CN108307735B - Medical industry maize straw is carrier dandelion planter - Google Patents

Abstract

The invention discloses a dandelion planter with corn straw as a carrier in the medical industry, which comprises a planter body, wherein a seed inner cavity is arranged in the planter body, a wind wheel driven by a motor is arranged in the seed inner cavity, a second groove correspondingly communicated with the seed inner cavity is also arranged in the planter body, a first slide hole correspondingly communicated with the second groove is also arranged in the planter body, a sliding conveying contact pin is arranged in the first slide hole, a first conveying pipe cavity is arranged in the planter body, the conveying contact pin can slide in the first conveying pipe cavity, a water pipe contact pin sliding in the first conveying pipe cavity is also arranged in the planter body, a connecting water pipe is connected on the water pipe contact pin, the seeds can be conveyed through the conveying contact pin, and water can be conveyed through the water pipe contact pin, thereby the planting of dandelion seed has been accomplished, the amount of labour that can further alleviate.

Description

Medical industry maize straw is carrier dandelion planter

Technical Field

The invention relates to medical medicinal material dandelion planting equipment, in particular to a dandelion planter taking corn straws as carriers in the medical industry, and particularly relates to a dandelion planter taking corn straws as carriers in the medical industry and capable of planting dandelion.

Background

Along with the continuous development of medical treatment level, the continuous improvement of medical equipment is further promoted simultaneously, wherein also in the continuous innovation improvement to the planting equipment of medicine dish in present medical equipment, the dandelion is one kind of medicinal material, wherein plant still with traditional individual manual work mode to the planting of dandelion, because the dandelion seed has floating feather, so waste time and energy in the in-process of sowing, so the cost of planting the dandelion through the manual work is very high, and cause the flotation of seed very easily at the in-process of planting, thereby further cause the reduction of output.

Therefore, it is necessary to design a dandelion planter with corn stalks as carriers in the medical industry to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides a dandelion planter with corn straws as carriers in the medical industry, which has a simple structure, can insert the corn straws into the first conveying pipe cavity through the second conveying pipe cavity, can further convey dandelion seeds into the straws by using the intermittent sliding of the conveying contact pins, and can inject water into the straws through the water pipe contact pins, so that the moisture required by planting and sprouting can be ensured, the rotation of the soil taking runner arranged at the bottom of the planter body can be used for further digging pits and taking soil on the ground, so that the straws can be further buried underground, the aim of sowing the dandelion seeds by using the straws as carriers is fulfilled, the problem that manual sowing cannot be carried out is avoided, and the problem of yield reduction caused by the floating of the seeds is further avoided, the planting cost can be further reduced.

The invention is realized by the following technical scheme: a dandelion planter with corn straw as a carrier in the medical industry comprises a planter body, wherein a rotating driving rotating wheel is arranged at the bottom of the planter body, a seed inner cavity is arranged in the planter body, a motor-driven wind wheel is arranged in the seed inner cavity, a second groove correspondingly communicated with the seed inner cavity is also arranged in the planter body, a first slide hole correspondingly communicated with the second groove is also arranged in the planter body, a sliding conveying contact pin is arranged in the first slide hole, the conveying contact pin slides in the second groove, a second slide hole correspondingly communicated with the second groove is arranged in the conveying contact pin, the end part of the conveying contact pin is in a conical shape, a circle of first air pipe correspondingly communicated with the second slide hole is connected to the conveying contact pin, a circle of second air pipe correspondingly communicated with the second groove is arranged in the planter body, the first air pipe and the second air pipe are correspondingly communicated through a third air pipe. The seeds can be further enabled to be in a floating state through rotation of the wind wheel, the seeds can be further conveyed through exhaust of the first air pipe and the second air pipe, the conveying contact pins can be utilized to be inserted into the straws, and therefore the purpose of conveying the seeds into the straws can be achieved.

The machine body is internally provided with a first conveying pipe cavity, the conveying contact pin can slide in the first conveying pipe cavity, the second sliding hole is correspondingly communicated with the first conveying pipe cavity, a second conveying pipe cavity correspondingly communicated with the first conveying pipe cavity is further arranged in the machine body, and a correspondingly rotating meshing wheel is arranged in the second conveying pipe cavity. The straw can be further conveyed and fed through the rotation of the meshing wheel.

Still be provided with one in the organism and be in first delivery lumen gliding water pipe contact pin, be connected with the connection water pipe on the water pipe contact pin. Can be through in the water pipe contact pin inserts the straw, can be further carry out the water injection to the straw to can further guarantee to the required moisture of seed germination.

And a controller for controlling the third air pipe and the connecting water pipe to be communicated is also arranged in the machine body. Can control third tuber pipe and connecting water pipe through the controller to the seeding of control seed and the injection of moisture that can be further.

The machine body is also internally provided with a third conveying pipe cavity correspondingly communicated with the first conveying pipe cavity, the bottom of the machine body is provided with a rotating soil taking rotating wheel, and the soil taking rotating wheel is arranged at the front end of the third conveying pipe cavity. Can can be through the rotation of borrowing runner can carry out the digging pit borrowing on ground to can bury the straw underground, thereby reach the purpose of planting.

A first rotating shaft is arranged in the machine body and drives the soil taking rotating wheel to rotate.

Be provided with a pivoted second pivot in the organism, first pivot with be provided with a corresponding meshing first gear and a second gear of connecting in the second pivot respectively, the number of teeth of second gear does the twice of first gear number of teeth, the second pivot drives respectively the water pipe contact pin with carry the upper and lower slip of contact pin, the second pivot drives the drive runner rotates, the second pivot drives the rotation of meshing wheel. Can can drive the runner of fetching earth subaerial enough digging pit and fetching earth through the high-speed rotation of first pivot, can further drive water pipe contact pin meshing wheel, drive runner and carry the slow speed coordinated action of contact pin through the slow rotation of second pivot.

Furthermore, a first inner cavity and a second inner cavity are arranged in the machine body, the water pipe contact pin and the conveying contact pin respectively slide in the first inner cavity and the second inner cavity, two sides of the water pipe contact pin and the conveying contact pin are respectively connected with a first jacking rod sliding in the first inner cavity and the second inner cavity, the second rotating shaft is respectively connected with a cam rotating in the first inner cavity and the second inner cavity, the cam respectively jacks the first jacking rod on one side, a first spring jacking the first jacking rod is respectively arranged in the first inner cavity and the second inner cavity, and the first jacking rod on the other side is respectively connected with a second jacking rod.

The controller is provided with 2, the controller is including setting up third inner chamber in the organism, be connected with one respectively on the second roof pressure pole and be in gliding sealed axle in the third inner chamber, the one end of third inner chamber all is provided with one and advances the pipe, the other end of third inner chamber all is provided with an exit tube, advance pipe and exit tube respectively with the corresponding intercommunication of third inner chamber, advance the pipe respectively with the third tuber pipe with connect water piping connection, still be provided with a basin in the organism, be provided with the water pump in the basin, the exit tube is connected with air compressor and water pump respectively. Can be through the rotation of second pivot, the rotation of drive cam that can be further to can be further drive reciprocal discontinuous slip of first roof pressure pole, thereby can be further through the slip control of second roof pressure pole the closure of controller, thus can be further realization control the water pipe contact pin with carry the exhaust air and the drainage of contact pin, thereby realize controlling the seeding and the water injection of seed.

Furthermore, first tuber pipe with the second tuber pipe is the slope form setting respectively, just first tuber pipe with the second tuber pipe constitutes for stainless steel material respectively, first tuber pipe is provided with four and corresponds the connection respectively and be in carry on the contact pin.

Furthermore, a third groove is formed in the machine body, a sixth rotating shaft which rotates in the machine body is arranged in the third groove, the soil taking rotating wheel is arranged on the sixth rotating shaft, a rotating third rotating shaft is further arranged in the machine body, a seventh bevel gear and an eighth bevel gear which are correspondingly meshed and connected are respectively arranged at one end of the third rotating shaft and the end part of the sixth rotating shaft, a second bevel gear and a first bevel gear which are correspondingly meshed and connected are respectively arranged at the other end of the third rotating shaft and the first rotating shaft, a circle of fifth groove is formed in the soil taking rotating wheel, and the fifth groove is in an L-shaped arrangement. The rotation of the soil taking rotating wheel can be further driven through the rotation of the second rotating shaft, so that the soil can be further dug and taken on the ground, and the straw can be buried.

Furthermore, the machine body is also internally provided with four first grooves correspondingly communicated with the second conveying pipe cavities, and are respectively arranged at the upper end and the lower end of the second conveying pipe cavity, a seventh rotating shaft which rotates is respectively arranged in the first groove, the engaging wheels are respectively arranged on the seventh rotating shafts, a third gear correspondingly engaged and connected is respectively arranged between the upper seventh rotating shaft and the lower seventh rotating shaft, the upper seventh rotating shaft and the lower seventh rotating shaft are respectively, wherein the end part of one seventh rotating shaft is respectively provided with a tenth bevel gear, the second rotating shaft is respectively provided with a ninth bevel gear correspondingly engaged and connected with the tenth bevel gear, the engaging wheels are respectively and fully provided with jacking contact pins, and the end part of the machine body is also provided with a straw inlet correspondingly communicated with the second conveying pipe cavity. Can put into the straw through the straw import, can through the rotation of rolling wheel further drive the feeding of straw, thereby can with carry the contact pin with in the water pipe contact pin is respectively inserted the straw, thereby realized the seeding of seed and the injection of water.

Furthermore, a fourth groove is formed in each of two sides of the machine body, a fourth rotating shaft which rotates in the fourth groove is arranged in the machine body, two driving rotating wheels are arranged and connected to two ends of the fourth rotating shaft respectively, a fourth bevel gear is arranged on the fourth rotating shaft, a fifth rotating shaft which rotates is further arranged in the machine body, a third bevel gear which is correspondingly meshed with the fourth bevel gear is arranged at one end of the fifth rotating shaft, a fifth bevel gear is arranged at the other end of the fifth rotating shaft, and a sixth bevel gear which is correspondingly meshed with the fifth bevel gear is arranged on the second rotating shaft. Can through the rotation of second pivot, control that can be further the rotation of drive runner to the slip of control organism that can be further, thus can further guarantee to the normal seeding of seed.

Further, the top of the machine body is provided with a seed inlet groove communicated with the inner cavity of the seed correspondingly, one side of the seed inlet groove is provided with a first sliding groove arranged in the machine body, a sliding sealing cover is arranged in the first sliding groove, and the sealing cover seals the inner cavity of the seed. Can be through sealed lid can be to the seed inner chamber seals to can conveniently drop into the seed.

Furthermore, the bottom of the machine body is provided with a soil shifting plate corresponding to the third conveying pipe cavity, the soil shifting plate is arranged in a semicircular shape, and the soil shifting plate buries a pit dug by the soil taking rotating wheel. The soil shifting plate can be used for burying pits dug by the soil taking rotating wheel, so that straws can be further buried, and the whole seeding work is completed.

Compared with the prior art, the invention has the beneficial effects that: corn straws can be inserted into the first conveying pipe cavity through the second conveying pipe cavity, the intermittent sliding of the conveying contact pins can be utilized, air exhaust through the first air pipe and the second air pipe can be realized, seeds can be further conveyed, dandelion seeds can be further conveyed into the straws, water can be injected into the straws through the water pipe contact pins by the water pipe contact pins in the sliding manner, so that the moisture required by planting and sprouting can be ensured, soil can be further dug and taken from the ground by the rotation of the soil taking rotating wheel arranged at the bottom of the machine body, so that the straws can be further buried underground, the aim of sowing dandelion seeds by taking the straws as a carrier is fulfilled, the problem that manual sowing cannot be realized is solved, and meanwhile, the problem of yield reduction caused by the floating of the seeds is further avoided, the planting cost can be further reduced.

Drawings

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

Fig. 1 is a schematic view of the overall structure of a dandelion planter with corn stalks as carriers in the medical industry according to an embodiment of the invention.

FIG. 2 is a schematic view of the sliding structure of the delivery pin and the water pipe pin according to the embodiment of the present invention.

Fig. 3 is a schematic diagram of the overall structure of the controller according to the embodiment of the present invention.

Fig. 4 is a schematic view of a first rotating drive wheel according to an embodiment of the present invention.

Fig. 5 is a schematic view of an overall structure of the second rotating shaft driving the driving wheel to rotate according to the embodiment of the invention.

Fig. 6 is a schematic view of an overall structure of the drop shaft driving the meshing wheel to rotate according to the embodiment of the invention.

In the figure: 1 machine body, 2 straw inlets, 3 seed inner cavities, 4 wind wheels, 5 seed inlet grooves, 6 first sliding grooves, 7 sealing covers, 8 first conveying pipe cavities, 9 second conveying pipe cavities, 10 first grooves, 11 meshing wheels, 12 first sliding holes, 13 conveying pins, 14 second grooves, 15 second sliding holes, 16 first air pipes, 17 second air pipes, 18 third air pipes, 19 first inner cavities, 20 water pipe pins, 21 connecting water pipes, 22 water tanks, 23 water pumps, 24 third conveying pipe cavities, 25 first rotating shafts, 26 second rotating shafts, 27 first gears, 28 second gears, 29 third grooves, 30 soil taking rotating wheels, 31 third rotating shafts, 32 first bevel gears, 33 second bevel gears, 34 soil pulling plates, 35 driving rotating wheels, 36 fourth grooves, 37 fourth rotating shafts, 38 fifth rotating shafts, 39 third bevel gears, 40 fourth bevel gears, 41 fifth bevel gears, 42 sixth rotating shafts, 43 sixth rotating shafts, A fifth groove 44, a seventh bevel gear 45, an eighth bevel gear 46, a second inner cavity 47, a first press rod 48, a first spring 49, a second press rod 50, a controller 51, a cam 52, a third inner cavity 53, a seal shaft 54, a pipe 55, a pipe 56, a seventh rotating shaft 57, a third gear 58, a ninth bevel gear 59, a tenth bevel gear 60 and a press pin 61.

Detailed Description

As shown in fig. 1 to 6, a dandelion planter with corn stalks as carriers in the medical industry comprises a machine body 1, wherein a rotating driving wheel 35 is arranged at the bottom of the machine body 1, a seed inner cavity 3 is arranged in the machine body 1, a motor-driven wind wheel 4 is arranged in the seed inner cavity 3, a second groove 14 correspondingly communicated with the seed inner cavity 3 is also arranged in the machine body 1, a first slide hole 12 correspondingly communicated with the second groove 14 is also arranged in the machine body 1, a sliding conveying pin 13 is arranged in the first slide hole 12, the conveying pin 13 slides in the second groove 14, a second slide hole 15 correspondingly communicated with the second groove 14 is arranged in the conveying pin 13, the end of the conveying pin 13 is in a conical shape, a circle of first air pipe 16 correspondingly communicated with the second slide hole 15 is connected to the conveying pin 13, a circle of second air pipes 17 correspondingly communicated with the second grooves 14 are arranged in the machine body 1, and the first air pipes 16 are correspondingly communicated with the second air pipes 17 through third air pipes 18.

A rotating driving wheel 35 is arranged at the bottom of the machine body 1, so that the machine body 1 can be further driven to slide by the rotation of the driving wheel 35, a cavity, namely a seed inner cavity 3, is arranged in the machine body 1, a motor-driven wind wheel 4 is arranged in the seed inner cavity 3, dandelion seeds can be put into the seed inner cavity 3 in the planting process, wind power can be further generated by the rotation of the wind wheel 4, so that the seeds can fly in the seed inner cavity 3, a second groove 14 correspondingly communicated with the seed inner cavity 3 is also arranged in the machine body 1, a first slide hole 12 is also arranged in the machine body 1, the first slide hole 12 is correspondingly communicated with the second groove 14, a sliding conveying pin 13 is arranged in the first slide hole 12, the conveying pin 13 can slide in the second groove 14, a through hole, namely a second sliding hole 15, is arranged in the conveying pin 13, the second sliding hole 15 is correspondingly communicated with the second groove 14, a circle of first air pipes 16 are connected to the conveying pin 13, the first air pipes 16 are respectively correspondingly communicated with the second sliding holes 15, a circle of second air pipes 17 are also connected to the second groove 14, the second air pipes 17 are respectively correspondingly communicated with the second groove 14, the first air pipes 16 and the second air pipes 17 are respectively and correspondingly connected to the third air pipes 18, so that compressed air can be discharged into the first air pipes 16 and the second air pipes 17 through the third air pipes 18, seeds of dandelion can be conveyed by utilizing the action of wind force, and further conveyed into the second sliding holes 15, thereby, the seeds of dandelion can be discharged through the second slide hole 15.

A first conveying pipe cavity 8 is arranged in the machine body 1, the conveying pins 13 can slide in the first conveying pipe cavity 8, the second sliding holes 15 are correspondingly communicated with the first conveying pipe cavity 8, a second conveying pipe cavity 9 correspondingly communicated with the first conveying pipe cavity 8 is further arranged in the machine body 1, and a correspondingly rotating meshing wheel 11 is arranged in the second conveying pipe cavity 9.

Be provided with a first delivery lumen 8 in the organism 1 to can be further carry the seed of dandelion in the second slide opening 15 still be provided with a second delivery lumen 9 in the organism 1 be provided with corresponding pivoted meshing wheel 11 in the second delivery lumen 9, can insert the straw of maize in the second delivery lumen 9, thereby can utilize meshing wheel 11's meshing rotates, can be further carry maize straw, can utilize carry the slip of contact pin 13, can be further make carry contact pin 13 insert in maize straw, thereby can be further carry the seed in maize straw, thereby can utilize maize straw to plant the seed of dandelion as the carrier.

The machine body 1 is also internally provided with a water pipe insertion pin 20 which slides in the first conveying pipe cavity 8, and the water pipe insertion pin 20 is connected with a connecting water pipe 21.

Be provided with in organism 1 be in the gliding water pipe contact pin 20 of first delivery lumen 8 to can pass through the slip of water pipe contact pin 20 can be further insert in the maize straw, thereby can carry out the water injection through to maize straw, thereby can guarantee the required moisture of seed.

A controller 51 for controlling the communication between the third air pipe 18 and the connecting water pipe 21 is also arranged in the machine body 1.

A controller 51 for controlling the air discharge of the third air duct 18 can be provided in the machine body 1, so that the air discharge of the third air duct 18 can be further controlled, the air discharge of the first air duct 16 and the second air duct 17 can be further controlled, the seed discharge planting can be further controlled, the water discharge of the water pipe pins 20 can be further controlled by controlling the water pipe 21 through the controller 51, and the control of the water discharge required for planting can be realized.

A third conveying pipe cavity 24 correspondingly communicated with the first conveying pipe cavity 8 is further arranged in the machine body 1, a rotating soil taking rotating wheel 30 is arranged at the bottom of the machine body 1, and the soil taking rotating wheel 30 is arranged at the front end of the third conveying pipe cavity 24.

A third conveying pipe cavity 24 correspondingly communicated with the first conveying pipe cavity 8 is further arranged in the machine body 1, so that after the seeds are inserted into the corn straws and water is injected into the straws, the straws can be further conveyed into the third conveying pipe cavity 24 through the rotation of the meshing wheel 11, a rotating soil-taking rotating wheel 30 is arranged at the bottom of the machine body 1, so that the pits can be further dug on the ground through the rotation of the soil-taking rotating wheel 30, the corn straws can be further made to slide into the pits dug by the soil-taking rotating wheel 30, the aim of planting the dandelion seeds by using the corn straws as carriers is fulfilled, the problem that the dandelion seeds cannot be planted manually is avoided, and the problem of low yield caused by the floating of the dandelion seeds is also avoided, can further improve the yield and reduce the planting cost.

A first rotating shaft 25 is arranged in the machine body 1, and the first rotating shaft 25 drives the soil taking rotating wheel 30 to rotate.

A rotating first rotating shaft 25 is arranged in the machine body 1, and the rotation of the first rotating shaft 25 can drive the rotation of the soil taking rotating wheel 30, so that the soil can be further dug and taken on the ground.

Be provided with a pivoted second pivot 26 in the organism 1, first pivot 25 with be provided with a corresponding meshing first gear 27 and a second gear 28 of connecting on the second pivot 26 respectively, the number of teeth of second gear 28 is the twice of the number of teeth of first gear 27, second pivot 26 drives respectively water pipe contact pin 20 with carry contact pin 13's upper and lower slip, second pivot 26 drives drive runner 35 rotates, second pivot 26 drives the rotation of meshing wheel 11.

A second rotating shaft 26 is further disposed in the machine body 1, the second rotating shaft 26 can drive the water pipe insertion needle 20 and the conveying insertion needle 13 to slide, so as to control the conveying and water discharging of seeds, the second rotating shaft 26 can drive the driving rotating wheel 35 to rotate at the same time, so as to further control the sliding of the machine body 1, the second rotating shaft 26 can drive the meshing wheel 11 to rotate, so as to further control the sliding conveying of straws, a first gear 27 and a second gear 28 correspondingly meshed and connected are respectively disposed on the first rotating shaft 25 and the second rotating shaft 26, the number of teeth of the second gear 28 is twice as large as that of the first gear 27, so as to further enable the rotating speed of the second rotating shaft 26 to be slower than that of the first rotating shaft 25, so as to drive the soil-borrowing rotating wheel 30 to rotate in a state that the first rotating shaft 25 rotates at a high speed, therefore, the soil taking operation can be completed, and the meshing wheel 11, the driving rotating wheel 35, the conveying pins 13 and the water pipe pins 20 can be driven to synchronously move at a low speed through the low rotating speed of the second rotating shaft 26.

When the rotation direction between the soil sampling rotating wheel 30, the engaging wheel 11 and the driving rotating wheel 35 is in conflict, the gears which are correspondingly engaged and connected are arranged between the first rotating shaft 25 and the second rotating shaft 26, so that the normal soil sampling function of the soil sampling rotating wheel 30 can be ensured, the normal conveying function of the engaging wheel 11 on the straw is ensured, and the normal driving function of the driving rotating wheel 35 is ensured.

As shown in fig. 1, 2 and 3, a first inner cavity 19 and a second inner cavity 47 are provided in the machine body 1, the water pipe inserting needle 20 and the conveying inserting needle 13 respectively slide in the first inner cavity 19 and the second inner cavity 47, a first pressing rod 48 sliding in the first inner cavity 19 and the second inner cavity 47 is respectively connected to two sides of the water pipe inserting needle 20 and the conveying inserting needle 13, a cam 52 rotating in the first inner cavity 19 and the second inner cavity 47 is respectively connected to the second rotating shaft 26, the cam 52 respectively presses one side of the first pressing rod 48, a first spring 49 pressing the first pressing rod 48 is respectively provided in the first inner cavity 19 and the second inner cavity 47, and the first pressing rod 48 on the other side is respectively connected to a second pressing rod 50.

A first inner cavity 19 and a second inner cavity 47 are arranged in the machine body 1, the water pipe inserting needle 20 can slide in the first inner cavity 19, the delivery inserting needle 13 can slide in the second inner cavity 47, a first jacking rod 48 which slides in the first inner cavity 19 and the second inner cavity 47 is respectively arranged at two sides of the water pipe inserting needle 20 and the delivery inserting needle 13, a cam 52 which rotates in the first inner cavity 19 and the second inner cavity 47 is respectively arranged on the second rotating shaft 26, the cam 52 is respectively jacked on the first jacking rod 48 at one side, a first spring 49 which elastically pushes the first jacking rod 48 is respectively arranged in the first inner cavity 19 and the second inner cavity 47, two first springs 49 are respectively arranged and respectively jacked on the first jacking rods 48 at two sides, the first jacking rod 48 can be further jacked by the rotation of the cam 52, so that the repeated sliding of the conveying insertion needle 13 and the water pipe insertion needle 20 can be further realized by the biasing action of the first spring 49, the intermittent conveying of planting and the intermittent conveying of water can be further realized, and the second jacking rod 50 is respectively connected to the first jacking rod 48 on the other side, so that the sliding of the second jacking rod 50 can be further driven by the sliding of the first jacking rod 48.

The controller 51 includes a third inner cavity 53 disposed in the machine body 1, the second top pressure rod 50 is connected to a sealing shaft 54 sliding in the third inner cavity 53, two ends of the third inner cavity 53 respectively include an inlet pipe 55 and an outlet pipe 56 disposed in the machine body 1, the inlet pipe 55 is connected to the third air pipe 18 and the connecting water pipe 21, the machine body 1 is further provided with a water tank 22, the water tank 22 is provided with a water pump 23, and the outlet pipe 56 is connected to the air compressor and the water pump 23.

The controller 51 includes a third inner cavity 53 disposed in the machine body 1, the controller 51 further includes a sealing shaft 54 sliding in the third inner cavity 53, the second pressing rods 50 are respectively connected to the sealing shaft 54, so that the sealing shaft 54 can be further driven to slide by the sliding of the second pressing rods 50, the controller 51 further includes an inlet pipe 55 and an outlet pipe 56 correspondingly communicated with the third inner cavity 53, the inlet pipe 55 and the outlet pipe 56 are correspondingly communicated with the third air pipe 18 and the connecting water pipe 21, so that the communication between the third air pipe 18 and the connecting water pipe 21 can be further controlled by the sliding of the sealing shaft 54, and the two outlet pipes 56 are correspondingly connected with the air compressor and the water pump 23, so that the air inlet of the third air pipe 18 and the connecting water pipe 21 can be further controlled by the sliding of the sealing shaft 54 Water inlet of the water pipe 21.

As shown in fig. 1, the first air duct 16 and the second air duct 17 are respectively disposed in an inclined manner, the first air duct 16 and the second air duct 17 are respectively made of stainless steel, and the first air duct 16 is provided with four air ducts and is correspondingly connected to the conveying pins 13.

The first air pipe 16 and the second air pipe 17 are respectively arranged in an inclined state, so that the dandelion can be further driven to float through the air exhaust of the first air pipe 16 and the second air pipe 17, the purpose of conveying the seeds is achieved, the first air pipe 16 and the second air pipe 17 are respectively made of stainless steel, the air exhaust direction can be further ensured, and the first air pipe 16 is provided with four air pipes which are respectively connected onto the conveying pins 13.

As shown in fig. 1 and 4, a third groove 29 is formed in the machine body 1, a sixth rotating shaft 43 which rotates in the machine body 1 is formed in the third groove 29, the soil sampling rotating wheel 30 is arranged on the sixth rotating shaft 43, a third rotating shaft 31 which rotates is further arranged in the machine body 1, a seventh bevel gear 45 and an eighth bevel gear 46 which are correspondingly engaged and connected are respectively arranged at one end of the third rotating shaft 31 and the end of the sixth rotating shaft 43, a second bevel gear 33 and a first bevel gear 32 which are correspondingly engaged and connected are respectively arranged at the other end of the third rotating shaft 31 and the first rotating shaft 25, a circle of fifth groove 44 is formed in the soil sampling rotating wheel 30, and the fifth groove 44 is in an L shape.

A third groove 29 is arranged in the machine body 1, a rotary sixth rotating shaft 43 is arranged in the third groove 29, the sixth rotating shaft 43 rotates in a rotating hole arranged in the machine body 1, a third rotating shaft 31 is further provided in the machine body 1, so that it can be engaged with the seventh bevel gear 45 and the eighth bevel gear 46, by means of the corresponding meshed connection of the first bevel gear 32 and the second bevel gear 33, so that the rotation of the soil-taking runner 30 can be further driven by the rotation of the first rotating shaft 25, thereby further carrying out the soil taking and pit digging operation on the ground, burying the straws, the earth taking rotating wheel 30 is provided with a circle of fifth grooves 44, and the fifth grooves 44 are respectively arranged in an L shape, so that normal pit digging and earth taking operation can be further ensured.

As shown in fig. 1 and 6, the machine body 1 is further provided with four first grooves 10 correspondingly communicated with the second conveying pipe cavity 9, the first grooves 10 are respectively arranged at the upper end and the lower end of the second conveying pipe cavity 9, a rotating seventh rotating shaft 57 is respectively arranged in each first groove 10, the engaging wheels 11 are respectively arranged on the seventh rotating shafts 57, a third gear 58 correspondingly engaged and connected is respectively arranged between the upper seventh rotating shaft 57 and the lower seventh rotating shaft 57, a tenth bevel gear 60 is respectively arranged at the end of one of the seventh rotating shafts 57 in the upper seventh rotating shaft 57 and the lower seventh rotating shaft 57, a ninth bevel gear 59 correspondingly engaged and connected with the tenth bevel gear 60 is respectively arranged on the second rotating shaft 26, the engaging wheels 11 are respectively full of jacking pins 61, and a straw inlet 2 correspondingly communicated with the second conveying pipe cavity 9 is further arranged at the end of the machine body 1.

The machine body 1 is further provided with first grooves 10 correspondingly communicated with the second conveying pipe cavity 9, the number of the first grooves 10 is four, the first grooves are respectively arranged on the upper end face and the lower end face of the second conveying pipe cavity 9, the upper end face and the lower end face are respectively provided with two grooves, a seventh rotating shaft 57 rotating in the machine body 1 is respectively arranged in each first groove 10, the meshing wheels 11 are respectively arranged on the seventh rotating shafts 57, the seventh rotating shafts 57 arranged at the upper end and the lower end are respectively provided with third gears 58 correspondingly meshed and connected, so that the meshing wheels 11 can be further pressed and rotated correspondingly through the corresponding meshing connection of the third gears 58, and a tenth bevel gear 60 is respectively arranged at the end part of one seventh rotating shaft 57 on the seventh rotating shafts 57 arranged at the upper end and the lower end of two rows, the second rotating shaft 26 is respectively provided with a ninth bevel gear 59 which is correspondingly engaged with the tenth bevel gear 60, so that the second rotating shaft 26 can further drive the meshing wheel 11 to rotate, the meshing wheel 11 is respectively covered with jacking pins, the meshing wheel 11 can further drive the jacking pins 61 to rotate through the rotation of the meshing wheel 11, the straw can be inserted and conveyed, the straw conveying purpose is achieved, the problem that the straw cannot be normally conveyed due to flattening caused by the compression conveying of the meshing wheel 11 is solved, and the straw can be conveyed into the second conveying pipe cavity 9 through the straw inlet 2.

As shown in fig. 1 and 5, two fourth grooves 36 are respectively disposed on two sides of the machine body 1, a fourth rotating shaft 37 which rotates in the fourth grooves 36 is disposed in the machine body 1, two driving rotating wheels 35 are disposed and are respectively connected to two ends of the fourth rotating shaft 37, a fourth bevel gear 40 is disposed on the fourth rotating shaft 37, a fifth rotating shaft 38 which rotates is further disposed in the machine body 1, a third bevel gear 39 which is correspondingly engaged with the fourth bevel gear 40 is disposed at one end of the fifth rotating shaft 38, a fifth bevel gear 41 is disposed at the other end of the fifth rotating shaft 38, and a sixth bevel gear 42 which is correspondingly engaged with the fifth bevel gear 41 is disposed on the second rotating shaft 26.

Two fourth grooves 36 are respectively formed in two sides of the machine body 1, a fourth rotating shaft 37 which rotates in the fourth grooves 36 is arranged in the machine body 1, two driving rotating wheels 35 are arranged and are respectively and correspondingly connected to two ends of the fourth rotating shaft 37, a fourth bevel gear 40 is arranged on the fourth rotating shaft 37, a rotating fifth rotating shaft 38 is further arranged in the machine body 1, the fourth rotating shaft 40 and the third bevel gear 39 can be correspondingly meshed and connected, and the fifth bevel gear 41 and the sixth bevel gear 42 can be correspondingly meshed and connected, so that the driving rotating wheels 35 can be further driven to rotate by the rotation of the second rotating shaft 26, and the machine body 1 can be further driven to slide and advance.

As shown in fig. 1, a seed inlet groove 5 correspondingly communicated with the seed inner cavity 3 is formed in the top of the machine body 1, a first sliding groove 6 arranged in the machine body 1 is formed in one side of the seed inlet groove 5, a sliding sealing cover 7 is arranged in the first sliding groove 6, and the sealing cover 7 seals the seed inner cavity 3.

The top of the machine body 1 is provided with a seed inlet groove 5, the seed inlet groove 5 is communicated with the seed inner cavity 3 correspondingly, one side of the seed inlet groove 5 is provided with a first sliding groove 6, the first sliding groove 6 is arranged in the machine body 1, a sliding sealing cover 7 is arranged in the first sliding groove 6, so that the seed inner cavity 3 can be sealed through the sealing cover 7, the opening and closing of the seed inner cavity 3 can be controlled through the sliding of the sealing cover 7, and the seed can be put in.

As shown in fig. 1, a soil shifting plate 34 corresponding to the third conveying pipe cavity 24 is disposed at the bottom of the machine body 1, the soil shifting plate 34 is disposed in a semicircular shape, and the soil shifting plate 34 buries a pit dug by the soil taking runner 30.

The bottom of organism 1 is provided with one and dials native board 34, dial native board 34 and set up the rear end of third delivery lumen 24 to can pass through after taking native runner 30 to dig the hole and get earth, can make the straw fall into in the hole that the runner 30 that fetches earth dug, thereby can pass through dial the slip of native board 34, can further dial earth, thereby can bury the straw, thereby accomplished and used the straw to plant the purpose as the carrier to the dandelion seed.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (8)

1. The utility model provides a medical industry maize straw is carrier dandelion planter, including an organism, the bottom of organism is provided with pivoted drive runner, its characterized in that: a seed inner cavity is arranged in the machine body, a wind wheel driven by a motor is arranged in the seed inner cavity, a second groove correspondingly communicated with the inner cavity of the seed is also arranged in the machine body, a first sliding hole correspondingly communicated with the second groove is also arranged in the machine body, a sliding conveying contact pin is arranged in the first sliding hole and slides in the second groove, a second sliding hole correspondingly communicated with the second groove is arranged in the conveying contact pin, the end part of the conveying contact pin is arranged in a conical shape, a circle of first air pipes correspondingly communicated with the second sliding holes are connected to the conveying contact pins, a circle of second air pipes correspondingly communicated with the second grooves are arranged in the machine body, and the first air pipes are correspondingly communicated with the second air pipes through a third air pipe;

a first conveying pipe cavity is formed in the machine body, the conveying contact pin can slide in the first conveying pipe cavity, the second sliding hole is correspondingly communicated with the first conveying pipe cavity, a second conveying pipe cavity correspondingly communicated with the first conveying pipe cavity is further formed in the machine body, and a meshing wheel which rotates correspondingly is arranged in the second conveying pipe cavity;

a water pipe contact pin which slides in the first conveying pipe cavity is further arranged in the machine body, and a connecting water pipe is connected to the water pipe contact pin;

a controller for controlling the communication between the third air pipe and the connecting water pipe is also arranged in the machine body;

a third conveying pipe cavity correspondingly communicated with the first conveying pipe cavity is further arranged in the machine body, a rotating soil taking rotating wheel is arranged at the bottom of the machine body, and the soil taking rotating wheel is arranged at the front end of the third conveying pipe cavity;

a rotating first rotating shaft is arranged in the machine body, and the first rotating shaft drives the soil taking rotating wheel to rotate;

be provided with a pivoted second pivot in the organism, first pivot with be provided with a corresponding meshing first gear and a second gear of connecting in the second pivot respectively, the number of teeth of second gear does the twice of first gear number of teeth, the second pivot drives respectively the water pipe contact pin with carry the upper and lower slip of contact pin, the second pivot drives the drive runner rotates, the second pivot drives the rotation of meshing wheel.

2. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: a first inner cavity and a second inner cavity are arranged in the machine body, the water pipe contact pin and the conveying contact pin respectively slide in the first inner cavity and the second inner cavity, two sides of the water pipe contact pin and the conveying contact pin are respectively connected with a first jacking rod sliding in the first inner cavity and the second inner cavity, the second rotating shaft is respectively connected with a cam rotating in the first inner cavity and the second inner cavity, the cam respectively jacks the first jacking rod on one side, a first spring jacking the first jacking rod is respectively arranged in the first inner cavity and the second inner cavity, and the first jacking rod on the other side is respectively connected with a second jacking rod;

the controller is provided with 2, the controller is including setting up third inner chamber in the organism, be connected with one respectively on the second roof pressure pole and be in gliding sealed axle in the third inner chamber, the one end of third inner chamber all is provided with one and advances the pipe, the other end of third inner chamber all is provided with an exit tube, advance pipe and exit tube respectively with the corresponding intercommunication of third inner chamber, advance the pipe respectively with the third tuber pipe with connect water piping connection, still be provided with a basin in the organism, be provided with the water pump in the basin, the exit tube is connected with air compressor and water pump respectively.

3. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: the first air pipe and the second air pipe are respectively arranged in an inclined manner, the first air pipe and the second air pipe are respectively made of stainless steel, and the first air pipe is provided with four parts which are respectively correspondingly connected to the conveying pins.

4. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: the soil sampling machine is characterized in that a third groove is formed in the machine body, a sixth rotating shaft rotating in the machine body is arranged in the third groove, the soil sampling rotating wheel is arranged on the sixth rotating shaft, a rotating third rotating shaft is further arranged in the machine body, a seventh bevel gear and an eighth bevel gear which are correspondingly meshed and connected are respectively arranged at one end of the third rotating shaft and the end part of the sixth rotating shaft, a second bevel gear and a first bevel gear which are correspondingly meshed and connected are respectively arranged at the other end of the third rotating shaft and the first rotating shaft, a circle of fifth groove is formed in the soil sampling rotating wheel, and the fifth groove is in an L-shaped arrangement.

5. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: the machine body is also internally provided with four first grooves correspondingly communicated with the second conveying pipe cavities, and are respectively arranged at the upper end and the lower end of the second conveying pipe cavity, a seventh rotating shaft which rotates is respectively arranged in the first groove, the engaging wheels are respectively arranged on the seventh rotating shafts, a third gear correspondingly engaged and connected is respectively arranged between the upper seventh rotating shaft and the lower seventh rotating shaft, the upper seventh rotating shaft and the lower seventh rotating shaft are respectively, wherein the end part of one seventh rotating shaft is respectively provided with a tenth bevel gear, the second rotating shaft is respectively provided with a ninth bevel gear correspondingly engaged and connected with the tenth bevel gear, the engaging wheels are respectively and fully provided with jacking contact pins, and the end part of the machine body is also provided with a straw inlet correspondingly communicated with the second conveying pipe cavity.

6. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: the novel multifunctional engine is characterized in that fourth grooves are formed in two sides of the engine body respectively, fourth rotating shafts rotating in the fourth grooves are arranged in the engine body, two driving rotating wheels are arranged and connected to two ends of each fourth rotating shaft respectively, a fourth bevel gear is arranged on each fourth rotating shaft, a fifth rotating shaft rotating in the engine body is further arranged, a third bevel gear correspondingly meshed and connected with the fourth bevel gear is arranged at one end of the fifth rotating shaft, a fifth bevel gear is arranged at the other end of the fifth rotating shaft, and a sixth bevel gear correspondingly meshed and connected with the fifth bevel gear is arranged on the second rotating shaft.

7. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: the top of the machine body is provided with a seed inlet groove communicated with the inner cavity of the seed correspondingly, one side of the seed inlet groove is provided with a first sliding groove arranged in the machine body, a sliding sealing cover is arranged in the first sliding groove, and the sealing cover seals the inner cavity of the seed.

8. The medical industry corn stalk is carrier dandelion planter according to claim 1, characterized in that: the bottom of the machine body is provided with a soil shifting plate corresponding to the third conveying pipe cavity, the soil shifting plate is arranged in a semicircular shape, and the soil shifting plate buries a pit dug by the soil taking rotating wheel.

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