation machine, and third driving shaft is by third belt and the driven axis connection of third, and third is actively Axis is connect with transmission shaft driven.

9. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that walking mechanism includes Axle, two Athey wheels, axle installation are connect on the car body and with transmission shaft driven；Two Athey wheels are separately mounted to axle Both ends.

10. greenhouse electricity according to claim 1 drives Full-automatic rice plate rice breeding machine, which is characterized in that further include outlet Plate, outlet plate are located at the downstream side of seedling disk conveyer belt, and outlet plate obliquely arranges that the higher-end for exporting plate is close Seedling disk conveyer belt is arranged.