CN108156870A - A kind of farm land fertilising soil package fertilizer spreader - Google Patents

Abstract

The invention discloses a kind of farm land fertilising soil package fertilizer spreaders,Include a body,The bottom of the body is provided with one first kerve and one second kerve,The conveying runner and the runner that fetches earth of a rotation are respectively arranged in first kerve and second kerve,A circle soil fetching disk is provided on the runner that fetches earth,The first inner chamber of four connections corresponding with first kerve of setting in the body,The first chain of a rotation is respectively arranged in the first inner chamber,Circle conveying briquetting is respectively arranged on first chain,The 4th groove of a trapezoidal setting is respectively arranged on the conveying briquetting,Soil is transported in the 4th groove by the rotation of the conveying shaft,Can further can dig pit fetch earth on the ground by the rotation of the runner that fetches earth,Soil can be compressed by the action of the extrusion head,So as to which chemical fertilizer be made to be pressed in clod,The further loss for reducing fertilizer efficiency.

Description

A kind of farm land fertilising soil package fertilizer spreader

Technical field

The present invention relates to a kind of agricultural fertilizer seed broadcasters, and in particular to a kind of farm land fertilising soil package fertilizer spreader, More particularly to a kind of farm land fertilising soil broadcasted sowing later in soil that can be wrapped in fertilizer wraps up fertilizer spreader.

Background technology

Also constantly bringing forth new ideas for agricultural machinery modernization is further promoted while continuous improvement with living standard, wherein During manure spreader more and more appears in agricultural production in present agricultural machinery, the fertilizer of mechanization can be utilized to spread Broadcasting equipment can further lighten one's labor, and improve labor efficiency, although carrying out broadcasting sowing for fertilizer using machinery can improve Fertilizer broadcasts sowing effect, but there is problems：

Due to being broadcasted sowing by machinery during fertilizer broadcasts sowing, one of which machinery is that fertilizer is sown in native the earth's surface, Since fertilizer being broadcasted sowing on the ground, efficiency is broadcasted sowing although can improve, with exposing to the weather so fertilizer efficiency can cause one Fixed scatters and disappears, so as to further result in the reduction of fertilizer efficiency.

Machinery is by under fertilizer burial ground, although fertilizer, which is imbedded in after underground, can further reduce fertilizer in second Effect is scattered and disappeared, but since the depth under burial ground is shallower, so the retention time of fertilizer efficiency can't be very long, so as to just further The utility value for leading to fertilizer reduce.

It is therefore necessary to design a kind of farm land fertilising soil package fertilizer spreader, to solve above-mentioned technical problem.

Invention content

The object of the present invention is to overcome the problems of the prior art, provides a kind of farm land fertilising soil package fertilizer Material machine can further can dig pit fetch earth on the ground by the rotation of the runner that fetches earth, can be by described The rotation of conveying shaft further can further convey soil, in the body there are four settings in first Chamber is provided with the first chain of rotation in institute's first inner chamber, and one circle of setting conveys briquetting on first chain, in the delivery pressure 4th groove is set on block, it, can so as to make the conveying shaft that soil is further transported in the 4th groove Fertilizer is broadcasted sowing in the 4th groove by the fertilizer delivery pipe, it can be further to mud by the extrusion head Soil is squeezed, and so as to which fertilizer is pressed in clod, so as to which soil is made to form bulk, can pass through the conveying The rotation of runner can further convey block-like soil, so as to which clod is transported to the hole that the soil fetching disk dug It is interior, so as to be buried to clod, it can further mitigate the emission efficiency of fertilizer, so as to improve the exploitation value of fertilizer Value.

The invention is realized by the following technical scheme：

A kind of farm land fertilising soil package fertilizer spreader, includes a body, the bottom of the body is provided with one first bottom Slot and one second kerve, first kerve are respectively arranged with four with second kerve and set in a row, first bottom The conveying runner and the runner that fetches earth of a rotation are respectively arranged in slot and second kerve, is set on the runner that fetches earth It is equipped with a circle soil fetching disk, the soil fetching disk semicircular in shape setting.It can be further by the rotation of the runner that fetches earth The rotation of the soil fetching disk is driven, so as to can further dig pit on the ground by the rotation of the soil fetching disk It fetches earth.

Conveying shaft there are four rotation corresponding with the runner that fetches earth is set in the body, it is described to convey in shaft The helical disk set in the shape of a spiral is provided with, the rotation of the conveying shaft conveys the soil that the soil fetching disk is taken.It can pass through The soil that the rotation of the conveying shaft can further dig the soil fetching disk conveys.

The first inner chamber of four connections corresponding with first kerve of setting in the body, interior point of the first inner chamber It is not provided with the first chain of a rotation, circle conveying briquetting is respectively arranged on first chain, it is described to convey on briquetting The 4th groove of a trapezoidal setting is respectively arranged with, soil is transported in the 4th groove by the rotation of the conveying shaft. The slip of the conveying briquetting can be further driven by the rotation of first chain, the conveying shaft can Further soil is transported in the 4th groove set by the conveying briquetting.

Setting is there are four fertilizer tube on the body, be respectively arranged in the body one it is corresponding with the fertilizer tube The fertilizer delivery pipe of connection, is respectively arranged with a sub-butt ends in the fertilizer delivery pipe, in the sub-butt ends there are one settings The sub-material runner that the fertilizer delivery pipe is controlled to be closed, the slip of the conveying briquetting control the rotation of the sub-material runner, institute It is corresponding with the 4th groove to state sub-butt ends.It can be by the fertilizer delivery pipe further by the fertilizer in the fertilizer tube Material is transported in the 4th groove, so as to which fertilizer is made to be mixed with soil.

It is respectively arranged with the 17th shaft for being interrupted slip in the first inner chamber in the body, the described 17th An extrusion head is connected separately in shaft, the extrusion head slides in the 4th groove, and the extrusion head squeezes described the Soil in four grooves.Can be slided by the interruption of the extrusion head can be further to chemical fertilizer and mud in the 4th groove Soil is continuously squeezed, so as to make soil that it is naked to avoid fertilizer after fertilizer can be pressed in soil in bulk Chemical fertilizer caused by leakage scatters and disappears, so as to further improve fertilizer efficiency.

A circle and corresponding first groove of the soil fetching disk, the conveying briquetting and institute are provided on the conveying runner State that the first groove is corresponding, the soil in the 4th groove is dropped into first groove.The conveying runner can be passed through Rotation can further drive the rotation of first groove, carried out so as to will further be pressed into block-like soil Conveying, so as to be transported in the hole that the soil fetching disk dug.

The both sides of first groove are respectively arranged with a pressure ram swung on the conveying runner, the extruding Group native disk of a corresponding setting is respectively arranged on bar, the both sides of first kerve are respectively arranged with described in an extruding The top pressure sliding plate of pressure ram.It can be slided, can further driven described on the top pressure sliding plate by the pressure ram Pressure ram slides, and so as to which the soil disk of dialling is driven to act, buries clod so as to dial soil on the ground.

It is also set up in the body there are four the first rotating shaft rotated, the rotation of the first rotating shaft drives described take respectively Native runner and the conveying runner rotate synchronously, and first rotating shaft rotation drives the conveying shaft to rotate respectively, and described the One shaft drives the extrusion head to act respectively, and the 7th shaft of a rotation, the 7th shaft are additionally provided in the body Drive four first rotating shaft rotations.

Further, one is respectively arranged in first kerve and second kerve to rotate in the body Corresponding first chain is respectively arranged in eighth-turn axis and one the 9th shaft, the eighth-turn axis and the 9th shaft Wheel, two first sprocket wheels are respectively arranged with one respectively by a corresponding connection of the second chain in the 9th shaft A tenth bevel gear, is respectively arranged with one and corresponding 6th shaft of the 9th shaft in the body, and the described 6th One end of shaft be respectively arranged with one it is corresponding with the tenth bevel gear engagement connection the 11st bevel gear, described first The 4th bevel gear and one the 7th bevel gear of shaft engagement connection corresponding with being respectively arranged with one in the 6th shaft.

A circle connecting rod is respectively arranged on the runner that fetches earth, the soil fetching disk is connected in the connecting rod, The quantity of the soil fetching disk setting is identical with the quantity of first groove.The corresponding company of second chain can be passed through It connects, so as to further make the runner rotation synchronous with the conveying runner of fetching earth, so as to make to dig pit and cover Bury the completion of clod synchronization.

Further, in the body setting there are four second inner chamber, be respectively arranged with respectively in the body one with First delivery pipe of the corresponding connection in second inner chamber bottom is connected separately with one and described first in second kerve Delivery pipe is corresponding to connect disk, and the soil fetching disk is corresponding with the disk that connects respectively, and one is respectively arranged in the second inner chamber A the 5th shaft rotated in the body, the conveying shaft are connected in the 5th shaft, described first turn The third hand tap gear of axis engagement connection corresponding with being respectively arranged with one in the 5th shaft and one the 8th bevel gear, the machine Be respectively arranged with second delivery pipe with the second inner chamber corresponding connection in top in vivo, second delivery pipe respectively with The conveying briquetting is corresponding, and the discharging of a connection corresponding with the first inner chamber is also respectively provided in the body Mouthful, discharge port connection corresponding with first kerve respectively.After by the soil fetching disk can dig pit and fetching earth, Soil can be caught by the disk that connects, it is defeated so as to be carried out with the rotation by the conveying shaft to soil It send, a discharge port can be set in the body, so as to which extra soil is discharged by the discharge port, so as to It can further prevent soil from being blocked caused by body.

Further, second shaft rotated in the body and one are respectively arranged in the first inner chamber Three shafts, second shaft and the second sprocket wheel that two corresponding settings are respectively arranged in the third shaft, described Intracavitary sets two first chains respectively in one, and first chain is separately positioned on second sprocket wheel, described defeated Briquetting is sent to be provided with a circle and is connected respectively between two first chains, is respectively arranged in second shaft One the 12nd bevel gear is respectively arranged with the 4th shaft of a rotation corresponding with second shaft, institute in the body The one end for stating the 4th shaft is respectively arranged with the tenth third hand tap gear of an engagement connection corresponding with the 12nd bevel gear, The other end of 4th shaft it is corresponding with being respectively arranged with one in the first rotating shaft engagement connection the 9th bevel gear and One first bevel gear.

The top pressure supporting block being connected to there are one settings between second shaft and the third shaft on the body, The conveying briquetting slides in the top pressure supporting block respectively.Can by the top pressure supporting block to it is described conveying briquetting into Row support, so as to ensure to carry out normal compression action to clod to the extrusion head.

A guide cylinder being connected on the body, one end point of the guide cylinder are respectively arranged in the first inner chamber Not corresponding with the conveying briquetting, the other end of the guide cylinder is corresponding with first groove respectively.Institute can be passed through Stating guide cylinder can further be directed to clod in first groove, so as to normally be conveyed to clod.

Further, the conveyor chamber of a connection corresponding with the fertilizer tube is respectively arranged in the fertilizer delivery pipe, The third inner cavity of a connection corresponding with the conveyor chamber is respectively arranged in the sub-butt ends, intracavitary is set respectively in the third It puts there are one the 11st shaft that is rotated in the sub-butt ends, the concave setting of a circle is respectively arranged on the sub-material runner Material-dividing groove, the end of the 11st shaft is connected separately with first runner, a circle is provided on first runner Third groove, the third groove semicircular in shape setting, the conveying briquetting side is connected separately with a flip stand, described Flip stand clamping corresponding with the third groove, the slip of the flip stand drive the rotation of first runner.Energy The slip of the flip stand enough can be further driven by the slip of the conveying briquetting, so as to pass through described group Dynamic stent can be further connected in the third groove, so as to further drive turning for first runner It is dynamic, it, can be further to fertilizer by the rotation of the sub-material runner so as to drive the rotation of the sub-material runner Expect the control circulated, so as to which fertilizer is made automatically to drop on soil, then carry out compression operation.

Further, setting there are four the 4th inner cavity, also sets up that there are four the rotated in the body in the body 13 shafts, one end of the 13rd shaft is connected separately with a rotary flywheel that intracavitary rotates in the described 4th, described The outer rim of rotary flywheel is respectively arranged with 1 the 14th shaft, and the 15th of a rotation is respectively arranged in the 14th shaft Shaft, the end of the 15th shaft are connected separately with 1 the 16th shaft, and the 17th shaft is respectively the described tenth It is rotated in six shafts, is respectively arranged with the support sliding slot of a connection corresponding with the 4th inner cavity in the body, described 17 shafts are slided in the support sliding slot respectively, are also set up in the body there are one corresponding with the 13rd shaft Be respectively arranged in the 12nd shaft vertically rotated, one end of the 12nd shaft and the 13rd shaft one it is opposite In the 14th bevel gear and 1 the 15th bevel gear of engagement connection, the other end and the first rotating shaft of the 12nd shaft On be respectively arranged with one it is corresponding engagement connection the 16th bevel gear and a second bevel gear.The described 17th can be passed through The continuous slip of shaft, so as to further drive the continuously slipping of the extrusion head, so as to further profit Soil is compressed with the extrusion head, so as to be in bulk by soil compression.

Further, the conveying runner both sides are respectively arranged with a circle and first groove corresponding second is recessed Slot, second groove are separately positioned on the both sides of first groove, and being respectively arranged with one in first groove is connected to The tenth shaft on the conveying runner, the pressure ram rotate in the tenth shaft respectively, divide in second groove It is not provided with first spring for suppressing the pressure ram, a pressure end, the jacking sliding are connected separately on the pressure ram Disk is separately positioned on the both sides of the conveying runner, and semicircular in shape setting respectively, and the pressure end is respectively in the jacking sliding It is slided on disk.It can be slided on the top pressure sliding plate by the pressure ram, so as to further drive the extruding Bar is swung, can be on the ground to soil fetching disk using the action of described group of native disk so as to drive the action for dialling native disk The hole dug is banketed, so as to which soil is buried in underground.

Further, one the 5th bevel gear is respectively arranged in the first rotating shaft, is set respectively in the 7th shaft There is the 6th bevel gear of an engagement connection corresponding with the 5th bevel gear.

Compared with prior art, the beneficial effects of the invention are as follows：The conveying that rotation is provided in the bottom of the body turns It takes turns and fetches earth runner, the rotation of the soil fetching disk can be further driven by the rotation of the runner that fetches earth, so as to Operation of fetching earth of digging pit can be carried out on the ground, further soil can be carried out by the rotation of the conveying shaft Conveying, a first inner chamber is provided in the body, the first chain of a rotation is provided in the first inner chamber, in institute It states and circle conveying briquetting is provided on the first chain, so as to can further be driven by the rotation of first chain The slip of the conveying briquetting is respectively arranged with the 4th groove on the conveying briquetting, can be turned by the conveying Soil can be further transported in the 4th groove by the rotation of axis, the fertilizer tube there are four settings on the body, A fertilizer delivery pipe is connected separately on the fertilizer tube, can be transported to fertilizer by the fertilizer delivery pipe described In 4th groove, so as to be mixed fertilizer and soil, there are one sub-materials for setting in the fertilizer delivery pipe Head, can be by the flowing of the rotation control fertilizer of sub-material runner, can be further by the slip of the extrusion head Extruding compression is carried out to soil, so as to which soil is made fertilizer can be pressed in clod, so as to further in bulk Reduction fertilizer scatter and disappear, the lasting of fertilizer can be kept, can by it is described conveying runner rotation can be further right Clod is conveyed, and the slip for dialling native disk can be further driven by the action of the pressure ram, so as to dial Dynamic soil buries clod.

Description of the drawings

The present invention will be further described below in conjunction with the accompanying drawings.

Fig. 1 wraps up fertilizer spreader overall structure diagram for farm land of embodiment of the present invention fertilising soil.

Fig. 2 wraps up fertilizer spreader overall structure side view for farm land of embodiment of the present invention fertilising soil.

Fig. 3 conveys runner and the runner overall structure vertical view that fetches earth for the embodiment of the present invention.

Fig. 4 conveys runner overall structure side view for the embodiment of the present invention.

Fig. 5 conveys runner partial structurtes side view for the embodiment of the present invention.

Fig. 6 fetches earth runner overall structure diagram for the embodiment of the present invention.

Fig. 7 drives extrusion head to slide overall structure side view for first rotating shaft of the embodiment of the present invention.

Fig. 8 is sub-butt ends overall structure diagram of the embodiment of the present invention.

Fig. 9 is the first runner overall structure side view of the embodiment of the present invention.

Figure 10 conveys briquetting unitary side view for the embodiment of the present invention.

In figure：1 body, 2 first kerves, 3 second kerves, 4 first inner chambers, 5 conveying runners, 6 fetch earth runner, in 7 second Chamber, 8 first delivery pipes, 9 connect disk, 10 conveying shafts, 11 first rotating shafts, 12 second shafts, 13 third shafts, 14 first chains, 15 conveying briquettings, 16 top pressure supporting blocks, 17 the 4th shafts, 18 the 5th shafts, 19 the 6th shafts, 20 the 7th shafts, 21 first cones Gear, 22 second bevel gears, 23 third hand tap gears, 24 the 4th bevel gears, 25 the 5th bevel gears, 26 the 6th bevel gears, 27 the 7th Bevel gear, 28 the 8th bevel gears, 29 the 9th bevel gears, 30 extrusion heads, 31 fertilizer tubes, 32 fertilizer delivery pipes, 33 second delivery pipes, 34 top pressure sliding plates, 35 eighth-turn axis, 36 the 9th shafts, 37 first grooves, 38 connecting rods, 39 soil fetching disks, 40 second grooves, 41 Tenth shaft, 42 pressure rams, 43 groups of native disks, 44 first springs, 45 pressure ends, 46 first sprocket wheels, 47 second chains, 48 the tenth cones Gear, 49 the 11st bevel gears, 50 conveyor chambers, 51 sub-butt ends, 52 third inner cavities, 53 the 11st shafts, 54 first runners, 55 points Expect runner, 56 material-dividing grooves, 57 third grooves, 58 the 12nd bevel gears, 59 the tenth third hand tap gears, 60 second sprocket wheels, 61 the 4th recessed Slot, 62 flip stands, 63 the 12nd shafts, 64 the 13rd shafts, 65 the 14th bevel gears, 66 the 15th bevel gears, 67 rotations Flywheel, 68 the 14th shafts, 69 the 15th shafts, 70 the 16th shafts, 71 the 17th shafts, 72 guide cylinders, 73 discharge ports, 74 4th inner cavity, 75 support sliding slots, 76 the 16th bevel gears.

Specific embodiment

As shown in Figures 1 to 10, a kind of farm land fertilising soil package fertilizer spreader, includes a body 1, the body 1 bottom is provided with one first kerve 2 and one second kerve 3, and first kerve 2 is respectively arranged with second kerve 3 Four and set in a row, be respectively arranged in first kerve 2 and second kerve 3 rotation conveying runner 5 and One runner 6 that fetches earth is provided with a circle soil fetching disk 39,39 semicircular in shape of the soil fetching disk setting on the runner 6 that fetches earth.

The first kerve 2 and the second kerve 3, first kerve 2 and second bottom are provided in the bottom of the body 1 Slot 3 is respectively arranged with four, and first kerve 2 and second kerve 3 are respectively in simultaneously row pattern setting, first bottom Slot 2 and second kerve 3 distinguish rounded setting, and one is respectively arranged in first kerve 2 and second kerve 3 The conveying runner 5 and one of rotation fetches earth runner 6, and a circle soil fetching disk 39, the soil fetching disk 39 are provided on the runner 6 that fetches earth Semicircular in shape is set, so as to can further drive turning for the soil fetching disk 39 by the rotation of the runner that fetches earth It is dynamic, so as to can further dig pit on soil by the rotation of the soil fetching disk 39, thus allow for fertilizer That expects is pre-buried.

There are four the conveying shaft 10 with the 6 corresponding rotation of runner of fetching earth, the conveyings turn for setting in the body 1 The helical disk set in the shape of a spiral is provided on axis 10, the rotation of the conveying shaft 10 conveys what the soil fetching disk 39 was taken Soil.

Setting is there are four the conveying shaft 10 rotated in the body 1, is respectively arranged in the conveying shaft 10 and is in Helical form setting helical disk, so as to by it is described conveying shaft 10 rotation can respectively on the soil fetching disk 39 The soil taken is further conveyed, and thus allows for further handling.

Four and the first inner chamber 4 of the 2 corresponding connection of the first kerve, the first inner chamber 4 are set in the body 1 The first chain 14 of a rotation is inside respectively arranged with, circle conveying briquetting 15 is respectively arranged on first chain 14, it is described The 4th groove 61 of a trapezoidal setting is respectively arranged on conveying briquetting 15, soil is transported to by the rotation of the conveying shaft 10 In 4th groove 61.

First inner chamber 4 there are four settings, the first inner chamber 4 are opposite with first kerve 2 respectively in the body 1 It should connect, the first chain 14 of a rotation is respectively arranged in the first inner chamber 4, is set respectively on first chain 14 Circle conveying briquetting 15 is equipped with, the 4th groove 61 of a trapezoidal setting, energy are respectively arranged on the conveying briquetting 15 Enough further soil is transported in the first inner chamber 4 by the conveying shaft 10, so as to which soil is made automatically to fall into Into the 4th groove 61, the rotation of first chain 14 further drives the rotation of the conveying briquetting 15, can Soil can further be made continuously to drop into the 4th groove 61 by the rotation of first chain 14.

Setting is respectively arranged with one and the fertilizer tube 31 there are four fertilizer tube 31 in the body 1 on the body 1 The fertilizer delivery pipe 32 of corresponding connection is respectively arranged with a sub-butt ends 51, the sub-butt ends in the fertilizer delivery pipe 32 There are one the sub-material runner 55 that the fertilizer delivery pipe 32 is controlled to be closed, the slip control institutes of the conveying briquetting 15 for setting in 51 The rotation of sub-material runner 55 is stated, the sub-butt ends 51 are corresponding with the 4th groove 61.

There are four fertilizer tubes 31 for setting on the body 1, and one and the fertilizer are respectively arranged in the body 1 The fertilizer delivery pipe 32 of 31 corresponding connections of cylinder, the end of the fertilizer delivery pipe 32 is respectively arranged with a sub-butt ends 51, institute It states sub-butt ends 51 to be separately positioned in the first inner chamber 4, the control fertilizer is respectively arranged in the sub-butt ends 51 The sub-material runner 55 that material conveying tube 32 is closed, can be by fertilizers input to the fertilizer tube 31, so as to make fertilizer automatic Be passed in the fertilizer delivery pipe 32, can be further to fertilizer so as to by the rotation of the sub-material runner 55 Material is conveyed, so as to control the circulation of fertilizer in the fertilizer delivery pipe 32, sub-butt ends 51 and the described 4th recessed Slot 61 is corresponding, so as to which fertilizer is made automatically to drop into the 4th groove 61, it is described conveying briquetting 15 described First chain 14 can be slided automatically during rotating, when the conveying briquetting 15 slides into the position of the conveying briquetting 15 After putting, the rotation of the hair sub-material runner 55 can be further driven by the conveying briquetting 15, so as into one The flowing of the control fertilizer of step, can be such that fertilizer automatically drops into the 4th groove 61, due to the 4th groove 61 Soil is inside fallen into, so as to which fertilizer is made automatically to drop into soil, so as to pass through first chain 14 Rotation so as to drive it is described conveying briquetting 15 slip, thus allow for further handling.

It is respectively arranged with the 17th shaft 71 that interruption is slided in the first inner chamber 4 in the body 1, described the An extrusion head 30 is connected separately in 17 shafts 71, the extrusion head 30 slides in the 4th groove 61, the extruding First 30 squeeze the soil in the 4th groove 61.

It is respectively arranged with the 17th shaft 71 slided in the first inner chamber 4 in the body 1, described the The slip that 17 shafts 71 can continuously be interrupted in the first inner chamber 4, is respectively arranged in the 17th shaft 71 One extrusion head 30, so as to can further drive the extrusion head 30 by the slip of the 17th shaft 71 It slides, what the extrusion head 30 can be respectively slides in the 4th groove 61, so as to pass through the extrusion head 30 It slides and top pressure further is carried out to the soil in the 4th groove 61 and fertilizer, so as to achieve the purpose that compress soil, energy It is enough that soil and fertilizer are further pressed into block, so as to which fertilizer is pressed into soil.

A circle and 39 corresponding first groove 37 of soil fetching disk, the delivery pressure are provided on the conveying runner 5 Block 15 is corresponding with first groove 37, and the soil in the 4th groove 61 is dropped into first groove 37.

A circle and 39 corresponding first groove 37 of soil fetching disk are provided on runner 5 in described convey, described first During briquetting 15 can slide, the soil for being pressed into block can further be driven to slide, what first chain 14 rotated In the process, can after the position of first groove 37 is turned to, due to the 61 trapezoidal setting of the 4th groove, so as to The clod in the 4th groove 61 can be made automatically to drop into first groove 37, so as to pass through the conveying The rotation of runner 5 further can carry out further transport process to clod.

The both sides of first groove 37 are respectively arranged with a pressure ram 42 swung on the conveying runner 5, institute Group native disk 43 that a corresponding setting is respectively arranged on pressure ram 42 is stated, the both sides of first kerve 2 are respectively arranged with One top pressure sliding plate 34 for squeezing the pressure ram 42.

A pressure ram 42 is respectively arranged in the both sides of first groove 37, the pressure ram 42 can be respectively in institute It states and is swung on conveying runner 5, one is respectively arranged on the pressure ram 42 and dials native disk 43, native disk 43 is dialled described in two and is distinguished Corresponding setting, so as to can further drive the swing for dialling native disk 43 by the swing of the pressure ram 42, A top pressure sliding plate 34, the top pressure institute that the top pressure sliding plate 34 can be respectively are respectively arranged in the both sides of first kerve 2 Pressure ram 42 is stated, the top pressure sliding plate 34 distinguishes semicircular in shape setting, so as to further by the top pressure sliding plate 34 The pressure ram 42 is squeezed, so as to drive the slip of the pressure ram 42, can further pass through described group Native disk 43 dials soil on the ground, since first groove 37 is corresponding with the soil fetching disk 39, and it is described fetch earth runner 6 with What the conveying runner 5 synchronized turns, so as to which the clod in first groove 37 is further made to drop into described fetch earth In the hole that disk 39 is dug, can group soil be carried out by described group of native disk 43 and bury the hole dug described in the soil fetching disk 39, So as to which clod further is buried in underground, since fertilizer is pressed in clod, so the scattering and disappearing property of fertilizer efficiency of fertilizer It will further reduce, it is that crops provide nutrient that can continue, so as to avoid the loss of fertilizer efficiency, and can be by mud Block is buried in underground, so the loss of fertilizer efficiency can further be reduced, so as to reach the utilization rate for improving chemical fertilizer.

It is also set up in the body 1 there are four the first rotating shaft 11 rotated, the rotation of the first rotating shaft 11 drives respectively It is described fetch earth runner 6 and it is described conveying runner 5 rotate synchronously, the first rotating shaft 11 rotate drives respectively it is described conveying shaft 10 Rotation, the first rotating shaft 11 drive the extrusion head 30 to act, the 7th turn of a rotation are additionally provided in the body 1 respectively Axis 20, the 7th shaft 20 drive four first rotating shafts 11 to rotate.

It is also set up in the body 1 there are four the first rotating shaft 11 rotated, can be turned by the first rotating shaft 11 The runner 6 that fetches earth described in the enough further drives of kinetic energy fetches earth, and soil is conveyed using the rotation of the conveying shaft 10, Soil is squeezed using the action of the extrusion head 30, can by it is described conveying runner 5 rotation can be further Clod is conveyed, so as to which clod is buried in underground, so as to complete the purpose of clod package chemical fertilizer, while by mud Block is embedded in the loss that chemical fertilizer is further reduced in underground, improves the utilization rate of chemical fertilizer, and there are one rotate for setting in the body 1 The 7th shaft 20, the rotation of the 7th shaft 20 can be further driven by the power of tractor, so as to logical The rotation for rotating the first rotating shaft 11 of drive four that can be simultaneously of the 7th shaft 20 is crossed, so as to making simultaneously The rotation that the first rotating shaft 11 synchronizes.

As shown in figures 1 and 3, one is respectively arranged in the body in first kerve 2 and second kerve 3 35 and 1 the 9th shaft 36 of eighth-turn axis rotated in 1, the eighth-turn axis 35 in the 9th shaft 36 with being respectively arranged with One corresponding first sprocket wheel 46, two first sprocket wheels 46 pass through a 47 corresponding connection of the second chain, institute respectively It states and the tenth bevel gear 48 is respectively arranged in the 9th shaft 36, one and the described 9th are respectively arranged in the body 1 36 corresponding 6th shaft 19 of shaft, one end of the 6th shaft 19 is respectively arranged with one and the tenth bevel gear 48 11st bevel gear 49 of corresponding engagement connection, the first rotating shaft 11 in the 6th shaft 19 with being respectively arranged with a phase It is engaged the 4th bevel gear 24 and one the 7th bevel gear 27 of connection.

The eighth-turn axis 35 and 1 the of a rotation is respectively arranged in first kerve 2 and second kerve 3 Nine shafts 36, the eighth-turn axis 35 and the 9th shaft 36 are rotated in turn hole set in the body 1 respectively, in institute It states and is respectively arranged with corresponding first sprocket wheel 46 in eighth-turn axis 35 and the 9th shaft 36, at two described first By one second chain, 47 corresponding connection between sprocket wheel 46, so as to further make the eighth-turn axis 35 and described the The rotation that nine shafts 36 synchronize, in the body 1 setting can pass through described the there are one the 6th shaft 19 rotated Ten bevel gears 48 connect with the corresponding engagement of the 11st bevel gear 49, pass through the 4th bevel gear 24 and the described 7th The corresponding engagement connection of bevel gear 27, from can further drive the eighth-turn by the rotation of the first rotating shaft 11 The rotation of axis 35 and the 9th shaft 36, so as to further drive fetch earth runner 6 and the conveying runner 5 Rotation.

A circle connecting rod 38 is respectively arranged on the runner 6 that fetches earth, the soil fetching disk 39 is connected to the connection On bar 38, the quantity that the soil fetching disk 39 is set is identical with the quantity of first groove.

A circle connecting rod 38 is respectively arranged on the runner 6 that fetches earth, the soil fetching disk 39 is separately positioned on the company On extension bar 38, so as to can further drive the rotation of the soil fetching disk 39 by the rotation of the runner 6 that fetches earth, from And can further dig pit on the ground, the quantity of the soil fetching disk 39 is identical with the quantity of first groove 37, And position is corresponding, and the clod in first groove 37 can further be made automatically to drop into 39 institute of soil fetching disk In the hole of digging, so as to be buried to clod.

As shown in Figure 1, setting is respectively arranged with one there are four second inner chamber 7 respectively in the body 1 in the body 1 First delivery pipe 8 of a connection corresponding with 7 bottom of second inner chamber, be connected separately in second kerve 3 one with First delivery pipe 8 is corresponding to connect disk 9, and the soil fetching disk 39 is corresponding with the disk 9 that connects respectively, the second inner chamber 7 Inside it is respectively arranged with the 5th shaft 18 rotated in the body 1, the conveying shaft 10 is connected to described the In five shafts 18, the third cone of the first rotating shaft 11 engagement connection corresponding with being respectively arranged with one in the 5th shaft 18 23 and 1 the 8th bevel gear 28 of gear is respectively arranged with one and 7 top of the second inner chamber corresponding connection in the body 1 Second delivery pipe 33, second delivery pipe 33 is corresponding with the conveying briquetting 15 respectively, is also set respectively in the body 1 There are one the discharge port 73 with the 4 corresponding connection of first inner chamber, the discharge port 73 is opposite with first kerve 2 respectively It should connect.

There are four second inner chambers 7 for setting in the body 1, and one and described second are respectively arranged in the body 1 First delivery pipe 8 of 7 corresponding connection of inner cavity, first delivery pipe 8 is arranged on the bottom of the second inner chamber 7, described One is connected separately in second kerve 3 and connects disk 9, the disk 9 that connects is corresponding with first delivery pipe 8 respectively, described to fetch earth Disk 39 is corresponding with the disk 9 that connects respectively, after being fetched earth by the soil fetching disk 39, can connect disk by described 9 catch soil, so as to which soil is further made to be passed in the second inner chamber 7, in the second inner chamber 7 respectively The 5th shaft 18 that there are one settings rotates, the conveying shaft 10 are separately positioned in the 5th shaft 18, so as to The rotation of the conveying shaft 10 can be further driven by the rotation of the 5th shaft 18, so as to by described the Soil in two inner cavities 7 is further conveyed, the second inner chamber 7 the corresponding connection in top there are one second conveying Pipe 33, so as to which soil is transported in second delivery pipe 33, so as to be circulated by second delivery pipe 33 It goes out, the position of second delivery pipe 33 is corresponding with the position of the conveying briquetting 15, described second defeated so as to make The soil in pipe 33 is sent automatically to drop into the 4th groove 61 set by the conveying briquetting 15, so as to complete entire soil Compression process is conveyed, the discharge port 73 in the body 1 there are one settings with the 4 corresponding connection of first inner chamber, so as to Extra soil can automatically be flowed out by the discharge port 73, so as to prevent machine caused by extra soil is assembled without The problem of method works normally.

As shown in Fig. 1 and Figure 10, the second of a rotation in the body 1 is respectively arranged in the first inner chamber 4 12 and one third shaft 13 of shaft, second shaft 12 is with being respectively arranged with two corresponding settings in the third shaft 13 The second sprocket wheel 60, two first chains 14 are set respectively in the first inner chamber 4, first chain 14 is set respectively On second sprocket wheel 60, the conveying briquetting 15 is provided with a circle and is connected respectively in two first chains 14 Between, the 12nd bevel gear 58 is respectively arranged in second shaft 12, one and institute are respectively arranged in the body 1 State the 4th shaft 17 of 12 corresponding rotation of the second shaft, one end of the 4th shaft 17 is respectively arranged with one and described the Tenth third hand tap gear 59 of the corresponding engagement connection of 12 bevel gears 58, the other end of the 4th shaft 17 with described first turn The 9th bevel gear 29 and the first bevel gear 21 of a corresponding engagement connection are respectively arranged on axis 11.

The second shaft 12 and a third shaft rotated of a rotation are respectively arranged in the first inner chamber 4 13, in second shaft 12 and the second sprocket wheel 60 that two corresponding settings are respectively arranged in the third shaft 13, Two first chains 14 are respectively arranged in the first inner chamber 4, two first chains can be respectively described It is rotated on two sprocket wheels 60, the conveying briquetting 15 is provided with a row, and be connected respectively in two first chains 14 Between, so as to can further drive the slip of the conveying briquetting 15 by the rotation of first chain 14, The end of second shaft 12 is respectively arranged with the 12nd bevel gear 58, and one is also respectively provided in the body 1 A and 12 corresponding 4th shaft 17 of the second shaft, one the tenth is respectively arranged in one end of the 4th shaft 17 Third hand tap gear 59, the tenth third hand tap gear 59 engagement connection corresponding with the 12nd bevel gear 58 respectively, so as to The rotation of second shaft 12 can further be driven by the rotation of the 4th shaft 17.

There are one the top pressure branch being connected on the body 1 for setting between second shaft 12 and the third shaft 13 Bracer 16, the conveying briquetting 15 slide in the top pressure supporting block 16 respectively.

It is respectively arranged with a top pressure supporting block 16 between second shaft 12 and the third shaft 13, described One chain 14 can rotate between two second sprocket wheels 60, and the top pressure supporting block 16 is arranged on first chain 14 Between, the conveying briquetting 15 can slide in the top pressure supporting block 16, when 30 top pressure of extrusion head is the described 4th After in groove 61, can further it be ensured to the extrusion head 30 to mud by the support of the top pressure supporting block 16 The compression effectiveness of soil.

A guide cylinder 72 being connected on the body 1 is respectively arranged in the first inner chamber 4, the guide cylinder 72 One end is corresponding with the conveying briquetting 15 respectively, and the other end of the guide cylinder 72 is opposite with first groove 37 respectively It should.

A guide cylinder 72 being connected on the body 1 is respectively arranged in the first inner chamber 4, so as to logical It crosses the guide cylinder 72 to be oriented to clod, the conveying briquetting 15 can be made during slip, due to the described 4th 61 trapezoidal setting of groove, after the position of the guide cylinder 72 is slided into, due to the effect of gravity, so described can be made Clod in four grooves 61 is automatically dropped into the guide cylinder 72, so as to make clod carry out be passed to described first In groove 37, clod can further be conveyed by the rotation of the conveying runner 5.

As shown in Fig. 1, Fig. 8 and Fig. 9, it is corresponding with the fertilizer tube 31 that one is respectively arranged in the fertilizer delivery pipe 32 The conveyor chamber 50 of connection is respectively arranged with a third inner cavity with the 50 corresponding connection of conveyor chamber in the sub-butt ends 51 52, the 11st shaft 53 rotated in the sub-butt ends 51, the sub-material are respectively arranged in the third inner cavity 52 The material-dividing groove 56 of the concave setting of a circle is respectively arranged on runner 55, the end of the 11st shaft 53 is connected separately with one A first runner 54, is provided with a circle third groove 57 on first runner 54,57 semicircular in shape of the third groove setting, 15 side of the conveying briquetting is connected separately with a flip stand 62, and the flip stand 62 is opposite with the third groove 57 It should be clamped, the slip of the flip stand 62 drives the rotation of first runner 54.

A cavity i.e. conveyor chamber 50 is respectively arranged in the fertilizer delivery pipe 32, is set respectively in the sub-butt ends 51 Put the 11st shaft 53 that a rotation there are one third inner cavity 52, is respectively arranged in the sub-butt ends 51, the sub-material Runner 55 is separately positioned in the 11st shaft 53, and the sub-material runner 55 rotates in the third inner cavity 52 respectively, The material-dividing groove 56 of the corresponding setting of a circle is respectively arranged on the sub-material runner 55, semicircular in shape is set the material-dividing groove 56 respectively It puts, so as to can further drive the rotation of the sub-material runner 55 by the rotation of the 11st shaft 53, from And the rotation in the material-dividing groove 56 can be further driven, so as to which chemical fertilizer is made automatically to drop into the material-dividing groove 56 It is interior, it is broadcasted sowing so as to which fertilizer is carried out flowing by the rotation of the sub-material runner 55, can further make fertilizer automatic Drop into the 4th groove 61, so as to complete broadcasting sowing for fertilizer, it is described conveying briquetting 15 side be respectively arranged with One flip stand 62, is connected separately with first runner 54 in the 11st shaft 53, on first runner 54 Be respectively arranged with a circle third groove 57,57 semicircular in shape of the third groove setting, the flip stand 62 respectively with it is described 57 corresponding clamping of third groove, so as to can further drive described stir by the slip of the conveying briquetting 15 The slip of stent 62 can further drive described the after the flip stand 62 slides into the third groove 57 The rotation of one runner 54 so as to drive the rotation of the 11st shaft 53, can be further driven to the sub-material runner 55 rotation, so as to realize the flowing of control fertilizer.

As shown in Figure 1 and Figure 7, there are four the 4th inner cavity 74, four are additionally provided in the body 1 for setting in the body 1 13rd shaft 64 of a rotation, one end of the 13rd shaft 64 are connected separately with one and are rotated in the 4th inner cavity 74 Rotary flywheel 67, the outer rim of the rotary flywheel 67 is respectively arranged with 1 the 14th shaft 68, in the 14th shaft 68 The 15th shaft 69 of a rotation is respectively arranged with, the end of the 15th shaft 69 is connected separately with 1 the 16th shaft 70, the 17th shaft 71 rotates in the 16th shaft 70 respectively, be respectively arranged in the body 1 one with it is described The support sliding slot 75 of 4th inner cavity, 74 corresponding connection, the 17th shaft 71 are slided in the support sliding slot 75 respectively, It is also set up in the body 1 there are one vertical the 12nd shaft 63 rotated corresponding with the 13rd shaft 64, described the One end of 12 shafts 63 is with being respectively arranged with one relative to the 14th cone tooth for engaging connection in the 13rd shaft 64 Wheel 65 and 1 the 15th bevel gear 66 are respectively arranged with one in the other end of the 12nd shaft 63 and the first rotating shaft 11 16th bevel gear 76 of a corresponding engagement connection and a second bevel gear 22.

Setting is there are four the 4th inner cavity 74 in the body 1, also sets up that there are four the 13 rotated in the body 1 Shaft 64, one end of the 13rd shaft 64 are connected separately with a rotary flywheel rotated in the 4th inner cavity 74 67, it can further drive the rotation of the rotary flywheel 67 by the rotation of the 13rd shaft 64, described turn There are one the 14th shafts 68 for the outer fringe position setting of dynamic flywheel 67, are rotated there are one settings in the 14th shaft 68 15th shaft 69 enough can further can drive the 12nd shaft 63 by the rotation of the first rotating shaft 11 Rotation, so as to further drive the rotation of the rotary flywheel 67, can further drive the 15th shaft 69 rotation, so as to which the 17th shaft 71 is further pushed to move in a straight line, so as to further push The slip that the extrusion head 30 is continuously interrupted, it is described so as to which soil is pressed into bulk so as to squeeze soil 17th shaft 71 can be slided in the support sliding slot 75, so as to further ensure to the 17th shaft 71 Normal slip.

As shown in Figure 1, Figure 4 and Figure 5,5 both sides of the conveying runner are respectively arranged with a circle and 37 phase of the first groove Corresponding second groove 40, second groove 40 are separately positioned on the both sides of first groove 37, first groove 37 The tenth shaft 41 being connected on the conveying runner 5 is inside respectively arranged with, the pressure ram 42 is respectively at the described ten turn It is rotated on axis 41, first spring 44 for suppressing the pressure ram 42, the extruding is respectively arranged in second groove 40 A pressure end 45 is connected separately on bar 42, the top pressure sliding plate 34 is separately positioned on the both sides of the conveying runner 5, and respectively Semicircular in shape is set, and the pressure end 45 is slided on the top pressure sliding plate 34 respectively.

It is described conveying runner 5 both sides be respectively arranged with one it is recessed with 37 position of the first groove corresponding second Slot 40 is respectively arranged with the tenth shaft 41 being connected on the conveying runner 5 in second groove 40, described to squeeze Compression bar 42 rotates in the tenth shaft 41 respectively, and the top pressure sliding plate 34 is separately positioned on the bottom of first kerve 2, And the both sides of the conveying runner 5 are separately positioned on, the conveying runner 5 is during rotation, when the pressure ram 42 It slides into after the position of the top pressure sliding plate 34, corresponding protrusion is respectively arranged on the top pressure sliding plate 34, so as to Pressure ram 42 described in top pressure that can be respectively, can be further so as to which the pressure ram 42 is further pushed to swing Drive the action for dialling native disk 43, so as to by the action of described group of native disk 43 further by 39 institute of soil fetching disk The hole of digging is buried, and further the pressure ram 42 can be pushed up by the elastic force pressure of first spring 44 Pressure, so as to reset the pressure ram 42.

As depicted in figs. 1 and 2, one the 5th bevel gear 25, the 7th shaft are respectively arranged in the first rotating shaft 11 The 6th bevel gear 26 of an engagement connection corresponding with the 5th bevel gear 25 is respectively arranged on 20.

Can by the 7th shaft 20 rotation can simultaneously the first rotating shaft 11 of drive four rotate, so as to It can realize fetch earth described in four runner 6 and conveying 5 synchronization action of runner.

Better embodiment of the embodiment provided above for the present invention only is used for facilitating illustrating the present invention, not to this hair The limitation of bright work in any form, any those of ordinary skill in the art, if putting forward skill not departing from the present invention In the range of art feature, using the equivalent embodiment for locally changing or modifying made by disclosed technology contents, and Without departing from the technical feature content of the present invention, in the range of still falling within the technology of the present invention feature.

Claims (8)

1. a kind of farm land fertilising soil package fertilizer spreader, includes a body, it is characterised in that：The bottom of the body is set One first kerve and one second kerve are equipped with, first kerve is respectively arranged with four with second kerve and in a row sets It puts, the conveying runner and the runner that fetches earth of a rotation, institute is respectively arranged in first kerve and second kerve It states and a circle soil fetching disk is provided on the runner that fetches earth, the soil fetching disk semicircular in shape setting；

Conveying shaft there are four rotation corresponding with the runner that fetches earth in the body is set, is set in the conveying shaft There is the helical disk set in the shape of a spiral, the rotation of the conveying shaft conveys the soil that the soil fetching disk is taken；

The first inner chamber of four connections corresponding with first kerve in the body is set, is set respectively in the first inner chamber The first chain of a rotation is equipped with, circle conveying briquetting is respectively arranged on first chain, is distinguished on the conveying briquetting The 4th groove of a trapezoidal setting is provided with, soil is transported in the 4th groove by the rotation of the conveying shaft；

Setting is respectively arranged with a connection corresponding with the fertilizer tube there are four fertilizer tube in the body on the body Fertilizer delivery pipe, be respectively arranged with a sub-butt ends in the fertilizer delivery pipe, there are one control for setting in the sub-butt ends The sub-material runner that the fertilizer delivery pipe is closed, the rotation of the slip control sub-material runner of the conveying briquetting, described point Material head is corresponding with the 4th groove；

The 17th shaft for being interrupted slip in the first inner chamber, the 17th shaft are respectively arranged in the body On be connected separately with an extrusion head, the extrusion head slides in the 4th groove, and it is recessed that the extrusion head squeezes the described 4th Soil in slot；

It is provided with a circle and corresponding first groove of the soil fetching disk on the conveying runner, the conveying briquetting and described the One groove is corresponding, and the soil in the 4th groove is dropped into first groove；

The both sides of first groove are respectively arranged with one on the pressure ram for conveying and being swung on runner, the pressure ram Group native disk of a corresponding setting is respectively arranged with, the both sides of first kerve are respectively arranged with one and squeeze the extruding The top pressure sliding plate of bar；

It is also set up in the body there are four the first rotating shaft rotated, the rotation of the first rotating shaft drives described fetch earth to turn respectively Wheel and the conveying runner rotate synchronously, and the first rotating shaft rotation drives the conveying shaft to rotate respectively, described first turn Axis drives the extrusion head to act respectively, and the 7th shaft of a rotation is additionally provided in the body, and the 7th shaft drives Four first rotating shaft rotations.

2. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：First kerve With being respectively arranged with an eighth-turn axis rotated in the body and one the 9th shaft in second kerve, the described 8th Corresponding first sprocket wheel is respectively arranged in shaft and the 9th shaft, two first sprocket wheels pass through one respectively A corresponding connection of second chain is respectively arranged with the tenth bevel gear in the 9th shaft, is set respectively in the body Put there are one with corresponding 6th shaft of the 9th shaft, one end of the 6th shaft be respectively arranged with one with it is described 11st bevel gear of the corresponding engagement connection of the tenth bevel gear, the first rotating shaft in the 6th shaft with being respectively arranged with The 4th bevel gear and one the 7th bevel gear of one corresponding engagement connection；

A circle connecting rod is respectively arranged on the runner that fetches earth, the soil fetching disk is connected in the connecting rod, described The quantity of soil fetching disk setting is identical with the quantity of first groove.

3. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：It is set in the body It puts there are four second inner chamber, is respectively arranged with the of connection corresponding with the second inner chamber bottom in the body respectively One delivery pipe, be connected separately in second kerve one with first delivery pipe is corresponding connects disk, the soil fetching disk It connects that disk is corresponding with described respectively, the 5th shaft rotated in the body is respectively arranged in the second inner chamber, The conveying shaft is connected in the 5th shaft, and one is respectively arranged in the first rotating shaft and the 5th shaft It is corresponding to engage the third hand tap gear connected and one the 8th bevel gear, it is respectively arranged with one and the second inner chamber in the body Second delivery pipe of the corresponding connection in top, second delivery pipe is corresponding with the conveying briquetting respectively, in the body Be also respectively provided with the discharge port of a connection corresponding with the first inner chamber, the discharge port respectively with first kerve Corresponding connection.

4. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：The first inner chamber Inside it is respectively arranged with second shaft rotated in the body and a third shaft, second shaft and the third The second sprocket wheel of two corresponding settings is respectively arranged in shaft, two first chains are set respectively in the first inner chamber Item, first chain are separately positioned on second sprocket wheel, and the conveying briquetting is provided with a circle and is connected respectively Between two first chains, the 12nd bevel gear is respectively arranged in second shaft, is divided in the body It is not provided with the 4th shaft of a rotation corresponding with second shaft, one end of the 4th shaft is respectively arranged with one Tenth third hand tap gear of engagement connection corresponding with the 12nd bevel gear, the other end and described first of the 4th shaft The 9th bevel gear and the first bevel gear of a corresponding engagement connection are respectively arranged in shaft；

Setting is described there are one the top pressure supporting block being connected on the body between second shaft and the third shaft Conveying briquetting slides in the top pressure supporting block respectively；

Be respectively arranged with a guide cylinder being connected on the body in the first inner chamber, one end of the guide cylinder respectively with The conveying briquetting is corresponding, and the other end of the guide cylinder is corresponding with first groove respectively.

5. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：The fertilizer conveying The conveyor chamber of a connection corresponding with the fertilizer tube is respectively arranged in pipe, be respectively arranged in the sub-butt ends one with it is described The third inner cavity of the corresponding connection of conveyor chamber, in the third intracavitary be respectively arranged with one rotated in the sub-butt ends 11 shafts are respectively arranged with the material-dividing groove of the concave setting of a circle, the end of the 11st shaft on the sub-material runner First runner is connected separately with, a circle third groove, the third groove semicircular in shape are provided on first runner Setting, the conveying briquetting side are connected separately with a flip stand, and the flip stand is corresponding with the third groove Clamping, the slip of the flip stand drive the rotation of first runner.

6. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：It is set in the body It puts there are four the 4th inner cavity, also sets up that there are four the 13rd shaft rotated, one end of the 13rd shaft in the body A rotary flywheel that intracavitary rotates in the described 4th is connected separately with, the outer rim of the rotary flywheel is respectively arranged with 1 the tenth Four shafts are respectively arranged with the 15th shaft of a rotation, the end difference of the 15th shaft in the 14th shaft The 16th shaft is connected with, the 17th shaft is rotated in the 16th shaft, set respectively in the body respectively The support sliding slot of a connection corresponding with the 4th inner cavity is equipped with, the 17th shaft is sliding in the support sliding slot respectively It is dynamic, it is also set up in the body there are one vertical the 12nd shaft rotated corresponding with the 13rd shaft, the described tenth One end of two shafts is with being respectively arranged with one relative to the 14th bevel gear and one for engaging connection in the 13rd shaft 15th bevel gear, the other end engagement corresponding with being respectively arranged with one in the first rotating shaft of the 12nd shaft connect The 16th bevel gear connect and a second bevel gear.

7. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：The conveying runner Both sides are respectively arranged with a circle and corresponding second groove of first groove, and second groove is separately positioned on described The both sides of one groove are respectively arranged with the tenth shaft being connected on the conveying runner in first groove, described to squeeze Compression bar rotates in the tenth shaft respectively, and first bullet for suppressing the pressure ram is respectively arranged in second groove Spring is connected separately with a pressure end on the pressure ram, and the top pressure sliding plate is separately positioned on the both sides of the conveying runner, and Semicircular in shape setting, the pressure end are slided on the top pressure sliding plate respectively respectively.

8. a kind of farm land fertilising soil package fertilizer spreader according to claim 1, it is characterised in that：The first rotating shaft On be respectively arranged with one the 5th bevel gear, an engagement corresponding with the 5th bevel gear is respectively arranged in the 7th shaft 6th bevel gear of connection.