CN112567941A - Seed quantity adjustable solar seeding equipment - Google Patents

Abstract

The invention relates to the field of energy-saving equipment, in particular to solar seeding equipment with adjustable seed quantity, which comprises a box body, wherein a seeding box is arranged in the box body, a seeding cavity is arranged in the seeding box, a seeding shaft is rotatably arranged between the front end wall and the rear end wall of the seeding cavity, a seeding device for seeding is arranged in the seeding cavity by the seeding shaft, a wheel cavity with a downward opening is arranged in the box body, a wheel shaft is rotatably arranged between the front end wall and the rear end wall of the wheel cavity, and wheels are arranged in the wheel cavity by the wheel shaft. Meanwhile, a power supply mode of solar power generation is adopted, and the energy-saving effect is achieved to a certain extent.

Description

Seed quantity adjustable solar seeding equipment

Technical Field

The invention relates to the field of energy-saving equipment, in particular to solar seeding equipment with adjustable seed quantity.

Background

The seeder uses crop seeds as planting object, it is used for the seeder of certain kind or certain kind of crop, often the name of crop kind, such as grain drill, corn hill planter, cotton seeder and pasture grass broadcast seeder, along with the development of modern agricultural technology, the combined operation machine of precision seeding, film laying and drip tape laying has become the development trend, the combined operation seeder is widely used in agricultural production, seeding is one of the measures of crop cultivation, it is specifically to sow the seeds into the soil layer of certain depth according to certain quantity and mode in good time. Whether sowing is proper or not directly influences the growth, development and yield of crops. In most agricultural production processes, the agricultural production units taking families as units are still adopted, the land planting area is small, the distribution is scattered, the types of crops are more, the number of seeds is different when different crops are sowed, the number of seeds cannot be changed in the traditional sowing machine, and therefore the problem needs to be solved by arranging the solar sowing equipment with the adjustable number of seeds.

Disclosure of Invention

The invention aims to provide a solar seeding device with adjustable seed quantity, which can overcome the defects in the prior art, thereby improving the practicability of the device.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a solar seeding device with adjustable seed quantity, which comprises a box body, wherein a seeding box is arranged in the box body, a seeding cavity is arranged in the seeding box, a seeding shaft is rotatably arranged between the front end wall and the rear end wall of the seeding cavity, a seeding device for seeding is arranged in the seeding cavity by the seeding shaft, a wheel cavity with a downward opening is arranged in the box body, a wheel shaft is rotatably arranged between the front end wall and the rear end wall of the wheel cavity, wheels are arranged in the wheel cavity by the wheel shaft, a feeding pipe communicated with the seeding cavity is arranged on the left end wall of the box body, a feeding box for placing seeds is fixedly arranged at the left end of the feeding pipe, a control cavity is arranged in the box body, a motor is fixedly arranged at the lower side of the control cavity, the motor is in power connection with a motor shaft extending upwards into the, the motor shaft is provided with a shaft sleeve matched with the spline in a vertical sliding manner, the shaft sleeve is provided with a control device in the control cavity, the right side of the control cavity is provided with a bevel pinion cavity, the left end wall of the bevel pinion cavity is provided with a driving bevel pinion shaft which extends leftwards into the control cavity in a rotating manner, the driving bevel pinion shaft is solid, namely a driving bevel pinion is fixedly arranged in the bevel pinion cavity, the upper side of the bevel pinion cavity is provided with a transmission cavity, the upper end wall of the bevel pinion cavity is provided with a driven bevel pinion shaft which extends upwards into the transmission cavity, the driven bevel pinion shaft is provided with a positioning device for transmission in the transmission cavity, the upper end wall of the box body is fixedly provided with connecting rods which are bilaterally symmetrical, the top end of each supporting rod is hinged with a photovoltaic plate, and the lower side of the bevel pinion cavity, the solar cell seeding device is characterized in that a cell connected with the motor is fixedly arranged in the cell, a transmission bevel gear cavity is arranged on the rear side of the seeding cavity, a seeding shaft is arranged between the ball end walls of the seeding cavity in a rotating mode, a transmission device is arranged in the transmission bevel gear cavity, and the photovoltaic panel is electrically connected with the cell.

Further, the seeding device comprises a seeding shaft which is rotatably arranged between the left end wall and the right end wall of the seeding cavity, a material carrying plate is fixedly arranged in the seeding cavity of the seeding shaft, a plurality of material carrying cavities for transporting seeds are arranged on the outer surface of the material carrying plate, fixed pipes are fixedly arranged on the left side and the right side of the material carrying plate and connected onto the seeding shaft, two positioning plates for controlling the size of the material carrying cavity are arranged in a left-right sliding mode, six fixed shafts which are symmetrical relative to the circle center are fixedly arranged on the positioning plates, sliding plates which are symmetrical relative to the front side and the back side of the material carrying plate are arranged on the seeding shaft in a spline fit mode, a large bevel gear cavity is arranged on the front side of the seeding cavity, a driven large bevel gear is fixedly arranged in the large bevel gear cavity of the sliding plate, the tail end of each fixed shaft is fixedly connected onto a fixed rod which is in threaded connection with the sliding plates, the driving large bevel gear shaft is fixedly arranged in the large bevel gear cavity and is meshed with the driven large bevel gear, a discharge box is fixedly arranged on the lower end wall of the seeding box, and a discharge cavity communicated with the material carrying cavity is arranged in the discharge box.

Furthermore, the control device comprises an air cylinder arranged in the box body, the air cylinder is in power connection with a push rod extending downwards into the control cavity, a push plate connected to the shaft sleeve in a rotating mode is fixedly arranged at the lower end of the push rod, an output bevel gear is fixedly arranged in the control cavity, a forward bevel gear meshed with the output bevel gear is fixedly arranged in the control cavity, and a reverse bevel gear meshed with the output bevel gear is fixedly arranged in the control cavity.

Further, positioner includes the fixed belt chamber that is provided with of transmission chamber upside, it upwards extends to rotate between the end wall about the transmission chamber to be provided with to rotate the driven bull gear axle of belt intracavity, the driven bull gear axle is in the fixed driven gear wheel that is provided with of transmission intracavity, the end wall rotates and is provided with downwardly extending to driven pinion shaft in the transmission bevel gear intracavity, driven pinion shaft is in the fixed driven pinion that is provided with of transmission intracavity, the bull gear axle is in the fixed big connecting rod that is provided with of transmission intracavity, the fixed movable pinion shaft that is provided with of big connecting rod end, the epaxial rotation of movable pinion be provided with gear wheel mesh's movable pinion.

Furthermore, the transmission device comprises a seeding shaft, a transmission bevel gear cavity is fixedly provided with a transmission small bevel gear, a driven pinion shaft is fixedly provided with a transmission large bevel gear meshed with the transmission small bevel gear in the transmission bevel gear cavity, the driven pinion shaft is arranged on a driven pulley when the belt cavity is fixed, the driven pinion shaft is arranged on a driving pulley fixedly arranged in the belt cavity, and the driving pulley is in transmission connection with the driven pulley through a belt.

The invention has the beneficial effects that: the solar seeding equipment with the adjustable seed quantity, provided by the invention, can adjust the equipment to discharge different quantities of seeds when the equipment is used each time according to different seed quantities required by different crops during seeding, is convenient for the sequential planting of multiple crops to a certain extent, improves the working efficiency to a certain extent, and simultaneously adopts a power supply mode of solar power generation to achieve the energy-saving effect to a certain extent.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of a solar seeding apparatus with adjustable seed number according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is a schematic view of the structure of C-C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The solar seeding device with adjustable seed quantity described in conjunction with the attached figures 1-4 comprises a box body 10, a seeding box 11 is arranged in the box body 10, a seeding chamber 64 is arranged in the seeding box 11, a seeding shaft 17 is rotatably arranged between the front end wall and the rear end wall of the seeding chamber 64, a seeding device 101 for seeding is arranged in the seeding chamber 64 of the seeding shaft 17, a wheel chamber 65 with a downward opening is arranged in the box body 10, a wheel shaft 48 is rotatably arranged between the front end wall and the rear end wall of the wheel chamber 65, a wheel 47 is arranged in the wheel chamber 65 by the wheel shaft 48, a feeding pipe 43 communicated with the seeding chamber 64 is arranged on the left end wall of the box body 10, a feeding box 42 for putting in seeds is fixedly arranged on the left end of the feeding pipe 43, a control chamber 54 is arranged in the box body 10, and a motor 44 is fixedly arranged on, the motor 44 is in power connection with a motor shaft 55 extending upwards into the control cavity 54, the motor shaft 55 is fixedly provided with a spline 56 in the control cavity 54, the motor shaft 55 is provided with a shaft sleeve 57 matched with the spline 56 in a vertical sliding manner, the shaft sleeve 57 is provided with a control device 102 in the control cavity 54, the right side of the control cavity 54 is provided with a bevel pinion cavity 40, the left end wall of the bevel pinion cavity 40 is rotatably provided with a driving bevel pinion shaft 41 extending leftwards into the control cavity 54, the driving bevel pinion shaft 41 is firmly connected by fixedly providing a driving bevel pinion 39 in the bevel pinion cavity 40, the upper side of the bevel pinion cavity 40 is provided with a transmission cavity 23, the upper end wall of the bevel pinion cavity 40 is rotatably provided with a driven large pinion shaft 31 extending upwards into the transmission cavity 23, and the driven large pinion shaft 31 is provided with a positioning device 103 for transmission in the transmission cavity 23, the fixed being provided with of box 10 upper end wall, the articulated bilateral symmetry's in bracing piece 28 top connecting rod 29, the terminal fixed photovoltaic board 30 that is provided with of connecting rod 29, bevel pinion chamber 40 downside is provided with battery 45, battery 45 internal fixation be provided with the online battery 45 of motor 44 electric power, seeding chamber 64 rear side is provided with transmission bevel gear chamber 67, it is provided with seeding axle 17 to rotate between 64 ball end walls in seeding chamber, seeding axle 17 word be provided with transmission 104 in the transmission bevel gear chamber 67, photovoltaic board 30 with battery 45 electric connection.

Beneficially, the sowing device 101 comprises a sowing cavity 64, a sowing shaft 17 is rotatably arranged between the left end wall and the right end wall of the sowing cavity 64, the sowing shaft 17 is fixedly arranged in the sowing cavity 64 and provided with a material carrying plate 69, a plurality of material carrying cavities 18 for transporting seeds are arranged on the outer surface of the material carrying plate 69, fixed pipes 70 connected to the sowing shaft 17 are fixedly arranged on the left side and the right side of the material carrying plate 69, two positioning plates 14 for controlling the size of the material carrying cavities 18 are arranged on the 70 in a left-right sliding manner, six fixed shafts 12 symmetrical with respect to the circle center are fixedly arranged on the positioning plates 14, the sowing shaft 17 is provided with sliding plates 15 symmetrical with respect to the material carrying plate 69 in a front-back manner through spline fit, a large bevel gear cavity 21 is arranged on the front side of the sowing cavity 64, a driven large bevel gear 16 is fixedly arranged in the large bevel gear cavity 21 by the sliding plates 15, the, the upper end wall of the large bevel gear cavity 21 is rotatably provided with a driving large bevel gear shaft 20 which upwards extends into the transmission cavity 23, the driving large bevel gear shaft 20 is fixedly arranged in the large bevel gear cavity 21 and is provided with a driving large bevel gear 19 meshed with the driven large bevel gear 16, the lower end wall of the seeding box 11 is fixedly provided with a discharging box 49, and a discharging cavity 50 communicated with the material taking cavity 18 is arranged in the discharging box 49.

Advantageously, the control device 102 comprises a cylinder 51 disposed in the housing 10, the cylinder 51 is in power connection with a push rod 52 extending downward into the control chamber 54, a push plate 53 rotatably connected to a sleeve 57 is fixedly disposed at the lower end of the push rod 52, the drive pinion shaft 41 is fixedly disposed in the control chamber 54 with an output bevel gear 59, the sleeve 57 is fixedly disposed in the control chamber 54 with a forward bevel gear 58 engaged with the output bevel gear 59, and the sleeve 57 is fixedly disposed in the control chamber 54 with a reverse bevel gear 61 engaged with the output bevel gear 59.

Beneficially, the positioning device 103 includes the belt cavity 25 is fixedly arranged on the upper side of the transmission cavity 23, the upper end wall and the lower end wall of the transmission cavity 23 are rotatably arranged between the upper end wall and the lower end wall and upwardly extend to the driven large gear shaft 31 in the belt cavity 25, the driven large gear shaft 31 is fixedly arranged in the transmission cavity 23 and is provided with the driven large gear 37, the lower end wall of the transmission cavity 23 is rotatably arranged and downwardly extends to the driven small gear shaft 22 in the transmission bevel gear cavity 67, the driven small gear shaft 22 is fixedly arranged in the transmission cavity 23 and is provided with the driven small gear 24, the large gear shaft 34 is fixedly arranged in the transmission cavity 23 and is provided with the large connecting rod 35, the tail end of the large connecting rod 35 is fixedly provided with the movable small gear shaft 62, and the movable small gear 63 meshed with the large gear.

Advantageously, the transmission device 104 includes the seed shaft 17, a transmission small bevel gear 66 is fixedly arranged in the transmission bevel gear cavity 67, the driven pinion shaft 22 is fixedly arranged in the transmission bevel gear cavity 67, a transmission large bevel gear 68 engaged with the transmission small bevel gear 66 is fixedly arranged in the transmission bevel gear cavity 67, the driven pinion shaft 22 is fixedly arranged in the belt cavity 25 and is driven by the driven pulley 26, the driven large pinion shaft 31 is fixedly arranged in the belt cavity 25 and is provided with a driving pulley 32, and the driving pulley 32 is in transmission connection with the driven pulley 26 through a belt 27.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-4, the sequence of mechanical actions of the entire device of the invention:

when the output bevel gear 59 is in the initial state, the forward bevel gear 58 is meshed with the output bevel gear 59.

When the device of the present invention starts to work, the motor 44 is started to drive the motor shaft 55 to rotate, the motor shaft 55 is matched with the shaft sleeve 57 through the spline 56 to drive the shaft sleeve 57 to rotate, the output bevel gear 59 is meshed with the forward bevel gear 58 to drive the driving small bevel gear shaft 41 to rotate, the driven small bevel gear 38 is meshed with the driving small bevel gear 39 to drive the large gear shaft 34 to rotate, the large connecting rod 35 is driven to rotate on the large gear shaft 34 in a reverse direction, the movable small gear 63 is meshed with the large gear 36 to drive the movable small gear 63 to rotate, the movable small gear 63 is meshed with the driven large gear 37 to drive the driven large gear shaft 31 to rotate, the driven small gear shaft 22 is driven to rotate through the belt 27, and the driving large bevel gear 19 and the inner core of the driven belt wheel 26 of the fixed shaft 1 drive the skateboard 15 to rotate, the sliding plate 15 is in threaded connection with the fixed rod 13, so as to drive the fixed rod 13 to move away from the material carrying plate 69 until the material carrying cavity 18 reaches a proper size, the air cylinder 51 is started, so as to drive the push rod 52 to move downwards, so as to drive the push plate 53 to move downwards, so as to drive the shaft sleeve 57 to move downwards on the 5, the output bevel gear 59 is no longer meshed with the forward bevel gear 58, the output bevel gear 59 is meshed with the reverse bevel gear 61, so as to drive the driving small bevel gear shaft 41 to rotate reversely, the driving small bevel gear 39 is meshed with the driven small bevel gear 38, so as to drive the large gear shaft 34 to rotate reversely, so as to drive the large connecting rod 35 to rotate clockwise on the large gear shaft 34, so as to drive the movable small gear 63 to mesh with the driven small gear 24, and the movable small gear 63 is meshed with the large gear 36, thereby driving the movable pinion 63 to rotate, and thus the driven pinion shaft 22 to rotate, the driving bevel gear 68 is engaged with the driving bevel gear 66, and thus the sowing shaft 17 is driven to rotate, and thus the material carrying plate 69 is driven to rotate in the sowing cavity 64, and seeds are leaked from the discharging cavity 50.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a seed quantity adjustable solar seeding equipment, includes the box, its characterized in that: a seeding box is arranged in the box body, a seeding cavity is arranged in the seeding box, a seeding shaft is rotatably arranged between the front end wall and the rear end wall of the seeding cavity, a seeding device for seeding is arranged in the seeding cavity of the seeding shaft, a wheel cavity with a downward opening is arranged in the box body, a wheel shaft is rotatably arranged between the front end wall and the rear end wall of the wheel cavity, wheels are arranged in the wheel cavity of the wheel shaft, a feeding pipe communicated with the seeding cavity is arranged on the left end wall of the box body, a feeding box for placing seeds is fixedly arranged at the left end of the feeding pipe, a control cavity is arranged in the box body, a motor is fixedly arranged at the lower side of the control cavity, the motor is in power connection with a motor shaft extending upwards into the control cavity, a spline is fixedly arranged in the control cavity, and a, the shaft sleeve is internally provided with a control device, the right side of the control cavity is provided with a bevel pinion cavity, the left end wall of the bevel pinion cavity is rotatably provided with a driving bevel pinion shaft extending leftwards into the control cavity, the driving bevel pinion shaft is firmly characterized in that a driving bevel pinion is fixedly arranged in the bevel pinion cavity, the upper side of the bevel pinion cavity is provided with a transmission cavity, the upper end wall of the bevel pinion cavity is rotatably provided with a driven bevel pinion shaft extending upwards into the transmission cavity, the driven bevel pinion shaft is internally provided with a positioning device for transmission in the transmission cavity, the upper end wall of the box body is fixedly arranged, the top end of the supporting rod is hinged with a bilaterally symmetrical connecting rod, the tail end of the connecting rod is fixedly provided with a photovoltaic panel, the lower side of the bevel pinion cavity is provided with a battery, and the battery connected with the motor is fixedly arranged, the rear side of the seeding cavity is provided with a transmission bevel gear cavity, a seeding shaft is rotatably arranged between ball end walls of the seeding cavity, the seeding shaft is in a shape of a Chinese character 'ji', a transmission device is arranged in the transmission bevel gear cavity, and the photovoltaic panel is electrically connected with the battery.

2. The solar seed sowing apparatus with adjustable seed number according to claim 1, wherein: the seeding device comprises a seeding cavity, a seeding shaft is rotatably arranged between the left end wall and the right end wall of the seeding cavity, the seeding shaft is fixedly provided with a material carrying plate in the seeding cavity, the outer surface of the material carrying plate is provided with a plurality of material carrying cavities for transporting seeds, the left side and the right side of the material carrying plate are fixedly provided with fixed pipes connected to the seeding shaft, two positioning plates for controlling the size of the material carrying cavity are arranged in a left-right sliding mode, the positioning plates are fixedly provided with six fixed shafts which are symmetrical relative to the circle center, the seeding shaft is provided with sliding plates which are symmetrical relative to the front and the back of the material carrying plate through spline fit, the front side of the seeding cavity is provided with a large bevel gear cavity, the sliding plates are fixedly provided with driven large bevel gears in the large bevel gear cavity, the tail ends of the fixed shafts are fixedly connected to fixed rods in threaded connection with the sliding plates, the upper end wall, the driving large bevel gear shaft is fixedly arranged in the large bevel gear cavity and is meshed with the driven large bevel gear, a discharge box is fixedly arranged on the lower end wall of the seeding box, and a discharge cavity communicated with the material carrying cavity is arranged in the discharge box.

3. The solar seed sowing apparatus with adjustable seed number according to claim 1, wherein: the control device comprises an air cylinder arranged in the box body, the air cylinder is in power connection with a push rod extending downwards into the control cavity, a push plate connected to the shaft sleeve in a rotating mode is fixedly arranged at the lower end of the push rod, an output bevel gear is fixedly arranged in the control cavity, a forward bevel gear meshed with the output bevel gear is fixedly arranged in the control cavity, and a reverse bevel gear meshed with the output bevel gear is fixedly arranged in the control cavity.

4. The solar seed sowing apparatus with adjustable seed number according to claim 1, wherein: the positioning device comprises a belt cavity fixedly arranged on the upper side of the transmission cavity, a driven large gear shaft which extends upwards is arranged between the upper end wall and the lower end wall of the transmission cavity in a rotating mode and is in the belt cavity, a driven large gear shaft is fixedly arranged in the transmission cavity, a lower end wall of the transmission cavity is rotatably provided with a driven small gear shaft which extends downwards in the transmission bevel gear cavity, the driven small gear shaft is fixedly arranged in the transmission cavity and is provided with a driven small gear, a large gear shaft is fixedly arranged in the transmission cavity and is provided with a large connecting rod, the tail end of the large connecting rod is fixedly provided with a movable small gear shaft, and the movable small gear shaft is rotatably arranged on the movable small.

5. The solar seed sowing apparatus with adjustable seed number according to claim 1, wherein: the transmission device comprises a seeding shaft, a transmission bevel gear cavity is fixedly provided with a transmission bevel pinion, a driven pinion shaft is fixedly provided with a transmission bevel pinion meshed with the transmission bevel pinion in the transmission bevel gear cavity, the driven pinion shaft is used for driving a belt pulley when the belt cavity is fixed, the driven pinion shaft is used for driving a belt pulley fixedly arranged in the belt cavity, and the driving belt pulley is in transmission connection with the driven belt pulley through a belt.

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