CN209333701U - A kind of production line that brid guano is processed as to organic fertilizer particles - Google Patents

Abstract

The utility model relates to brid guano processing equipment technical fields, in particular to brid guano is processed as to the production line of organic fertilizer particles.A kind of production line that brid guano is processed as to organic fertilizer particles provided by the utility model mainly includes pulverizer and facility for granulating；Facility for granulating includes granulator ontology, and feeding chamber and binder storehouse, setting compressing rod and binder piston inside binder storehouse is arranged in granulator body interior, and binder orlop face is uniformly arranged several binder outlets far from one end of compressing rod；Pressure bin bottom corresponds to binder outlet port setting shear knife, and pressure bin bottom fixed setting shearing push rod, the extension end for shearing push rod is connected respectively shear knife.The utility model pushes binder piston by compressing rod, compress the excrement slag in binder storehouse, excrement slag is squeezed into column by binder outlet, length of time, which is extruded, by control controls excrement particles length, shear knife is pushed by shearing push rod, by the excrement particles cutting of binder outlet, discharging length is arbitrarily controlled.

Description

A kind of production line that brid guano is processed as to organic fertilizer particles

Technical field

It is the utility model relates to brid guano processing equipment technical field, in particular to a kind of that brid guano is processed as organic fertilizer The production line of particle.

Background technique

It is more more and more urgent to the environmental quality of fowl and livestock farm with the enhancing of mankind's environmental consciousness, a large amount of fecaluria etc. High concentrated organic wastewater pollutes increasingly severe caused by the water body, soil and air of surrounding, constitutes to the biology of surrounding It cannot be neglected threat, excrement needs smashed excrement carrying out grain before as Fertilizer application at present.

Currently, smashed excrement cuts excrement by serrated knife rotation during grain, but this granulation Machine can only make the excrement section of fixed length.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of production that brid guano is processed as to organic fertilizer particles Line producing the night soil of particle difference length, and is adjustable the excrement particles of different length.

It is provided by the utility model a kind of brid guano to be processed as organic fertilizer particles in order to realize above-mentioned purpose of utility model Production line, including pulverizer, facility for granulating, cooling storehouse, cyclone dust collectors, discharging auger, siccative storehouse and the sieve material being connected to each other Plate；

Pulverizer includes crushing feed bin, and pulverizing material inlet is arranged in crushed material the top of the warehouse, crushes bin bottom setting and crushes out Material mouth；Facility for granulating includes granulator ontology, and feeding chamber is arranged above granulator body interior, and pulverizing discharging opening and feeding chamber connect It connects, binder storehouse is set below granulator body interior, binder storehouse is connected to feeding chamber, and compressing rod, binder are arranged inside binder storehouse Binder piston is also set up inside storehouse, the telescopic end of compressing rod is fixedly connected with binder piston centre, and compressing rod is fixed at pressure One end of feed bin, binder orlop face are uniformly arranged several binder outlets far from one end of compressing rod；Pressure bin bottom corresponds to binder Shear knife is arranged in outlet port, and shear knife is bonded with binder outlet, and two shearing push rods are fixedly installed in pressure bin bottom, and two are cut The extension end for cutting push rod is connected respectively at the both ends of shear knife.

In order to enable feeding chamber continuous high-pressure to convey excrement to binder storehouse, preferred technical solution is to set in feeding chamber Charging auger, feeding chamber side wall fixed setting charging motor are set, charging motor output end is fixedly connected with the axle center for the auger that feeds, Feed opening is set at the top of feeding chamber, and feed opening is located at the side of charging motor；

In order to can smoothly enter into dry excrement slag in charging auger, preferred technical solution is that feeding chamber is close to charging Atomizer is arranged in one end of mouth, and atomizer is arranged towards charging auger, this body side surface of granulator setting air compressor, water Pump and high pressure tank, air compressor and water pump are stored up with high pressure tank by piping connection, air compressor and high pressure The check valve towards high pressure tank direction, high pressure tank are respectively provided between gas tank and between water pump and high pressure tank Outlet side be connected to atomizer.

In order to make the excrement particles produced be discharged designated position, preferred technical solution is that granulator body interior is also Setting discharging slideway, discharging slideway are located at the underface of binder outlet, and discharging slideway tilts down setting.

In order to preferably control discharging length, preferred technical solution is that elevating lever is fixedly installed in granulator body interior, Elevating lever is located at below discharging slideway, and the telescopic end of elevating lever is fixedly connected with slideway bottom surface, the setting control of this body side surface of granulator Device processed, discharging slideway upper end correspond to binder outlet position be fixedly installed ultrasonic sensor, ultrasonic sensor, elevating lever, Push rod is sheared to be electrically connected respectively at controller.

In order to reduce the action number for picking up push rod, preferred technical solution is that the two sides of shear knife are respectively provided with blade.

In order to improve working efficiency, preferred technical solution is to be connected with pulverizer above feeding chamber, pulverizer includes powder Particle storehouse, Disintegrating knife group and crushing motor；

Pulverizing material inlet is arranged in crushed material the top of the warehouse, crushes bin bottom and pulverizing discharging opening is arranged；

It crushes two side walls opposite on the outside of feed bin and crushing motor is respectively set, the output shaft of two crushing motors is vertical In the lateral wall for crushing feed bin, crushes motor and be separately positioned on the two sides for crushing motor place sidewalls vertical center line, and two Crush being equidistant for sidewalls vertical center line where motor distance crushes motor；

It crushes inside feed bin across two Disintegrating knife groups are oppositely arranged, two Disintegrating knife groups pass through crushing transmission shaft It is connect with the side wall for crushing feed bin, two crush transmission shaft each parallel to the output shaft for crushing motor, two crushing transmission shafts point It is not fixedly connected on two axle center, the one end for crushing transmission shaft is fixedly connected with the output shaft for crushing motor, and the other end passes through Bearing block is fixed on the side wall for crushing feed bin.

In order to keep the crushing effect of excrement more preferable, preferred technical solution is, if each Disintegrating knife group includes dry powder Broken blade, the Disintegrating knife in Disintegrating knife group, which is equally spacedly fixed at, to be crushed on transmission shaft.

In order to further increase the crushing effect of excrement, preferred technical solution is the crushing in two Disintegrating knife groups Blade staggered cross is arranged, and the Disintegrating knife in each Disintegrating knife group has in partial insertion Disintegrating knife group on the other side Disintegrating knife gap in.

In order to which the effect for grabbing Disintegrating knife to excrement is more preferable, preferred technical solution is that the outer ring of Disintegrating knife is set It is equipped with crushing tooth.

In order to which smashed difference is discharged steadily, preferred technical solution is that crushing bin bottom setting crushes defeated Expect that auger, the feed inlet for crushing conveyer device&apos are connect with pulverizing discharging opening, crushes conveyer device&apos and be obliquely installed, crush conveyer device&apos Discharge port be located at crush conveyer device&apos feed inlet top, crush conveyer device&apos discharge end setting crush conveying motor, The output shaft for crushing conveying motor is fixedly connected with the rotation axis for crushing conveyer device&apos.

It is crushed to be importing directly into excrement between two Disintegrating knife groups, preferred technical solution is to crush The opposite two side walls of feed inlet are fixedly installed respectively crushes guide plate, and the length direction of two crushing guide plates is each along crushing Transmission shaft setting crushes guide plate and tilts down and have slight gap, the bottom end of two crushing guide plates with Disintegrating knife group It is close to the middle position of two Disintegrating knife groups.

In order to keep crush efficiency higher, preferred technical solution is that the upper end of two crushing guide plate opposite flanks is all provided with Crushing electric putter is set, the height of two crushing electric putters is identical, and two crush electric putter and hang down each along the end face for crushing guide plate Directly be arranged in Disintegrating knife group, be respectively provided with crushing pressing plate on two crushing guide plates, each extension end for crushing electric putter with Corresponding crushing pressing plate is fixedly connected, and is crushed pressing plate level and is parallel to the setting of Disintegrating knife group.

In order to cool down excrement particles in time, preferred technical solution is connected with for binder outlet by particle conveyer belt cold But storehouse, cooling storehouse include cooling storehouse ontology, and cooling feed inlet, the setting cooling of cooling storehouse body bottom portion is arranged in cooling storehouse ontology top Several cooling air inlets for leading to its inside are arranged in discharge port, cooling storehouse body bottom portion, and the fixed setting of this body sidewall of cooling storehouse is cold The air outlet of blower, air-cooler is connected to cooling air inlet；Cooling air outlet is arranged in this body side surface of cooling storehouse upper end.

In order to make excrement particles at the uniform velocity be transported to cooling discharging mouth, preferred technical solution is, under cooling storehouse body interior Side's setting particle discharging auger, particle discharge auger along the setting of cooling storehouse body length direction, and cooling storehouse ontology corresponds to particle and goes out Expect that particle discharging machine, the end of particle discharging auger is fixedly installed in wherein any one side in axial two sides of auger It is fixedly connected with particle discharging machine, particle discharges, and this body sidewall passes through with cooling storehouse for the one end of auger far from particle discharging machine Bearing block is fixedly connected, and cooling discharging mouth is arranged on side wall of the cooling storehouse ontology far from particle discharging machine one end, and cooling goes out Material mouth corresponds to particle discharging auger setting；Cooling air inlet is axially arranged along particle discharging auger, and cooling air inlet is located at particle Discharge auger lower section.

In order to enable particle discharging auger that the excrement particles of cooling storehouse body interior to be all discharged, preferred technical side Case is, the width that cooling storehouse ontology is parallel between the two side walls of particle discharging auger from top to bottom gradually become smaller until close to Particle discharging auger two sides.

In order to make the discharging of cooling discharging mouth more evenly, excessive excrement particles are prevented to be deposited near cooling discharging mouth, preferably Technical solution be that the first striker plate is arranged close to one end of cooling discharging mouth in cooling storehouse body interior, and the first striker plate is parallel Cooling storehouse ontology is provided with the end face of cooling discharging mouth, the first striker plate two sides and cooling storehouse ontology are parallel to particle discharging The two side walls of auger are sealedly and fixedly connected, and certain distance is arranged in the first striker plate bottom surface and particle discharging auger.

In order to which the excrement particles that cooling discharging mouth is discharged carry out secondary cooling, preferred technical solution is cooling discharging Mouth upper end is communicated with secondary exhaust pipe, and secondary exhaust pipe is vertical and oppositely arranged with the mouth end of cooling discharging mouth；Cooling discharging mouth Lower section be communicated with secondary cooling pipe, secondary cooling pipe is connected to the air outlet of air-cooler.

In order to keep excrement particles secondary cooling more preferable, preferred technical solution is that secondary cooling pipe is obliquely installed, two The one end of secondary cooling tube far from cooling discharging mouth is arranged diagonally downward；Gear is arranged close to one end of cooling discharging mouth in secondary cooling pipe Expect net.

In order to enable the cold wind of cooling storehouse body interior to be successfully discharged to cooling air outlet, preferred technical solution is, The second striker plate is arranged in cooling storehouse body interior, and the top of the second striker plate and cooling feed inlet are close to the side of cooling discharging mouth The two side walls sealing that connection, two sides of the second striker plate and cooling storehouse ontology are parallel to particle discharging auger, which is fixed, to be connected It connects, the second striker plate is obliquely installed, and the second striker plate is located at the top of cooling air outlet, and the bottom end of the second striker plate is far from cooling Discharge port setting, the bottom end of the second striker plate and cooling storehouse ontology are provided with the side wall setting certain distance of particle discharging machine.

In order to clear up the dust in excrement particles, preferred technical solution is that cooling discharging mouth is connected with cyclone dust collectors, Cyclone dust collectors include dedusting cabin ontology, and dedusting air inlet and dedusting air outlet and dedusting discharging is arranged in this body sidewall of dedusting cabin Mouthful, dedusting cabin body bottom portion is communicated with ash bucket, and setting dredging brush, is dredged between brush face dedusting cabin ontology and ash bucket inside ash bucket Interface channel, ash bucket bottom surface through setting dredging bar, dredging bar with dredging brush be fixedly connected, this body side surface of dedusting cabin is provided Grey mouth.

It is fixedly moved to enable dredging to brush and dredge bar direction in ash bucket, preferred technical solution is ash bucket Inner bottom surface perforation setting guide pipe, dredging bar are inserted into guide pipe.

In order to reduce manpower consumption, preferred technical solution is bottom surface fixed setting dredging motor, guide pipe outside ash bucket Intermeshing helical teeth is arranged in inner wall and dredging bar outer wall, and the output end for dredging motor is fixedly connected with driving gear, drives gear Outer wall and dredging bar outer wall intermeshing helical teeth is set.

In order to fall into the dust of dedusting cabin body interior more easily in ash bucket, preferred technical solution is dedusting cabin Conically shaped is set between body bottom portion and ash bucket, and conically shaped is connected to at the top of dedusting cabin body bottom portion and ash bucket respectively, conically shaped Osculum end and ash bucket at the top of be connected to.

In order to make dredging brush be easier the dust blocked between dredging dedusting cabin ontology and ash bucket, preferred technical solution For dredging brush is taper, dredges the conehead end of brush towards dedusting cabin ontology.

In order to make the dust in ash bucket be easier to be discharged, preferred technical solution is that ash discharge telescopic rod is arranged in ash bucket side, Ash discharge telescopic rod is fixed at the opposite side of ash hole, and ash discharge plate is arranged inside ash bucket, and the telescopic end of ash discharge telescopic rod is inserted Enter ash bucket, one of end face of ash discharge plate is fixedly connected with the telescopic end of ash discharge telescopic rod, another end face of ash discharge plate is just To ash hole, ash discharge plate and ash discharge telescopic rod are two pieces and are located at the two sides of dredging bar.

In order to which excrement particles are at the uniform velocity discharged, preferred technical solution is dedusting discharge port connection discharging auger, discharging Auger includes auger ontology, auger shell and auger motor, and auger ontology is arranged in auger shell, the both ends point of auger shell Not She Zhi auger feed inlet and auger discharging mouth, auger motor is located at one end that auger shell is provided with auger discharging mouth, auger The output shaft of motor is fixedly connected with the end of auger ontology, be arranged above auger feed inlet throttle orifice, throttle orifice and auger into Material mouth is fixedly connected by support rod, and bellows is arranged between throttle orifice and auger feed inlet, and bellows lower end and auger are fed Mouth is fixedly connected, and bellows upper port is fixedly connected with current limiting plate, and bellows upper port is located in current limliting plate end face, the end of current limiting plate Face is parallel with throttle orifice, and wherein any one side of current limiting plate extends outwardly, and the length of current limiting plate outwardly extending portion is greater than limit Head piece diameter, the current limliting sliding slot that centerline direction setting of the radial side of throttle orifice along current limiting plate Yu bellows upper end penetrates through, Current limiting plate is arranged in current limliting sliding slot.

In order to reduce the trouble for pushing current limiting plate to slide in current limliting sliding slot manually, preferred technical solution is support rod Current limliting push rod is set close to one end of throttle orifice, the telescopic end of current limliting push rod is fixedly connected with current limiting plate, the direction of current limliting push rod Center line along current limiting plate Yu bellows upper end is arranged.

In order to control the height of excrement particles in bellows, preferred technical solution is that controller is arranged on auger shell, The radially secure setting of bellows interior limits push rod, and the telescopic end for limiting push rod is fixedly connected with stroke limiting stop, travel limit For the handle of device towards auger feed inlet, the handle of stroke limiting stop is fixedly connected with limit push plate, and limit push rod is pushed away perpendicular to limit Plate setting.

In order to reduce wall friction in excrement particles and auger shell, preferred technical solution is auger shell side lower end Several inflatable mouths are uniformly arranged, air pump is fixedly installed on auger shell side, all inflatable mouths pass through distributing valve and air pump outlet Mouth connection, passes through piping connection between inflatable mouth and air pump and distributing valve.

In order to enable the excrement residue in auger shell to be smoothly discharged from auger discharging mouth, preferred technical solution is, Auger shell tilts down setting towards auger discharging mouth direction by auger feed inlet.

In order to solve the non-uniform defect of the excrement for solving to enter in pulverizer discharging, preferred technical solution is to crush Feed inlet is connected with siccative storehouse, and siccative storehouse includes siccative storehouse ontology and siccative discharging auger, and siccative storehouse bodies top is opening, does Material discharging auger is located at siccative storehouse body bottom portion, and siccative discharge port is arranged in the wherein any end of siccative discharging auger, and siccative goes out One end that material auger corresponds to siccative discharge port is fixedly connected with siccative auger motor.

In order to make no matter siccative storehouse body interior stores how much excrement, the excrement of bottom can connect with siccative discharging auger Touching, preferred technical solution are that the inclined bottom surface setting of siccative storehouse ontology, siccative storehouse ontology is close to one end of siccative discharge port Height is higher than the height of one end far from siccative discharge port；Siccative storehouse ontology correspond to siccative discharging auger two sides by up to Under width be gradually reduced, until siccative storehouse ontology side wall close to siccative discharging auger side.

In order to improve discharging speed and discharging stability, preferred technical solution is that the number of siccative discharging auger is two A, two siccative discharging augers are arranged in parallel, and one end that each siccative discharging auger corresponds to siccative discharge port is fixedly connected with dry Expect auger motor.

Since the speed of siccative discharging auger discharge excrement residue is slow, excessive excrement is accumulated in the ontology of siccative storehouse in order to prevent Residue, preferred technical solution are to be fixedly connected with residue storehouse below the ontology of siccative storehouse, siccative storehouse body bottom portion is uniformly arranged several Material spilling hole.

Residue storehouse is drained in order to accelerate excrement residue in the ontology of siccative storehouse, preferred technical solution is siccative storehouse ontology bottom Vibrating motor is fixedly installed in portion.

It is processed to make the excrement residue in residue storehouse be able to enter subsequent processing, preferred technical solution is, residual Conveyor belt is set in slag storehouse, and conveyor belt is parallel to the setting of siccative storehouse ontology bottom surface, and the inner ring both ends of conveyor belt are respectively provided with Roller, roller are fixed on residue storehouse by shaft, and the side wall in residue storehouse is fixedly connected with rotating electric machine, and one of roller turns Axis is fixedly connected with the output shaft of rotating electric machine, and residue storehouse is connected to siccative discharge port, and belt corresponds to the end of siccative discharge port It protrudes into siccative discharge port.

In order to accelerate the velocity of discharge of excrement residue in residue storehouse, preferred technical solution is, vertical equal in conveyor belt Even several striker plates of setting.

In order to avoid, there are the material that can not convey of siccative discharging auger, preferred technical solution is in the ontology of siccative storehouse, Siccative storehouse ontology top setting sieve flitch, sieves and is uniformly arranged several drain spouts on flitch.

It is fallen into the ontology of siccative storehouse to accelerate to sieve the material on flitch, preferred technical solution is siccative storehouse ontology pair The two side walls of siccative discharging auger length direction are answered to be oppositely arranged sieve material sliding groove, sieve flitch corresponds to siccative discharging auger length The two side walls setting in direction sieves flitch one end and this side of siccative storehouse far from siccative discharge port in two sieve material sliding grooves Setting sieve material push rod between wall, this body sidewall is fixedly connected the pedestal of sieve material push rod with siccative storehouse, sieve material push rod telescopic end and sieve Flitch is fixedly connected, and siccative this body sidewall of storehouse setting sieve material controller, sieve material push rod is electrically connected with sieve material controller.

In order to which the bulk materials crushing sieved on flitch to be placed into the ontology of siccative storehouse, preferred technical solution is sieve material Plate center opens up center material mouth, and particle net is arranged in the underface of center material mouth, and particle net is fixed with this body sidewall of siccative storehouse Connection, the area of particle net are less than the area of center material mouth, and the side of particle net and the side of center material mouth are soft by boss type Casing connection, particle uniformly open up several particle mouths on the net, and particle push rod, particle push rod bottom end pair is arranged in the surface of particle net Answer particle mouth that several particle blocks are set, particle block sectional area is less than particle open area, and particle push rod top passes through particle support frame It is fixedly connected on the ontology of siccative storehouse, particle push rod is electrically connected with sieve material controller.

The utility model has the following beneficial effects:

A kind of production line that brid guano is processed as to organic fertilizer particles provided by the utility model, pushes binder by compressing rod Piston compresses the excrement slag in binder storehouse, and after reaching certain pressure, excrement slag is squeezed into column by binder outlet, Then length of time is extruded by control to control excrement particles length, shear knife is pushed by shearing push rod, makes shear knife By the excrement particles cutting of binder outlet, so as to arbitrarily control discharging length.

Other features and advantages of the utility model will illustrate in the following description, also, partly from specification In become apparent, or understood and implementing the utility model.The purpose of this utility model and other advantages can pass through Structure specifically indicated in the written description, claims, and drawings is achieved and obtained.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.

In the accompanying drawings:

Fig. 1 is the side sectional view of the first structure of granulator ontology in the utility model；

Fig. 2 is granulator second body side face cross-sectional view in the utility model；

Fig. 3 is granulator ontology third side sectional view in the utility model；

Fig. 4 is the structure chart of pulverizer in the utility model；

Fig. 5 is the top view of pulverizer in the utility model；

Fig. 6 is the structure chart of Disintegrating knife in the utility model；

Fig. 7 is the side sectional view of pulverizer in the utility model；

Fig. 8 is the positive structure schematic of cooling storehouse in the utility model；

Fig. 9 is the side structure schematic diagram of cooling storehouse in the utility model；

Figure 10 is the top view of cooling storehouse in the utility model；

Figure 11 is one of the cross-sectional view of cooling storehouse and particle discharging auger in the utility model；

Figure 12 is two of the cross-sectional view of cooling storehouse and particle discharging auger in the utility model；

Figure 13 is the overall structure diagram of dedusting cabin in the utility model；

Figure 14 is the side sectional view of dedusting cabin in the utility model；

Figure 15 is the overall structure diagram of second of structure in dedusting cabin in the utility model；

Figure 16 is the structural schematic diagram that brush is dredged in the utility model；

Figure 17 is the side sectional view of ash bucket in the utility model；

Figure 18 is the overall structure diagram of discharging auger in the utility model；

Figure 19 is the top view of current limiting plate in Figure 18；

Figure 20 is the partial sectional view of discharging auger in the utility model；

Figure 21 is air pump and distributing valve partial sectional view in Figure 20；

Figure 22 is the side view in siccative storehouse in the utility model；

Figure 23 is the top view of Figure 22；

Figure 24 is the side view of Figure 22；

Figure 25 is residue chamber structure schematic diagram in the utility model；

Figure 26 is the side sectional view in residue storehouse in the utility model；

Figure 27 is the top view that flitch is sieved in the utility model.

In figure, 110- siccative storehouse ontology；111- siccative discharging auger；112- siccative discharge port；113- siccative auger motor； 114- residue storehouse；115- material spilling hole；116- vibrating motor；117- conveyor belt；118- rotating electric machine；119- striker plate；120- Sieve flitch；121- drain spout；122- sieve material sliding groove；123- sieve material push rod；124- sieve material controller；The center 125- material mouth； 126- particle net；127- boss type teleflex；128- particle mouth；129- particle push rod；130- particle block；The support of 131- particle Frame；210- crushes feed bin；211- Disintegrating knife group；212- crushes motor；213- pulverizing material inlet；214- pulverizing discharging opening； 215- crushes transmission shaft；216- Disintegrating knife；217- crushing tooth；218- crushes conveyer device&apos；219- crushes conveying motor；220- Crush guide plate；221- crushes electric putter；222- crushes pressing plate；310- granulator ontology；311- feeding chamber；312- binder storehouse； 313- compressing rod；314- binder piston；The outlet of 315- binder；316- shear knife；317- shears push rod；318- charging auger； 319- charging motor；320- feed opening；321- atomizer；322- air compressor；323- water pump；324- high pressure tank； 325- discharging slideway；326- elevating lever；327- controller；328- ultrasonic sensor；, 410- cooling storehouse ontology；411- is cooling Feed inlet；412- cooling discharging mouth；413- cooling air inlet；414- air-cooler；415- cools down air outlet；416- particle discharging stranding Dragon；417- particle discharging machine；The first striker plate of 418-；419- secondary exhaust pipe；420- secondary cooling pipe；421- material retaining net； The second striker plate of 422-；510- dedusting cabin ontology；511- dedusting air inlet；512- dedusting air outlet；513- ash bucket；514- dredging Brush；515- dredges bar；516- ash hole；517- guide pipe；518- dredges motor；519- drives gear；520- conically shaped；521- Ash discharge telescopic rod；522- ash discharge plate；610- auger ontology；611- auger shell；612- auger motor；613- auger feed inlet； 614- auger discharging mouth；615- throttle orifice；616- support rod；617- bellows；618- current limiting plate；619- current limliting sliding slot；620- Current limliting push rod；621- controller；622- limits push rod；623- stroke limiting stop；624- limits push plate；625- inflatable mouth；626- Air pump；627- distributing valve.

Specific embodiment

It is illustrated below in conjunction with preferred embodiment of the attached drawing to the utility model, it should be understood that described herein excellent It selects embodiment to be only used for describing and explaining the present invention, is not used to limit the utility model.

Embodiment 1

As shown in Figure 1, the utility model provides a kind of granulation being processed as brid guano in the production line of organic fertilizer particles Machine, including be connected to each other pulverizer, facility for granulating, cooling storehouse, cyclone dust collectors, discharging auger, siccative storehouse and sieve flitch, Middle facility for granulating includes:

Feeding chamber 311, the setting opening of feeding chamber 311, system is arranged in granulator ontology 310,310 inner upper of granulator ontology Binder storehouse 312 is arranged in 310 lower inside of grain machine ontology, and binder storehouse 312 is connected to feeding chamber 311, and pressure is arranged inside binder storehouse 312 Expect that bar 313, compressing rod 313 are electric putter, also set up binder piston 314 inside binder storehouse 312, the telescopic end of compressing rod 313 with 314 center of binder piston is fixedly connected, and compressing rod 313 is fixed at the one end in binder storehouse 312, and 312 bottom surface of binder storehouse is separate One end of compressing rod 313 is uniformly arranged several binder outlets 315；312 bottom of binder storehouse corresponds to binder outlet 315 positions setting and cuts Cutter 316, shear knife 316 are bonded with binder outlet 315, and two shearing push rods 317, shearing is fixedly installed in 312 bottom of binder storehouse Push rod 317 is electric putter, and the extension end of two shearing push rods 317 is connected respectively at the both ends of shear knife 316.

Above-mentioned technical proposal, the opening of feeding chamber 311 add excrement slag, and excrement slag enters binder storehouse by feeding chamber 311 312, in binder storehouse 312, compressing rod 313 pushes binder piston 314, compresses the excrement slag in binder storehouse 312, when reaching After certain pressure, excrement slag is squeezed into column by binder outlet 315, is then extruded length of time by control to control excrement Just particle length pushes shear knife 316 by shearing push rod 317, cuts shear knife 316 by the excrement particles of binder outlet 315 It is disconnected.

Granulator in above-mentioned technical proposal pushes binder piston 314 by compressing rod 313, makes the excrement in binder storehouse 312 Just slag is compressed, and after reaching certain pressure, excrement slag is squeezed into column by binder outlet 315, is then squeezed by control Length of time controls excrement particles length out, pushes shear knife 316 by shearing push rod 317, goes out shear knife 316 by binder The excrement particles cutting of mouth 315, so as to arbitrarily control discharging length.

As shown in Fig. 2, in order to enable 311 continuous high-pressure of feeding chamber to convey excrement, preferred technical side to binder storehouse 312 Case is setting charging auger 318 in feeding chamber 311, and 311 side wall of feeding chamber fixed setting charging motor 319, feed motor 319 Output end is fixedly connected with the axle center of charging auger 318, and feed opening 320 is arranged at the top of feeding chamber 311, and feed opening 320, which is located at, to be added Expect the side of motor 319.

Above-mentioned technical proposal, the charging drive charging auger 318 of motor 319 rotate, and excrement slag is entered by feed opening 320 and added In feed bin 311, as charging auger 318 rotates, excrement slag is driven to enter binder storehouse 312.

Above-mentioned technical proposal drives charging auger 318 to rotate, excrement slag is driven to enter binder storehouse by charging motor 319 312, since the conveying direction of charging auger 318 is single, and excrement slag is constantly transported to binder storehouse 312, and then improves charging The pressure of excrement slag in storehouse 311, thus feeding chamber 311 can continuous high-pressure to binder storehouse 312 convey excrement.

In order to can smoothly enter into dry excrement slag in charging auger 318, preferred technical solution is that feeding chamber 311 leans on Atomizer 321 is arranged in one end of nearly feed opening 320, and atomizer 321 is arranged towards charging auger 318, granulator ontology 310 Air compressor 322, water pump 323 and high pressure tank 324 is arranged in side, and air compressor 322 and water pump 323 are stored up with high pressure Gas tank 324 is by piping connection, between air compressor 322 and high pressure tank 324 and water pump 323 and high pressure tank The check valve towards 324 direction of high pressure tank, the outlet side of high pressure tank 324 and atomizer 321 are respectively provided between 324 Connection.

The air compressor 322 of above-mentioned technical proposal constantly conveys gas into high pressure tank 324, and water pump 323 is to height Pressure air accumulator 324 in convey water, when in high pressure tank 324 air and water respectively reach a certain amount of after stop convey, pass through It opens atomizer 321 gas in high pressure tank 324 is discharged, the gas of high pressure discharge is sprayed into moisture passes through charging Excrement slag is blowed to charging auger 318 by the excrement slags that mouth 320 enters.

Above-mentioned technical proposal the gas in high pressure tank 324 is discharged by atomizer 321, the gas of high pressure discharge Body is sprayed onto the excrement slag entered by feed opening 320 with moisture, and excrement slag is blowed to charging auger 318, makes dry excrement Slag can smoothly enter into charging auger 318, while add moisture for dry excrement slag, so that the excrement particles of manufacture are not fragile It is broken.

As shown in figure 3, being also set up inside granulator ontology 310 to make the excrement particles produced be discharged designated position Discharge slideway 325, and discharging slideway 325 is located at the underface of binder outlet 315, and discharging slideway 325 tilts down setting.

In order to preferably control discharging length, fixed setting elevating lever 326 inside granulator ontology 310, elevating lever 326 In 325 lower section of discharging slideway, the telescopic end of elevating lever 326 is fixedly connected with slideway bottom surface, the setting control of 310 side of granulator ontology Device 327 processed, discharging 325 upper end of slideway correspond to the position fixed setting ultrasonic sensor 328 of binder outlet 315, and ultrasonic wave passes Sensor 328, elevating lever 326, shearing push rod 317 are electrically connected respectively at controller 327.

Above-mentioned technical proposal, controller 327 control the height of elevating lever 326, and binder outlet 315 extrudes excrement particles, when When excrement particles approach the ultrasonic sensor 328 on discharging slideway 325, signal is passed to control by ultrasonic sensor 328 Device 327, controller 327 receive the signal that ultrasonic sensor 328 issues, and the control shearing push rod 317 of controller 327 works, cuts Cutter 316 cuts off excrement particles.

Above-mentioned technical proposal, the height of elevating lever 326 is controlled by controller 327, and binder outlet 315 extrudes excrement Grain, when the ultrasonic sensor 328 on the close discharging slideway 325 of excrement particles, ultrasonic sensor 328 passes to signal Controller 327, controller 327 receive the signal that ultrasonic sensor 328 issues, control shearing 317 work of push rod of controller 327 Make, shear knife 316 cuts off excrement particles, be precisely controlled the length of excrement particles can, while keeping excrement particles direct It falls on discharging slideway 325, preventing excrement particles from falling in discharging slideway 325 from eminence causes excrement particles broken.In order to The action number for picking up push rod is reduced, the two sides of shear knife 316 are respectively provided with blade.

As shown in Figure 4,5, pulverizer includes: to crush feed bin 210, Disintegrating knife group 211 and crush motor 212, crushes electricity Machine 212 is electrically connected with external power supply；

It crushes and pulverizing material inlet 213 is set at the top of feed bin 210, crush 210 bottom of feed bin and pulverizing discharging opening 214 is set；

Crush the opposite two side walls in the outside of feed bin 210 and be respectively set and crush motor 212, two crushing motors 212 it is defeated Shaft is each perpendicular to crush the lateral wall of feed bin 210, crushes motor 212 and is separately positioned on crushing 212 place sidewalls vertical of motor The two sides of center line, and two crushing motors 212 being equidistant apart from crushing 212 place sidewalls vertical center line of motor；

It crushes inside feed bin 210 across two Disintegrating knife groups 211 are oppositely arranged, two Disintegrating knife groups 211 pass through It crushes transmission shaft 215 and is connect with the side wall for crushing feed bin 210, two crush transmission shaft 215 each parallel to the defeated of crushing motor 212 Shaft, two crushing transmission shafts 215 are respectively fixedly connected with the one end for crushing transmission shaft 215 in two axle center and crush motor 212 output shaft is fixedly connected, and the other end is fixed on the side wall for crushing feed bin 210 by bearing block.

Above-mentioned technical proposal drives two Disintegrating knife groups 211 to be respectively facing side between the two by crushing motor 212 To rotation, excrement is entered between two Disintegrating knife groups 211 by pulverizing material inlet 213, passes through two 211 phases of Disintegrating knife group Extruding crushing is carried out to dry manure to rotation, falls smashed excrement between two Disintegrating knife groups 211, finally by Pulverizing discharging opening 214 is discharged.

Above-mentioned technical proposal drives two Disintegrating knife groups 211 to be respectively facing side between the two by crushing motor 212 To rotation, excrement is entered between two Disintegrating knife groups 211 by pulverizing material inlet 213, passes through two 211 phases of Disintegrating knife group Extruding crushing is carried out to dry manure to rotation, falls smashed excrement between two Disintegrating knife groups 211, finally by Pulverizing discharging opening 214 is discharged, and improves work efficiency, reduces manpower consumption.

In order to keep the crushing effect of excrement more preferable, each Disintegrating knife group 211 includes several Disintegrating knifes 216, is crushed Disintegrating knife 216 in set of blades 211, which is equally spacedly fixed at, to be crushed on transmission shaft 215.

216 staggered cross of Disintegrating knife in order to further increase the crushing effect of excrement, in two Disintegrating knife groups 211 It is arranged, the Disintegrating knife 216 in each Disintegrating knife group 211 has in partial insertion Disintegrating knife group 211 on the other side In the gap of Disintegrating knife 216.

As shown in fig. 6, Disintegrating knife 216 is round knot in order to which the effect for grabbing Disintegrating knife 216 to excrement is more preferable Structure, outer ring are provided with crushing tooth 217.Above-mentioned technical proposal, multiple Disintegrating knifes 216 relatively rotate, opposite Disintegrating knife 216 cut off excrement, and the tooth of 216 outer ring of Disintegrating knife can blend excrement, and can crush out to excrement direction The power in 214 direction of material mouth, it is more preferable to the effect of excrement crawl, finally make crushing effect more preferable.

In order to which smashed difference is discharged steadily, crushes the setting of 210 bottom of feed bin and crush conveyer device&apos 218, crush The feed inlet of conveyer device&apos 218 is connect with pulverizing discharging opening 214, is crushed conveyer device&apos 218 and is obliquely installed, crushes conveyer device&apos 218 discharge port is located at the top for crushing the feed inlet of conveyer device&apos 218, and the discharge end for crushing conveyer device&apos 218, which is arranged, to be crushed Conveying motor 219, the output shaft for crushing conveying motor 219 are fixedly connected with the rotation axis for crushing conveyer device&apos 218, crush conveying Motor 219 is electrically connected with external power supply.

Above-mentioned technical proposal drives crushing conveyer device&apos 218 to rotate, makes pulverizing discharging opening by crushing conveying motor 219 The excrement disintegrating slag of 214 outputs operates a period of time in crushing conveyer device&apos 218, avoids excrement disintegrating slag directly from pulverizing discharging opening 214 discharges, finally enable excrement disintegrating slag smoothly be discharged, are easy to control flow.

As shown in fig. 7, being crushed to be importing directly into excrement between two Disintegrating knife groups 211, charging is crushed 213 opposite two side walls of mouth are fixedly installed respectively crushes guide plate 220, the equal edge of the length direction of two crushing guide plates 220 Crushing transmission shaft 215 be arranged, crush guide plate 220 tilt down and with Disintegrating knife group 211 have slight gap, two powder The bottom end of broken guide plate 220 is close to the middle position of two Disintegrating knife groups 211.

In order to keep crush efficiency higher, the upper end of two 220 opposite flanks of crushing guide plate is respectively provided with crushing electric putter 221, the height of two crushing electric putters 221 is identical, and two crush electric putter 221 and hang down each along the end face for crushing guide plate 220 Directly it is arranged in Disintegrating knife group 211, is respectively provided on two crushing guide plates 220 and crushes pressing plate 222, each crushing electric putter 221 Extension end be fixedly connected with corresponding crushing pressing plate 222, it is horizontal and be parallel to Disintegrating knife group 211 and set to crush pressing plate 222 It sets, crushing electric putter 221 is electric putter, crushes electric putter 221 and is electrically connected with external power supply.

Above-mentioned technical proposal, excrement enter in pulverizing material inlet 213, are oriented to by crushing guide plate 220 to excrement, Excrement is imported between two Disintegrating knife groups 211, periodically stretches out and shrinks simultaneously by two crushing electric putters 221, It compresses two crushing pressing plates 222 by the excrement of two 211 tops of Disintegrating knife group, then passes through two Disintegrating knife groups 211 Excrement is crushed.

Above-mentioned technical proposal is periodically stretched out and is shunk simultaneously by two crushing electric putters 221, makes two crushing pressures Plate 222 compresses the excrement of two 211 tops of Disintegrating knife group, then carries out powder to excrement by two Disintegrating knife groups 211 Broken, two crushing pressing plates 222 compress excrement, so that excrement is extruded pulverized set of blades 211 and crush, the crush efficiency of excrement is more Fastly.

It is provided by the utility model a kind of brid guano to be processed as in the production line of organic fertilizer particles as shown in Fig. 8,9 and 10 Cooling storehouse, comprising: cooling feed inlet 411, cooling storehouse ontology 410 is arranged in cooling storehouse ontology 410,410 top of cooling storehouse ontology Cooling discharging mouth 412 is arranged in bottom, and several cooling air inlets 413 for leading to its inside are arranged in 410 bottom of cooling storehouse ontology, cooling Air-cooler 414 is fixedly installed in ontology 410 side wall in storehouse, and the air outlet of air-cooler 414 is connected to cooling air inlet 413；Cooling storehouse sheet Cooling air outlet 415 is arranged in 410 side upper end of body.

In the present embodiment, cooling storehouse in production line, by the way that cooling air inlet 413 is arranged below cooling storehouse ontology 410, Cooling air outlet 415 is set above cooling storehouse ontology 410, and cold air is from 410 flowing underneath of cooling storehouse ontology to top.Above-mentioned skill Cooling outlet air is arranged by the way that cooling air inlet 413 is arranged below cooling storehouse ontology 410 in art scheme above cooling storehouse ontology 410 Mouth 415, cold air enables excrement particles fully to contact with cooling wind, mentions from 410 flowing underneath of cooling storehouse ontology to top The high cooling efficiency of cooling storehouse.

As shown in Figure 8,9, 10, in order to make excrement particles at the uniform velocity be transported to cooling discharging mouth 412, preferred technical solution For particle discharging auger 416 is arranged in 410 lower inside of cooling storehouse ontology, and particle discharges auger 416 along the length of cooling storehouse ontology 410 Direction setting is spent, wherein any one side in axial two sides of the corresponding particle discharging auger 416 of cooling storehouse ontology 410 is solid Particle discharging machine 417 is set surely, and the end of particle discharging auger 416 is fixedly connected with particle discharging machine 417, particle discharging The one end of auger 416 far from particle discharging machine 417 is fixedly connected with 410 side wall of cooling storehouse ontology by bearing block, and cooling goes out Material mouth 412 is arranged on side wall of the cooling storehouse ontology 410 far from 417 one end of particle discharging machine, and corresponding, cooling discharging mouth 412 Grain discharging auger 416 is arranged；Along the axial setting of particle discharging auger 416, cooling air inlet 413 is located at cooling air inlet 413 416 lower section of grain discharging auger.

In order to enable particle discharging auger 416 that the excrement particles inside cooling storehouse ontology 410 to be all discharged, preferably Technical solution is that cooling storehouse ontology 410 is parallel to the width between the two side walls of particle discharging auger 416 from top to bottom gradually Become smaller until close to particle discharging 416 two sides of auger.

Above-mentioned technical proposal, excrement particles pass through cooling feed inlet 411 and enter cooling storehouse ontology 410, particle discharging machine 417 drive particle discharging auger 416 to rotate, and the excrement particles inside cooling storehouse ontology 410 is made to be brought to cooling discharging mouth 412.

Above-mentioned technical proposal drives particle discharging auger 416 to rotate, makes cooling storehouse ontology by particle discharging machine 417 Excrement particles inside 410 are stirred, and prevent excrement particles from agglomerating, while can make the cold wind and excrement in cooling air inlet 413 Just particle comes into full contact with, and improves cooling effect, and cooling storehouse ontology 410 is parallel between the two side walls of particle discharging auger 416 Width from top to bottom gradually become smaller until close to particle discharge 416 two sides of auger, make excrement particles can with grain discharge auger Contact enables particle discharging auger 416 that the excrement particles inside cooling storehouse ontology 410 to be all discharged.

As shown in figure 11, it in order to make the discharging of cooling discharging mouth 412 more evenly, prevents excessive excrement particles to be deposited in cooling and goes out Near material mouth 412, the first striker plate 418, first gear is arranged close to one end of cooling discharging mouth 412 in 410 inside of cooling storehouse ontology Flitch 418 is parallel to the end face that cooling storehouse ontology 410 is provided with cooling discharging mouth 412,418 two sides of the first striker plate and cooling The two side walls that storehouse ontology 410 is parallel to particle discharging auger 416 are sealedly and fixedly connected, 418 bottom surface of the first striker plate and particle Certain distance is arranged in the auger 416 that discharges.Above-mentioned technical proposal, by the first striker plate 418 to 416 top of particle discharging auger Excrement particles current limliting makes the discharging of cooling discharging mouth 412 more evenly, while making between cooling discharging mouth 412 and the first striker plate 418 Excrement particles be fully cooled the cold front heavy rain that blows out in air outlet 415.

In order to which the excrement particles that cooling discharging mouth 412 is discharged carry out secondary cooling, 412 upper end of cooling discharging mouth is communicated with Secondary exhaust pipe 419, secondary exhaust pipe 419 are vertical and oppositely arranged with the mouth end of cooling discharging mouth 412；Cooling discharging mouth 412 Lower section be communicated with secondary cooling pipe 420, secondary cooling pipe 420 is connected to the air outlet of air-cooler 414.

In order to keep excrement particles secondary cooling more preferable, preferred technical solution is that the inclination of secondary cooling pipe 420 is set It sets, the one end of secondary cooling pipe 420 far from cooling discharging mouth 412 is arranged diagonally downward；Secondary cooling pipe 420 is close to cooling discharging Material retaining net 421 is arranged in one end of mouth 412.

In above-mentioned technical proposal, excrement particles are discharged in cooling discharging mouth 412, and cold wind is discharged to cooling in secondary cooling pipe 420 Excrement particles in discharge port 412 carry out secondary cooling, and material retaining net 421 prevents excrement particles from entering in secondary cooling pipe 420, and two Wind in secondary cooling tube 420 is discharged from secondary exhaust pipe 419.

Above-mentioned technical proposal is discharged cold wind by secondary cooling pipe 420 and carries out to the excrement particles in cooling discharging mouth 412 Secondary cooling keeps cooling storehouse more preferable to the cooling effect of excrement particles.

As shown in figure 12, in order to enable the cold wind inside cooling storehouse ontology 410 to be successfully discharged to cooling air outlet 415, Second striker plate 422 is set inside cooling storehouse ontology 410, and the top of the second striker plate 422 and cooling feed inlet 411 are close to cooling The side of discharge port 412 connects, and two sides of the second striker plate 422 and cooling storehouse ontology 410 are parallel to particle discharging auger 416 two side walls are sealedly and fixedly connected, and the second striker plate 422 is obliquely installed, and the second striker plate 422 is located at cooling air outlet The bottom end of 415 top, the second striker plate 422 is arranged far from cooling discharging mouth 412, the bottom end of the second striker plate 422 and cooling Storehouse ontology 410 is provided with the side wall setting certain distance of particle discharging machine 417.

Above-mentioned technical proposal is led by the wind that excrement particles are discharged with cooling air inlet 413 for the second striker plate 422 To, the distinguished and admirable probability to cooling feed inlet 411 that reduction cooling air inlet 413 is discharged, while making excrement particles from far from cooling One end of discharge port 412 moves to always cooling discharging mouth 412, increases the cooled formation of excrement particles, makes cooling storehouse Cooling effect is more preferable.

As shown in Figure 13,14, the utility model, which provides, a kind of to be processed as brid guano in the production line of organic fertilizer particles Dedusting air inlet 511 and dedusting air outlet is arranged in cyclone dust collectors, including dedusting cabin ontology 510,510 side wall of dedusting cabin ontology 512 and dedusting discharge port, 510 bottom of dedusting cabin ontology is communicated with ash bucket 513, and setting dredging brush 514, is dredged inside ash bucket 513 Bar 515 is dredged through setting in interface channel between 514 face dedusting cabin ontologies 510 of logical brush and ash bucket 513,513 bottom surface of ash bucket, Dredging bar 515 is fixedly connected with dredging brush 514, and ash hole 516 is arranged in 510 side of dedusting cabin ontology.Provided in this embodiment Dredging is arranged in the position of the interface channel in ash bucket 513 between face dedusting cabin ontology 510 and ash bucket 513 in cyclone dust collectors Brush 514, when the interface channel between dedusting cabin ontology 510 and ash bucket 513 is blocked by dust, by sliding up and down dredging bar 515, drive dredging brush 514 push blocking dusts, while to the interface channel between dedusting cabin ontology 510 and ash bucket 513 into Row cleaning.When interface channel between dedusting cabin ontology 510 and ash bucket 513 is blocked by dust, by sliding up and down dredging bar 515, drive dredging brush 514 push blocking dusts, while to the interface channel between dedusting cabin ontology 510 and ash bucket 513 into Row cleaning, solves the problems, such as dust discharge outlet obstruction

As shown in figure 14, in order to enable dredging brush 514 and the dredging direction in ash bucket 513 of bar 515 fixedly to move, ash 513 inner bottom surfaces that struggle against perforation setting guide pipe 517, dredging bar 515 are inserted into guide pipe 517.Above-mentioned technical proposal dredges bar 515 slide in guide pipe 517, keep the direction for dredging the sliding of bar 515 more constant, prevent dredging brush 514 that cannot be directed at dedusting cabin Interface channel between ontology 510 and ash bucket 513.

In order to reduce manpower consumption, fixed setting dredging motor 518 in 513 outside bottom surface of ash bucket and is dredged 517 inner wall of guide pipe Intermeshing helical teeth is arranged in 515 outer wall of through rod, and the output end of dredging motor 518 is fixedly connected with driving gear 519, drives gear Intermeshing helical teeth is arranged in 519 outer wall and dredging 515 outer wall of bar.

Above-mentioned technical proposal, dredging motor 518 drive driving gear 519 to rotate, and driving gear 519 is set with dredging bar 515 Intermeshing helical teeth is set, driving gear 519 is fixed on dredging motor 518, and driving gear 519 drives dredging bar 515 to rotate, Dredge bar 515 during rotation, guide pipe 517 is fixedly installed, so that dredging bar 515 rotates in guide pipe 517, dredges bar 515 move and rotate along 517 axis direction of guide pipe, so that dredging brush 514 be driven to move along 517 axis direction of guide pipe And rotate, final dredging brush 514 can move up and down logical to the connection between dedusting cabin ontology 510 and ash bucket 513 in rotation The dust blocked in road is cleared up.

Above-mentioned technical proposal drives dredging brush 514 to move up and down in rotation to dedusting cabin ontology by dredging motor 518 The dust blocked in interface channel between 510 and ash bucket 513 is cleared up, and is reduced the trouble cleared up manually, has been saved people Power consumption.

As shown in figure 15, in order to fall into the dust inside dedusting cabin ontology 510 more easily in ash bucket 513, preferably Technical solution is, is arranged conically shaped 520 between 510 bottom of dedusting cabin ontology and ash bucket 513, conically shaped 520 respectively with dedusting cabin It is connected at the top of 510 bottom of ontology and ash bucket 513, is connected at the top of the osculum end of conically shaped 520 and ash bucket 513.Above-mentioned technical proposal, Dust precipitates in dedusting cabin ontology 510, falls on conically shaped 520, due to the inner wall of conically shaped 520 be it is inclined, make dust It is not easy on the inner wall for being attached to conically shaped 520, therefore the dust inside dedusting cabin ontology 510 more easily falls into ash bucket 513.

As shown in figure 16, in order to make dredging brush 514 be easier to block between dredging dedusting cabin ontology 510 and ash bucket 513 Dust, preferred technical solution be, dredging brush 514 is taper, and the conehead end of dredging brush 514 is towards dedusting cabin ontology 510.

Above-mentioned technical proposal passes through the ash blocked between the dredging 514 pairs of dedusting cabin ontologies 510 of brush and ash bucket 513 of taper Dirt is cleared up, first taper dredging brush 514 cone head part tap touching blocking dust, due to conehead partial cross section product compared with It is small, make dredging brush 514 be easier to pierce in the dust of blocking, then the bottom section product of dredging brush 514 is big, it is easier to dust It carries out breaing up cleaning.

As shown in figure 17, in order to make the dust in ash bucket 513 be easier to be discharged, ash discharge telescopic rod is arranged in 513 side of ash bucket 521, ash discharge telescopic rod 521 is fixed at the opposite side of ash hole 516, and ash discharge plate 522, ash discharge is arranged inside ash bucket 513 The telescopic end of telescopic rod 521 is inserted into ash bucket 513, and one of end face of ash discharge plate 522 and the telescopic end of ash discharge telescopic rod 521 are solid Fixed connection, another end face face ash hole 516 of ash discharge plate 522, ash discharge plate 522 and ash discharge telescopic rod 521 be two pieces and It is located at the two sides of dredging bar 515.

Above-mentioned technical proposal after the dust inside ash bucket 513 is filled, opens the side door of ash hole 516, ash discharge telescopic rod 521 push ash discharge plate 522, release ash discharge plate 522 dust inside ash bucket 513 from ash hole 516, ash discharge process is more square Just.

As shown in Figure 18,19, dedusting discharge port connection discharging auger, discharging auger includes auger ontology 610, auger shell 611 and auger motor 612, auger ontology 610 is arranged in auger shell 611, and auger is respectively set in the both ends of auger shell 611 Feed inlet 613 and auger discharging mouth 614, auger motor 612 are located at one end that auger shell 611 is provided with auger discharging mouth 614, The output shaft of auger motor 612 is fixedly connected with the end of auger ontology 610, and throttle orifice is arranged above auger feed inlet 613 615, throttle orifice 615 and auger feed inlet 613 are fixedly connected by support rod 616, throttle orifice 615 and auger feed inlet 613 it Between bellows 617 is set, 617 lower end of bellows is fixedly connected with auger feed inlet 613, and 617 upper port of bellows is fixedly connected Current limiting plate 618,617 upper port of bellows are located in 618 end face of current limiting plate, and the end face of current limiting plate 618 is parallel with throttle orifice 615, Wherein any one side of current limiting plate 618 extends outwardly, and it is straight that the length of 618 outwardly extending portion of current limiting plate is greater than throttle orifice 615 The radial side of diameter, throttle orifice 615 is sliding along the current limliting of the centerline direction setting perforation of current limiting plate 618 Yu 617 upper end of bellows Slot 619, current limiting plate 618 are arranged in current limliting sliding slot 619.

Above-mentioned technical proposal, discharging auger make bellows 617 by pushing current limiting plate 618 to slide in current limliting sliding slot 619 Upper port is connected with throttle orifice 615 or throttle orifice 615 is blocked by current limiting plate 618, so that the inlet amount of throttle orifice 615 is controlled, It avoids the material of auger feed inlet 613 excessive and is extruded and pulverizes.

As shown in figure 20, in order to reduce the trouble for pushing current limiting plate 618 to slide in current limliting sliding slot 619 manually, preferably Technical solution is, current limliting push rod 620 is arranged close to one end of throttle orifice 615 in support rod 616, the telescopic end of current limliting push rod 620 with Current limiting plate 618 is fixedly connected, and center line of the direction of current limliting push rod 620 along current limiting plate 618 Yu 617 upper end of bellows is arranged.

In order to control the height of excrement particles in bellows 617, controller 621, bellows are set on auger shell 611 617 are radially inside fixedly installed limit push rod 622, and the telescopic end of limit push rod 622 is fixedly connected with stroke limiting stop 623, row For the handle of journey limiter 623 towards auger feed inlet 613, the handle of stroke limiting stop 623 is fixedly connected with limit push plate 624, limit Position push rod 622 is arranged perpendicular to limit push plate 624.

Above-mentioned technical proposal, throttle orifice 615 conveys particle to auger feed inlet 613, while the control limit of controller 621 pushes away 622 reciprocal telescopic movement of bar, with the particle packing in bellows 617, when the particle in bellows 617 reaches limit push rod When 622 height, limit push plate 624 is moved back and forth by the particulate blockage in bellows 617, as limit push rod 622 is after reforwarding It is dynamic, push the handle of stroke limiting stop 623, signal is passed to controller 621 by stroke limiting stop 623, and controller 621 is controlled System limit push rod 622 stops movement, while controlling the stretching of current limliting push rod 620, blocks current limiting plate 618 by throttle orifice 615, thus Control the height of excrement particles in bellows 617.

As shown in figure 21, in order to reduce wall friction in excrement particles and auger shell 611,611 side lower end of auger shell Several inflatable mouths 625 are uniformly arranged, air pump 626 are fixedly installed on 611 side of auger shell, all inflatable mouths 625 pass through distribution Valve 627 is connect with 626 gas outlet of air pump, passes through piping connection between inflatable mouth 625 and air pump 626 and distributing valve 627.It is above-mentioned Technical solution makes in auger shell 611 as in 610 rotation process of auger ontology, air pump 626 imports gas to inflatable mouth 625 Particle below portion is blown by air-flow, reduces the probability that excrement particles are pulverized by auger ontology 610 and auger shell 611.

In order to enable the excrement residue in auger shell 611 to be smoothly discharged from auger discharging mouth 614, preferred technical side Case is that auger shell 611 tilts down setting towards 614 direction of auger discharging mouth by auger feed inlet 613.Above-mentioned technical proposal, Auger shell 611 is obliquely installed, and makes the residue inside auger shell 611 when auger ontology 610 rotates, residue is insufflated mouth The air-flows of 625 discharges are blown afloat, thrust of the residue by gravity and auger ontology 610, as auger ontology 610 is towards auger discharging 614 directions of mouth are mobile, avoid saving bit by bit excessive residue inside auger shell 611.

It is provided by the utility model a kind of brid guano to be processed as in the production line of organic fertilizer particles as shown in Figure 22,23 Siccative storehouse, including siccative storehouse ontology 110 and siccative discharge auger 111, are open, siccative discharging stranding at the top of siccative storehouse ontology 110 Dragon 111 is located at 110 bottom of siccative storehouse ontology, and the wherein any end of siccative discharging auger 111 is arranged siccative discharge port 112, does One end of the corresponding siccative discharge port 112 of material discharging auger 111 is fixedly connected with siccative auger motor 113.

Above-mentioned technical proposal stores dry manure in siccative storehouse ontology 110, by siccative discharge the rotation of auger 111 drive it is dry Excrement in feed bin ontology 110 is discharged from siccative discharge port 112.

Above-mentioned technical proposal stores dry manure in siccative storehouse ontology 110, by siccative discharge the rotation of auger 111 drive it is dry Excrement in feed bin ontology 110 is discharged from siccative discharge port 112, due to siccative discharging 111 uniform rotation of auger, siccative discharge port 112 being capable of discharge excrement equably.In order to make how much excrement no matter stored inside siccative storehouse ontology 110, the excrement of bottom is total The auger 111 that can discharge with siccative contacts, and preferred technical solution is the inclined bottom surface setting of siccative storehouse ontology 110, siccative storehouse sheet Body 110 is higher than the height of one end far from siccative discharge port 112 close to the height of one end of siccative discharge port 112；Siccative storehouse sheet The width of two sides of the corresponding siccative discharging auger 111 of body 110 from top to bottom is gradually reduced, until siccative storehouse ontology 110 Side wall close to siccative discharging auger 111 side.

Above-mentioned technical proposal, 110 internal storage excrement of siccative storehouse ontology, excrement are enable excrement clock by gravity Enough to contact with discharging auger, the excrement in siccative storehouse ontology 110 can be contacted with siccative discharging auger 111, excrement discharge speed It spends more stable.

In order to improve discharging speed and discharging stability, the number of siccative discharging auger 111 is two, two siccatives dischargings Auger 111 is arranged in parallel, and one end of each corresponding siccative discharge port 112 of siccative discharging auger 111 is fixedly connected with siccative auger Motor 113.In the present embodiment, two siccative discharging augers 111 are that siccative disposed in parallel discharges auger 111 towards the two Between direction rotate, the excrement in siccative storehouse ontology 110 is preferentially discharged 111 rows of auger by two siccatives disposed in parallel from intermediate Out.Above-mentioned technical proposal, two siccative discharging augers 111 disposed in parallel are rotated towards direction between the two, siccative storehouse sheet Excrement in body 110 is preferentially discharged by two siccative discharging augers 111 disposed in parallel from intermediate, in siccative storehouse ontology 110 Excrement can be more uniformly discharged.

As shown in Figure 24,25, since the speed that excrement residue is discharged in siccative discharging auger 111 is slow, siccative storehouse in order to prevent Excessive excrement residue is accumulated in ontology 110, preferred technical solution is to be fixedly connected with residue storehouse below siccative storehouse ontology 110 114, ontology 110 bottom in siccative storehouse is uniformly arranged several material spilling holes 115.

Residue storehouse 114 is drained in order to accelerate excrement residue in siccative storehouse ontology 110, the fixation of 110 bottom of siccative storehouse ontology is set Set vibrating motor 116.

It is processed, is arranged in residue storehouse 114 defeated in order to make the excrement residue in residue storehouse 114 be able to enter subsequent processing Belt 117 is sent, conveyor belt 117 is parallel to the setting of 110 bottom surface of siccative storehouse ontology, and the inner ring both ends of conveyor belt 117 are respectively provided with Roller, roller are fixed on residue storehouse 114 by shaft, and the side wall in residue storehouse 114 is fixedly connected with rotating electric machine 118, wherein one The shaft of a roller is fixedly connected with the output shaft of rotating electric machine 118, and residue storehouse 114 is connected to siccative discharge port 112, belt pair The end of siccative discharge port 112 is answered to protrude into siccative discharge port 112.

In order to accelerate the velocity of discharge of excrement residue in residue storehouse 114, vertical uniform several gears of setting in conveyor belt 117 Flitch 119.

Above-mentioned technical proposal shakes motor vibrations, drains to the excrement residue of bottom on the belt in residue storehouse 114, leads to Crossing belt rotation drives excrement residue to be discharged to siccative discharge port 112, so that excrement residue is fully utilized, while siccative storehouse sheet Body 110 will not influence discharging speed by excrement residue.

As shown in Figure 26,27, in order to avoid in siccative storehouse ontology 110 there are the material that can not convey of siccative discharging auger, Preferred technical solution is that setting sieve flitch 120 in 110 top of siccative storehouse ontology sieves and is uniformly arranged several drain spouts on flitch 120 121.It is fallen into siccative storehouse ontology 110 to accelerate to sieve the material on flitch 120, preferred technical solution is siccative storehouse ontology The two side walls of 110 corresponding siccative discharging 111 length directions of auger are oppositely arranged sieve material sliding groove 122, and sieve flitch 120 is corresponding dry In two sieve material sliding grooves 122, sieve flitch 120 goes out far from siccative for the two side walls setting of material discharging 111 length direction of auger Setting sieve material push rod 123 between 110 side wall of one end and siccative storehouse ontology of material mouth 112, the pedestal of sieve material push rod 123 and siccative storehouse 110 side wall of ontology is fixedly connected, and sieve material 123 telescopic end of push rod is fixedly connected with sieve flitch 120, and ontology 110 side wall in siccative storehouse is set Sieve material controller 124 is set, sieve material push rod 123 is electrically connected with sieve material controller 124.

In order to which the bulk materials crushing sieved on flitch 120 is placed into siccative storehouse ontology 110, preferred technical solution For sieve 120 center of flitch opens up center material mouth 125, and particle net 126, particle net is arranged in the underface of center material mouth 125 126 are fixedly connected with 110 side wall of siccative storehouse ontology, and the area of particle net 126 is less than the area of center material mouth 125, particle net 126 Side and the side of center material mouth 125 connect by boss type teleflex 127, several particles are uniformly opened up on particle net 126 Particle push rod 129 is arranged in the surface of mouth 128, particle net 126, if 129 bottom end of particle push rod corresponds to particle mouth 128 and dry crushing is arranged Expect that block 130,130 sectional area of particle block are less than 128 area of particle mouth, 129 top of particle push rod is fixed by particle support frame 131 It is connected on siccative storehouse ontology 110, particle push rod 129 is electrically connected with sieve material controller 124.

In above-mentioned technical proposal, material is fallen on sieve flitch 120, and it is past to lead to the control sieve material push rod 123 of sieving materials controller 124 Multiple movement moves back and forth sieve flitch 120 in sieve material sliding groove 122, so that it is dry to drain to piece material by drain spout 121 In feed bin ontology 110；Then since sieve flitch 120 moves back and forth, so that bulk materials are assembled among sieve flitch 120, then It is fallen on particle net 126 by boss type teleflex 127, controller control particle push rod 129 pumps, and makes particle block In 130 reciprocal insertion particle mouths 128, so that the bulk materials on particle net 126 are by the extruding of particle block 130 and particle net 126 And crush, it eventually falls into siccative storehouse ontology 110.

Above-mentioned technical proposal is moved back and forth by sieve flitch 120, piece material is made to drain to siccative storehouse by drain spout 121 In ontology 110, bulk materials are crushed by particle block 130 and the extruding of particle net 126, the material of crushing enters siccative storehouse sheet It in body 110, prevents in siccative storehouse ontology 110 that there are bulk materials to influence discharging speed, and then improves speed of production.

Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art Novel spirit and scope.If in this way, these modifications and variations of the present invention belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to include these modifications and variations.

Claims (10)

1. a kind of production line that brid guano is processed as to organic fertilizer particles, including the pulverizer, facility for granulating, cooling being connected to each other Storehouse, cyclone dust collectors, discharging auger, siccative storehouse and sieve flitch, it is characterised in that:

Pulverizer includes crushing feed bin (210), crushes and pulverizing material inlet (213) are arranged at the top of feed bin (210), crush feed bin (210) bottom setting pulverizing discharging opening (214)；

Facility for granulating includes granulator ontology (310), and granulator ontology (310) inner upper is arranged feeding chamber (311), crushes out Material mouth (214) is connect with feeding chamber (311), and binder storehouse (312) are arranged in granulator ontology (310) lower inside, binder storehouse (312) It is connected to feeding chamber (311), compressing rod (313) is set inside binder storehouse (312), it is living that binder is also set up inside binder storehouse (312) It fills in (314), the telescopic end of compressing rod (313) is fixedly connected with binder piston (314) center, and compressing rod (313) is fixed at The one end in binder storehouse (312), binder storehouse (312) bottom surface are uniformly arranged several binder outlets far from one end of compressing rod (313) (315)；

Binder storehouse (312) bottom corresponds to binder outlet (315) position setting shear knife (316), and shear knife (316) and binder export (315) it is bonded, two shearing push rods (317), the extension end of two shearings push rod (317) is fixedly installed in binder storehouse (312) bottom It is connected respectively the both ends in shear knife (316)；Setting charging auger (318), feeding chamber (311) side in feeding chamber (311) Wall fixed setting charging motor (319), charging motor (319) output end are fixedly connected with the axle center of charging auger (318), are fed Feed opening (320) are set at the top of storehouse (311), feed opening (320) is located at the side of charging motor (319)；

Atomizer (321) are arranged close to the one end of feed opening (320) in feeding chamber (311), and atomizer (321) is twisted towards charging Air compressor (322), water pump (323) and high pressure tank is arranged in imperial (318) setting, granulator ontology (310) side (324), air compressor (322) and water pump (323) pass through piping connection, air compressor with high pressure tank (324) (322) it is respectively provided with towards high pressure and stores up between high pressure tank (324) and between water pump (323) and high pressure tank (324) The outlet side of the check valve in gas tank (324) direction, high pressure tank (324) is connected to atomizer (321)；

Discharging slideway (325) is also set up inside granulator ontology (310), discharging slideway (325) is being located at binder outlet (315) just Lower section, discharging slideway (325) tilt down setting；

Elevating lever (326) are fixedly installed inside granulator ontology (310), elevating lever (326) is located at below discharging slideway (325), The telescopic end of elevating lever (326) is fixedly connected with slideway bottom surface, and controller (327) are arranged in granulator ontology (310) side, discharging Slideway (325) upper end corresponds to position fixed setting ultrasonic sensor (328) of binder outlet (315), ultrasonic sensor (328), elevating lever (326), shearing push rod (317) are electrically connected respectively at controller (327)；

The two sides of shear knife (316) are respectively provided with blade.

2. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 1, which is characterized in that pulverizer It further include crushing feed bin (210), Disintegrating knife group (211) and crushing motor (212)；

It crushes and pulverizing material inlet (213) is set at the top of feed bin (210), crush feed bin (210) bottom and pulverizing discharging opening is set (214)；

It crushes opposite two side walls on the outside of feed bin (210) and is respectively set and crush motor (212), two crushing motors (212) Output shaft is each perpendicular to crush the lateral wall of feed bin (210), crushes motor (212) and is separately positioned on where crushing motor (212) The two sides of sidewalls vertical center line, and two crushing motor (212) distances crush motor (212) place sidewalls vertical center line It is equidistant；

Feed bin (210) inside is crushed across two Disintegrating knife groups (211) are oppositely arranged, two Disintegrating knife groups (211) are logical It crosses crushing transmission shaft (215) and is connect with the side wall for crushing feed bin (210), two crushing transmission shafts (215) are electric each parallel to crushing The output shaft of machine (212), two crushing transmission shafts (215) are respectively fixedly connected in two axle center, crush transmission shaft (215) One end is fixedly connected with the output shaft for crushing motor (212), and the other end is fixed on the side wall for crushing feed bin (210) by bearing block On, each Disintegrating knife group (211) includes several Disintegrating knifes (216), the Disintegrating knife in Disintegrating knife group (211) (216) it is equally spacedly fixed at and crushes on transmission shaft (215), the outer ring of Disintegrating knife (216) is provided with crushing tooth (217)；

Disintegrating knife (216) staggered cross on two Disintegrating knife groups (211) is arranged, on each Disintegrating knife group (211) Disintegrating knife (216) has in the gap of the Disintegrating knife (216) on partial insertion Disintegrating knife group (211) on the other side；

The opposite two side walls of pulverizing material inlet (213) are fixedly installed respectively crushes guide plate (220), two crushing guide plates (220) length direction is each along transmission shaft (215) setting is crushed, and crushing guide plate (220) tilts down and and Disintegrating knife Group (211) has slight gap, and the bottom end of two crushing guide plates (220) is close to the centre of two Disintegrating knife groups (211) Position；

The upper end of two crushing guide plate (220) opposite flanks, which is respectively provided with, crushes electric putter (221), two crushing electric putters (221) height is identical, two crush electric putter (221) each along crush guide plate (220) end face perpendicular to Disintegrating knife Group (211) is arranged, and is respectively provided on two crushing guide plates (220) and crushes pressing plate (222), each to crush stretching for electric putter (221) Outlet is fixedly connected with corresponding crushing pressing plate (222), is crushed pressing plate (222) level and is parallel to Disintegrating knife group (211) Setting.

3. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 2, which is characterized in that crushed material The setting of storehouse (210) bottom crushes conveyer device&apos (218), and the feed inlet for crushing conveyer device&apos (218) and pulverizing discharging opening (214) are even It connects, crushes conveyer device&apos (218) and be obliquely installed, the discharge port for crushing conveyer device&apos (218), which is located at, crushes conveyer device&apos (218) The top of feed inlet, the discharge end setting for crushing conveyer device&apos (218) crush conveying motor (219), crush conveying motor (219) Output shaft with crush conveyer device&apos (218) rotation axis be fixedly connected.

4. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 1, which is characterized in that binder goes out Mouth (315) is connected with cooling storehouse by particle conveyer belt, and cooling storehouse includes: cooling storehouse ontology (410), cooling storehouse ontology (410) Top is arranged cooling feed inlet (411), and cooling discharging mouth (412) are arranged in cooling storehouse ontology (410) bottom, cooling storehouse ontology (410) several cooling air inlets (413) for leading to its inside are arranged in bottom, and cold wind is fixedly installed in cooling storehouse ontology (410) side wall The air outlet of machine (414), air-cooler (414) is connected to cooling air inlet (413)；The setting of cooling storehouse ontology (410) side upper end Cooling air outlet (415)；

Cooling storehouse ontology (410) lower inside is arranged particle and discharges auger (416), and particle discharges auger (416) along cooling storehouse sheet The setting of body (410) length direction, cooling storehouse ontology (410) correspond in axial two sides of particle discharging auger (416) wherein Particle discharging machine (417) are fixedly installed in any one side, the end of particle discharging auger (416) and particle discharging machine (417) it is fixedly connected, particle discharging auger (416) one end and cooling storehouse ontology (410) far from particle discharging machine (417) Side wall is fixedly connected by bearing block, and cooling discharging mouth (412) setting is in cooling storehouse ontology (410) far from particle discharging machine (417) on the side wall of one end, corresponding particle discharging auger (416) setting of cooling discharging mouth (412)；Cooling air inlet (413) edge Particle discharging auger (416) is axially arranged, and cooling air inlet (413) is located at below particle discharging auger (416)；

The width that cooling storehouse ontology (410) is parallel between the two side walls of particle discharging auger (416) from top to bottom gradually becomes It is small until close to particle discharge auger (416) two sides；

The first striker plate (418) are arranged in the internal one end close to cooling discharging mouth (412) of cooling storehouse ontology (410), the first backgauge Plate (418) is parallel to the end face that cooling storehouse ontology (410) is provided with cooling discharging mouth (412), the first striker plate (418) two sides The two side walls for being parallel to particle discharging auger (416) with cooling storehouse ontology (410) are sealedly and fixedly connected, the first striker plate (418) certain distance is arranged in bottom surface and particle discharging auger (416)；

Cooling discharging mouth (412) upper end is communicated with secondary exhaust pipe (419), and secondary exhaust pipe (419) is vertical and and cooling discharging The mouth end of mouth (412) is oppositely arranged；Secondary cooling pipe (420), secondary cooling pipe are communicated with below cooling discharging mouth (412) (420) it is connected to the air outlet of air-cooler (414)；

Secondary cooling pipe (420) is obliquely installed, and the one end of secondary cooling pipe (420) far from cooling discharging mouth (412) is diagonally downward Setting；Material retaining net (421) are arranged close to the one end of cooling discharging mouth (412) in secondary cooling pipe (420)；

The second striker plate (422) are set inside cooling storehouse ontology (410), the top of the second striker plate (422) and cooling feed inlet (411) side close to cooling discharging mouth (412) connects, two sides and cooling storehouse ontology (410) of the second striker plate (422) The two side walls for being parallel to particle discharging auger (416) are sealedly and fixedly connected, and the second striker plate (422) is obliquely installed, second gear Flitch (422) is located at the top of cooling air outlet (415), and the bottom end of the second striker plate (422) is set far from cooling discharging mouth (412) It sets, the bottom end and cooling storehouse ontology (410) of the second striker plate (422) are provided with the side wall setting one of particle discharging machine (417) Set a distance.

5. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 1, which is characterized in that whirlwind removes Dirt device is connect with cooling discharging mouth (412) upper end, and cyclone dust collectors include dedusting cabin ontology (510), dedusting cabin ontology (510) side Wall setting dedusting air inlet (511) and dedusting air outlet (512), dedusting cabin ontology (510) bottom are communicated with ash bucket (513), ash (514) are brushed in (513) the internal setting dredging that struggles against, and the company between (514) face dedusting cabin ontology (510) and ash bucket (513) is brushed in dredging Road is connected, ash bucket (513) bottom surface is fixedly connected through setting dredging bar (515), dredging bar (515) with dredging brush (514), dedusting Ash hole (516) are arranged in ontology (510) side in storehouse；

Ash bucket (513) inner bottom surface perforation setting guide pipe (517), dredging bar (515) are inserted into guide pipe (517)；

Dredging brush (514) is taper, and the conehead end of dredging brush (514) is towards dedusting cabin ontology (510)；

External bottom surface fixed setting dredging motor (518) of ash bucket (513), guide pipe (517) inner wall and dredging bar (515) outer wall are set Intermeshing helical teeth is set, the output end of dredging motor (518) is fixedly connected with driving gear (519), drives the outer of gear (519) Intermeshing helical teeth is arranged in wall and dredging bar (515) outer wall；

Between dedusting cabin ontology (510) bottom and ash bucket (513) be arranged conically shaped (520), conically shaped (520) respectively with dedusting cabin It is connected at the top of ontology (510) bottom and ash bucket (513), is connected at the top of the osculum end of conically shaped (520) and ash bucket (513)；

Ash discharge telescopic rod (521) are arranged in ash bucket (513) side, and it is opposite that ash discharge telescopic rod (521) is fixed at ash hole (516) Side, ash discharge plate (522) are set inside ash bucket (513), the telescopic end of ash discharge telescopic rod (521) is inserted into ash bucket (513), ash discharge One of end face of plate (522) is fixedly connected with the telescopic end of ash discharge telescopic rod (521), another end of ash discharge plate (522) Face face ash hole (516), ash discharge plate (522) and ash discharge telescopic rod (521) are two pieces and are located at dredging bar (515) Two sides.

6. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 5, which is characterized in that dedusting goes out Material mouth connection discharging auger, discharging auger includes auger ontology (610), auger shell (611) and auger motor (612), auger In auger shell (611), the both ends of auger shell (611) are respectively set auger feed inlet (613) and twist for ontology (610) setting Imperial discharge port (614), auger motor (612) are located at one end that auger shell (611) is provided with auger discharging mouth (614), auger The output shaft of motor (612) is fixedly connected with the end of auger ontology (610), and throttle orifice is arranged above auger feed inlet (613) (615), throttle orifice (615) and auger feed inlet (613) are fixedly connected by support rod (616), throttle orifice (615) and auger into Bellows (617) are set between material mouth (613), bellows (617) lower end is fixedly connected with auger feed inlet (613), bellows (617) upper port is fixedly connected current limiting plate (618), and bellows (617) upper port is located in current limiting plate (618) end face, current limiting plate (618) end face is parallel with throttle orifice (615), and wherein any one side of current limiting plate (618) extends outwardly, current limiting plate (618) The length of outwardly extending portion is greater than throttle orifice (615) diameter, and the radial side of throttle orifice (615) is along current limiting plate (618) and wave The current limliting sliding slot (619) of the centerline direction setting perforation of line pipe (617) upper end, current limiting plate (618) are arranged in current limliting sliding slot (619) in；

Controller (621) are set on auger shell (611), limit push rod is radially inside fixedly installed in bellows (617) (622), the telescopic end for limiting push rod (622) is fixedly connected stroke limiting stop (623), the handle direction of stroke limiting stop (623) Auger feed inlet (613), the handle of stroke limiting stop (623) are fixedly connected with limit push plate (624), and limit push rod (622) is vertical It is arranged in limit push plate (624)；

Auger shell (611) side lower end is uniformly arranged several inflatable mouths (625), is fixedly installed on auger shell (611) side Air pump (626), all inflatable mouths (625) are connect by distributing valve (627) with air pump (626) gas outlet, and inflatable mouth (625) is gentle Pass through piping connection between pump (626) and distributing valve (627).

7. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 6, which is characterized in that auger shell Body (611) tilts down setting towards auger discharging mouth (614) direction by auger feed inlet (613).

8. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 1, which is characterized in that siccative storehouse It is opening, siccative discharging auger at the top of siccative storehouse ontology (110) including siccative storehouse ontology (110) and siccative discharging auger (111) (111) it is located at siccative storehouse ontology (110) bottom, siccative discharge port is arranged in the wherein any end of siccative discharging auger (111) (112), one end of siccative discharging auger (111) corresponding siccative discharge port (112) is fixedly connected with siccative auger motor (113)；

The inclined bottom surface of siccative storehouse ontology (110) is arranged, one end of siccative storehouse ontology (110) close siccative discharge port (112) Height is higher than the height of one end far from siccative discharge port (112)；Corresponding siccative discharging auger (111) of siccative storehouse ontology (110) Two sides width from top to bottom be gradually reduced, until the side wall of siccative storehouse ontology (110) discharges auger close to siccative (111) side；

The number of siccative discharging auger (111) is two, and two siccatives dischargings auger (111) are arranged in parallel, each siccative discharging One end of auger (111) corresponding siccative discharge port (112) is fixedly connected with siccative auger motor (113)；

It is fixedly connected residue storehouse (114) below siccative storehouse ontology (110), siccative storehouse ontology (110) bottom is uniformly arranged several leakages Expect hole (115)；

Vibrating motor (116) are fixedly installed in siccative storehouse ontology (110) bottom；

Conveyor belt (117) are set in residue storehouse (114), conveyor belt (117) is parallel to siccative storehouse ontology (110) bottom surface and sets It sets, the inner ring both ends of conveyor belt (117) are respectively provided with roller, and roller is fixed on residue storehouse (114) by shaft, residue storehouse (114) side wall is fixedly connected rotating electric machine (118), and the shaft of one of roller and the output shaft of rotating electric machine (118) are solid Fixed connection, residue storehouse (114) are connected to siccative discharge port (112), and siccative is protruded into the end that belt corresponds to siccative discharge port (112) In discharge port (112)；

Vertical uniform several striker plates (119) of setting in conveyor belt (117).

9. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 8, which is characterized in that siccative storehouse Ontology (110) top setting sieve flitch (120) sieves and is uniformly arranged several drain spouts (121) on flitch (120)；

The two side walls of corresponding siccative discharging auger (111) length direction of siccative storehouse ontology (110) are oppositely arranged sieve material sliding groove (122), the two side walls setting of corresponding siccative discharging auger (111) length direction of sieve flitch (120) expects sliding groove in two sieves (122) in, sieve flitch (120) is far from setting sieve material between the one end and siccative storehouse ontology (110) side wall of siccative discharge port (112) The pedestal of push rod (123), sieve material push rod (123) is fixedly connected with siccative storehouse ontology (110) side wall, and sieve material push rod (123) is flexible End is fixedly connected with sieve flitch (120), siccative storehouse ontology (110) side wall setting sieve material controller (124), sieve material push rod (123) It is electrically connected with sieve material controller (124).

10. a kind of production line that brid guano is processed as to organic fertilizer particles according to claim 9, which is characterized in that sieve material Plate (120) center opens up center material mouth (125), and particle net (126) are arranged in the underface of center material mouth (125), particle net (126) it being fixedly connected with siccative storehouse ontology (110) side wall, the area of particle net (126) is less than the area of center material mouth (125), The side of particle net (126) is connect with the side of center material mouth (125) by boss type teleflex (127), on particle net (126) Several particle mouths (128) are uniformly opened up, particle push rod (129) are arranged in the surface of particle net (126), particle push rod (129) bottom Hold corresponding particle mouth (128) that several particle blocks (130) are set, particle block (130) sectional area is less than particle mouth (128) area, broken Material push rod (129) top is fixedly connected on siccative storehouse ontology (110) by particle support frame (131), particle push rod (129) with Sieve material controller (124) electrical connection.