CN111875214A - Bio-fertilizer raw materials prepares device - Google Patents

Abstract

The invention relates to a bio-fertilizer processing device, in particular to a bio-fertilizer raw material preparation device. The technical problem of the invention is that: provides a device for preparing a biological fertilizer raw material. A bio-fertilizer raw material preparation device comprises a first support column, a second support column, a third support column, a fourth support column, a dilute filtration mechanism and the like; a mixing and stirring mechanism and a control display screen; one side below the dilute crushing filtering mechanism is welded with the first supporting column and the second supporting column. The invention achieves the effects of efficiently and uniformly mixing the pig manure with the rice bran, the leavening agent and other ingredients, has small occupied area of the device and simple operation, solves the problem that the prepared biological fertilizer is reduced in fertility due to the uneven mixing of the pig manure, the rice bran, the leavening agent and other ingredients during manual mixing, promotes the development of the industry for preparing the biological fertilizer from the pig manure, and protects the environment.

Description

Bio-fertilizer raw materials prepares device

Technical Field

The invention relates to a bio-fertilizer processing device, in particular to a bio-fertilizer raw material preparation device.

Background

Pig manure is the excrement of pig, pig farm is when collecting pig manure, all erode with a large amount of water, then flow into the pig manure pit, because the digestion ability of pig differs, the soft or hard degree of pig manure also can be different, pig farm all can produce a large amount of pig manure every day, and the capacity of pig manure pit is limited, when pig manure is excessive, can only directly discharge in the river, can cause serious environmental pollution problem, consequently, it is necessary to carry out secondary operation to pig manure.

Pig manure can prepare biological fertilizer through fermenting with ingredients such as rice bran and leaven among the prior art, but current pig manure moisture content is high, and the pig manure that moisture content is high is difficult to utilize, when filtering the water in the pig manure, because the pig manure can agglomerate, consequently can block up the filtration pore, and then lead to the filter effect not good, the moisture content is higher than the standard of fermentation, and the pig manure is when preparing biological fertilizer raw materials with rice bran and leaven ingredient mixture, simple manual mixing, it is inhomogeneous to have a large amount of biological fertilizer raw materials to mix, and then lead to the fermentation degree different, thereby lead to the fertility reduction of biological fertilizer.

In summary, there is a need to develop a bio-fertilizer raw material preparation device to overcome the above problems.

Disclosure of Invention

In order to overcome the defects that in the prior art, the pig manure can be fermented with rice bran, a leavening agent and other ingredients to prepare the biological fertilizer, but the water content of the existing pig manure is high, the pig manure with high water content is difficult to utilize, when water in the pig manure is filtered, the pig manure can be caked, so that a filter hole can be blocked, the filtering effect is poor, the water content is higher than the fermentation standard, and when the pig manure is mixed with the rice bran and the leavening agent to prepare the biological fertilizer raw material, the pig manure is simply and manually mixed, a large amount of biological fertilizer raw material is not uniformly mixed, the fermentation degree is different, and the fertility of the biological fertilizer is reduced, the invention has the technical problems that: provides a device for preparing a biological fertilizer raw material.

A bio-fertilizer raw material preparation device comprises a first support column, a second support column, a third support column, a fourth support column, a rare crushing and filtering mechanism, a mixing and stirring mechanism and a control display screen; one side below the dilute crushing filtering mechanism is welded with the first supporting column and the second supporting column; the other side below the dilute crushing filtering mechanism is welded with the third supporting column and the fourth supporting column; one end of the dilute filtration mechanism, which is close to the first support column and the second support column, is provided with a control display screen; one end of the dilute crushing and filtering mechanism, which is close to the third supporting column, is connected with the mixing and stirring mechanism.

Further explaining, the rare crushing filtering mechanism further comprises a supporting frame, a first motor, a second motor, a manure pump, a first driving wheel, a second driving wheel, a filtering cabin, a first filter screen, a second filter screen, a sewage discharge outlet, a first plastic pipe, a second plastic pipe, a connector, a equipartition device, a nozzle, a first chute, a second chute, a third driving wheel, a fourth driving wheel, a first gear, a fifth conveying wheel, a second gear, a rack, a first connecting block, a first driving rod, a first limiting column, a first sliding block, a feeding plate, a second sliding block, a second limiting column, a first limiting block and a second limiting block; a first motor and a second motor are arranged on one side of the support frame; a feces pump is arranged on the other side of the support frame; the upper part of the support frame is welded with the filtering cabin; the output shaft of the first motor is in transmission connection with the first transmission wheel; the output shaft of the second motor is in transmission connection with a second transmission wheel; the outer ring surface of the second transmission wheel is in transmission connection with the third transmission wheel through a belt; a first filter screen is arranged in the middle of the filter cabin; a second filter screen is arranged below the filter cabin; a sewage draining outlet is formed in one end, close to the fifth conveying wheel, of the filtering cabin; a first chute is arranged at one side of the filtering cabin; a second chute is arranged on the other side of the filtering cabin; the excrement pump is connected with the first plastic pipe and the second plastic pipe; the upper part of the second plastic pipe is connected with the connector; one end of the connector, which is close to the feeding plate, is connected with the equipartition device; a nozzle is arranged on one side of the equipartition device away from the connector; the axle center of the third driving wheel is rotationally connected with the fourth driving wheel; the axle center of the fourth transmission wheel is rotationally connected with the first gear; the outer ring surface of the fourth transmission wheel is in transmission connection with the fifth transmission wheel through a belt; one side below the rack is meshed with the first gear; the other side below the rack is meshed with a second gear, and the axle center of the second gear is rotationally connected with a fifth transmission wheel; the middle part above the rack is welded with the first connecting block; the first connecting block is rotationally connected with the first transmission rod; a first limiting column and a first sliding block are arranged on one side of the first transmission rod, and the middle part of the outer surface of the first sliding block is in sliding connection with the first sliding chute; a second sliding block and a second limiting column are arranged on the other side of the first transmission rod, and the middle part of the outer surface of the second sliding block is in sliding connection with a second sliding groove; the middle part of the outer surface of the first transmission rod is welded with the feeding plate; one end of the first sliding block, which is close to the first limiting column, is welded with the first limiting block; one end of the second sliding block, which is close to the second limiting column, is welded with the second limiting block; the first driving wheel is connected with the mixing and stirring mechanism; the filtering cabin is welded with the mixing and stirring mechanism.

Further explaining, the mixing and stirring mechanism further comprises a mixing cabin, a concave block, a second connecting block, a discharging cabin, a rotary discharger, a sixth driving wheel, a seventh driving wheel, an eighth driving wheel, a first bevel gear, a second driving rod, an L-shaped connecting plate, a ninth driving wheel, a third bevel gear, a fourth bevel gear, a tenth driving wheel, an eleventh driving wheel, a first reversing gear, a second reversing gear, a first stirrer, a second stirrer, a twelfth driving wheel, a third driving rod, a spiral stirrer, a stirring cylinder and a third connecting block; one side of the lower part in the mixing cabin is welded with the lower concave block; the other side of the lower part in the mixing cabin is welded with the stirring cylinder; one side of the mixing cabin is welded with the second connecting block; the other side of the mixing cabin is welded with a third connecting block; the second connecting block and the third connecting block are welded with the blanking cabin; the lower part in the blanking cabin is rotationally connected with a rotary blanking device; the rotary feeder is rotationally connected with a sixth driving wheel through a rotating shaft; the axle center of the sixth driving wheel is rotationally connected with the seventh driving wheel; the outer ring of the sixth driving wheel is in transmission connection with the twelfth driving wheel through a belt; the outer ring surface of the seventh transmission wheel is in transmission connection with the eighth transmission wheel through a belt; the axle center of the eighth driving wheel is rotationally connected with the first bevel gear; the first bevel gear and the second bevel gear are meshed with each other; the inner surface of the second bevel gear is rotationally connected with a second transmission rod, and two sides of the outer surface of the second transmission rod are connected with the mixing cabin; the middle part of the outer surface of the second transmission rod is rotationally connected with an L-shaped connecting plate, and the L-shaped connecting plate is rotationally connected with an eighth transmission wheel through a rotating shaft; one side of the outer surface of the second transmission rod is rotationally connected with the ninth transmission wheel; the other side of the outer surface of the second transmission rod is in transmission connection with a third bevel gear; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is in rotary connection with a tenth driving wheel through a rotating shaft; the surface of the outer ring of the tenth driving wheel is in transmission connection with the eleventh driving wheel; the shaft center of the eleventh transmission wheel is rotationally connected with the first reversing gear; the first reversing gear is meshed with the second reversing gear; the first reversing gear is rotationally connected with the first stirrer through a rotating shaft; the second reversing gear is rotationally connected with the second stirrer through a rotating shaft; the inner surface of the twelfth driving wheel is rotationally connected with the third transmission rod; the third transmission rod is rotationally connected with the spiral stirrer; the surface below the mixing cabin is sequentially welded with a first supporting column, a second supporting column, a third supporting column and a fourth supporting column; the outer ring surface of the ninth transmission wheel is in transmission connection with the first transmission wheel through a belt; and one end of the mixing cabin close to the second connecting block is welded with the filtering cabin.

Further, eight groups of nozzles are arranged, and the nozzles are equidistantly arranged on one side of the equipartition device close to the feeding plate.

Further, the second filter is inclined from the drain port toward the first driving wheel.

Further, the distance between the lower part of the feeding plate and the first filter screen is five to ten millimeters.

Further, one side above the lower concave block is concave downwards, and the other side is provided with an inclined plane.

Further, six groups of blades are equidistantly arranged on the outer surface of the rotary feeder.

The beneficial effects are that: in order to solve the problems that in the prior art, the pig manure can be fermented with rice bran, a leavening agent and other ingredients to prepare the biological fertilizer, but the existing pig manure is high in water content and difficult to utilize, when water in the pig manure is filtered, the pig manure can be caked, so that filter holes can be blocked, the filtering effect is poor, the water content is higher than the fermentation standard, and when the pig manure is mixed with the rice bran and the leavening agent to prepare the biological fertilizer raw material, the pig manure is simply and manually mixed, so that a large amount of biological fertilizer raw material is not uniformly mixed, the fermentation degree is different, and the fertility of the biological fertilizer is reduced, a dilute filtering mechanism and a mixing and stirring mechanism are designed, when the pig manure is used, the pig manure is filtered by the dilute filtering mechanism, excessive water is removed, the caked pig manure is dilute to obtain sludge-shaped pig manure, then the sludge-shaped pig manure enters the mixing and stirring mechanism to be uniformly mixed with the rice bran, the leavening agent and other ingredients, and mix the rabbling mechanism and carry out the secondary stirring to the mixture of pig manure and rice bran, and then obtained the biological fertilizer raw materials of misce bene, reached high-efficient with ingredient misce bene such as pig manure and rice bran and leaven, device area is little and easy operation, when having solved artifical mixxing, pig manure and ingredients such as rice bran and leaven misce bene, and then lead to the fertility reduction of the biological fertilizer who prepares, promoted the development that the biological fertilizer industry was prepared to the pig manure, the effect of environmental protection.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic view of a first embodiment of the rarefaction filter mechanism of the present invention;

FIG. 4 is a schematic view of a second embodiment of the rarefaction filter mechanism of the present invention;

FIG. 5 is a schematic diagram of a first three-dimensional structure of the mixing and stirring mechanism of the present invention;

FIG. 6 is a schematic diagram of a second three-dimensional structure of the mixing and stirring mechanism of the present invention;

FIG. 7 is a combination view of the concave block, the blanking chamber and the rotary blanking device of the present invention;

FIG. 8 is an enlarged view of area A of the present invention;

FIG. 9 is an enlarged view of area B of the present invention;

FIG. 10 is an enlarged view of region C of the present invention.

Part names and serial numbers in the figure: 1_ first support column, 2_ second support column, 3_ third support column, 4_ fourth support column, 5_ dilute filtration mechanism, 6_ mixing agitation mechanism, 7_ control display screen, 501_ support frame, 502_ first motor, 503_ second motor, 504_ feces pump, 505_ first drive wheel, 506_ second drive wheel, 507_ filtration cabin, 508_ first filter screen, 509_ second filter screen, 5010_ drain, 5011_ first plastic tube, 5012_ second plastic tube, 5013_ connector, 5014_ equipartition device, 5015_ spout, 5016_ first chute, 5017_ second chute, 5018_ third drive wheel, 5019_ fourth drive wheel, 5020_ first gear, 5021_ fifth drive wheel, 5022_ second gear, 5023_ rack, 5024_ first linkage, 5025_ first drive rod, 5026_ first limit column, 7_ first slider, 5028_ second slider, 5029_ second plate, 5030_ second limiting column, 5031_ first limiting block, 5032_ second limiting block, 601_ mixing chamber, 602_ recessed block, 603_ second connecting block, 604_ blanking chamber, 605_ rotary blanking device, 606_ sixth driving wheel, 607_ seventh driving wheel, 608_ eighth driving wheel, 609_ first bevel gear, 6010_ second bevel gear, 6011_ second driving rod, 6012_ L-shaped connecting plate, 6013_ ninth driving wheel, 6014_ third bevel gear, 6015_ fourth bevel gear, 6016_ tenth driving wheel, 6017_ eleventh driving wheel, 6018_ first reversing gear, 6019_ second reversing gear, 6020_ first stirrer, 6021_ second stirrer, 6022_ twelfth driving wheel, 6023_ third driving rod, 6024_ helical stirrer, 6025_ stirring cylinder, 6026_ third connecting block.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

A bio-fertilizer raw material preparation device, as shown in fig. 1-10, comprising a first support column 1, a second support column 2, a third support column 3, a fourth support column 4, a dilute filtration mechanism 5, a mixing and stirring mechanism 6 and a control display screen 7; one side below the dilute filtration mechanism 5 is welded with the first support column 1 and the second support column 2; the other side below the dilute filtration mechanism 5 is welded with the third support column 3 and the fourth support column 4; one end of the rarefied filtering mechanism 5 close to the first supporting column 1 and the second supporting column 2 is provided with a control display screen 7; one end of the dilute filtration mechanism 5 close to the third support column 3 is connected with the mixing and stirring mechanism 6.

When the device is used, the device is horizontally arranged near a pig farm, a power supply is switched on, the control device of the control display screen 7 is switched on to operate, pig manure is firstly sent into the thin crushing filtering mechanism 5 from a pig manure pit, ingredients such as rice bran, leavening agent and the like are added into the mixing and stirring mechanism 6, then the pig manure is filtered through the thin crushing filtering mechanism 5, excessive water is removed, simultaneously, the agglomerated pig manure is thin crushed to obtain sludge-shaped pig manure, then the sludge-shaped pig manure enters the mixing and stirring mechanism 6 to be uniformly mixed with the ingredients such as the rice bran, the leavening agent and the like, the mixing and stirring mechanism 6 carries out secondary stirring on the mixture of the pig manure and the rice bran, so that uniformly mixed biological fertilizer raw materials are obtained, the purposes of uniformly mixing the pig manure, the rice bran, the leavening agent and the like with high efficiency are achieved, the device has small floor area and simple operation, the problem that when manual mixing is carried out, the ingredients such as the pig manure, the rice, thereby reducing the fertility of the prepared biological fertilizer, promoting the development of the biological fertilizer industry prepared from the pig manure and having the effect of protecting the environment.

The dilute crushing filtering mechanism 5 further comprises a support frame 501, a first motor 502, a second motor 503, a feces pump 504, a first driving wheel 505, a second driving wheel 506, a filtering cabin 507, a first filtering net 508, a second filtering net 509, a sewage outlet 5010, a first plastic pipe 5011, a second plastic pipe 5012, a connector 5013, a equipartition device 5014, a nozzle 5015, a first sliding groove 5016, a second sliding groove 5017, a third driving wheel 5018, a fourth driving wheel 5019, a first gear 5020, a fifth driving wheel 5021, a second gear 5022, a rack 5023, a first connecting block 5024, a first driving rod 5025, a first limit column 5026, a first sliding block 5027, a feeding plate 5028, a second sliding block 5029, a second limit column 5030, a first limit block 5031 and a second limit block 5032; a first motor 502 and a second motor 503 are arranged on one side of the support frame 501; a feces pump 504 is arranged on the other side of the support frame 501; the upper part of the support frame 501 is welded with the filtering cabin 507; an output shaft of the first motor 502 is in transmission connection with a first transmission wheel 505; an output shaft of the second motor 503 is in transmission connection with a second transmission wheel 506; the outer ring surface of the second transmission wheel 506 is in transmission connection with a third transmission wheel 5018 through a belt; a first filter screen 508 is arranged in the middle of the filter cabin 507; a second filter screen 509 is arranged below the inside of the filter cabin 507; a sewage outlet 5010 is formed in one end, close to the fifth transmission wheel 5021, of the filtering cabin 507; a first sliding chute 5016 is arranged on one side of the filtering cabin 507; the other side of the filtering cabin 507 is provided with a second sliding chute 5017; the fecal pump 504 is connected with a first plastic tube 5011 and a second plastic tube 5012; the upper part of the second plastic pipe 5012 is connected with a connector 5013; one end of the connector 5013 close to the feeding plate 5028 is connected with the equipartition device 5014; one side of the divider 5014 far away from the connector 5013 is provided with a nozzle 5015; the axle center of the third transmission wheel 5018 is rotationally connected with the fourth transmission wheel 5019; the axle center of the fourth transmission wheel 5019 is rotationally connected with the first gear 5020; the outer ring surface of the fourth transmission wheel 5019 is in transmission connection with a fifth transmission wheel 5021 through a belt; one side below the rack 5023 is meshed with the first gear 5020; the other side below the rack 5023 is meshed with a second gear 5022, and the axis of the second gear 5022 is rotatably connected with a fifth transmission wheel 5021; the middle part above the rack 5023 is welded with the first connecting block 5024; the first link block 5024 is rotatably connected with the first transmission rod 5025; a first limit column 5026 and a first slider 5027 are arranged on one side of the first transmission rod 5025, and the middle part of the outer surface of the first slider 5027 is in sliding connection with a first sliding groove 5016; the other side of the first transmission rod 5025 is provided with a second slider 5029 and a second limit column 5030, and the middle part of the outer surface of the second slider 5029 is in sliding connection with a second sliding slot 5017; the middle part of the outer surface of the first transmission rod 5025 is welded with the feeding plate 5028; one end of the first slider 5027 close to the first limit column 5026 is welded with the first limit block 5031; one end of the second slider 5029, which is close to the second limiting column 5030, is welded with the second limiting block 5032; the first driving wheel 505 is connected with the mixing and stirring mechanism 6; the filtering cabin 507 is welded with the mixing and stirring mechanism 6.

Firstly, a sewage outlet 5010 is connected into a sewage ditch through an external pipeline, a manure pit for collecting pig manure is communicated through a first plastic pipe 5011, then a manure pump 504 is electrified, the pig manure is further sent into a equipartition device 5014 through a second plastic pipe 5012, then the pig manure is downwards sprayed out from a nozzle 5015 through the equipartition device 5014 and further evenly sprayed on a first filter screen 508, then water circulating in the pig manure falls downwards to the inner lower part of a filter cabin 507 through the first filter screen 508, then the water is discharged out of the device from the sewage outlet 5010 and flows into the sewage ditch, when the pig manure falls onto the first filter screen 508, a second motor 503 rotates in the forward direction, an output shaft of the second motor 503 drives a second transmission wheel 506 to rotate, the second transmission wheel 506 drives a third transmission wheel 5018 to rotate through a belt, the axle center of the third transmission wheel 5018 drives a fourth transmission wheel 5019 to rotate, and the fourth transmission wheel 5019 drives a first gear 5020 to rotate through a rotating shaft, meanwhile, a fifth transmission wheel 5021 is driven by a fourth transmission wheel 5019 through a belt to rotate, a fifth transmission wheel 5021 drives a second gear 5022 to rotate through a rotating shaft, when the third transmission wheel 5018 looks towards the fourth transmission wheel 5019, a first gear 5020 and a second gear 5022 rotate clockwise, then the first gear 5020 and the second gear 5022 drive a rack 5023 together to transmit, further the rack 5023 moves towards the second gear 5022 towards the first gear 5020, the rack 5023 drives a first connecting block 5024 to move, further the first transmission rod 5025 and a feeding plate 5028 are driven to move, further the feeding plate 5028 pushes pig manure towards the direction far away from the equipartition device 5014, then the pig manure is fed into a mixing and stirring mechanism 6 from the upper half part of a filtering cabin 507, meanwhile, when the lower half part of the feeding plate 5028 drives the pig manure to move towards the direction far away from the equipartition device 5014, the pig manure can be pushed against the feeding plate 5028, and further the equipartition device 5014 has a tendency that the first transmission rod 5015 rotates, looking from the third driving wheel 5018 to the fourth driving wheel 5019, the equipartition device 5014 is about to rotate clockwise, when the equipartition device 5014 is about to rotate, the lower half part of the first limiting column 5026 is clamped by the first limiting block 5031, so that the first limiting column 5026 is kept vertical, and the lower half part of the second limiting column 5030 is also clamped by the second limiting block 5032, so that the feeding plate 5028 is kept vertical all the time in the process of feeding pig manure into the mixing and stirring mechanism 6, when the feeding plate 5028 feeds the pig manure into the mixing and stirring mechanism 6, the pig manure blocked on the first filter screen 508 is also extruded downwards and then falls onto the second filter screen 509 at the inner lower part of the filter cabin 507, then the pig manure is flushed into a sludge shape by water flowing down from the first filter screen 508 and then flows into the thin-crushing filter mechanism 5 from the upper part of the second filter screen 509, and excess water falls into the inner lower part of the filter cabin 507 through the second filter screen 509, then, when the feeding plate 5028 moves to the end far away from the equipartition device 5014, the second motor 503 rotates reversely, so that the rack 5023 moves towards the first gear 5020 towards the second gear 5022 under the action of the first gear 5020 and the second gear 5022, and then the feeding plate 5028 is driven to move towards the direction, in the process of the reverse movement of the feeding plate 5028, the lower half part of the feeding plate 5028 also receives a force opposite to the moving direction when pushing pig manure, because the first limit column 5026 is not limited by the first limit block 5031, and the second limit column 5032 is not limited at the same time, the feeding plate 5028 rotates around the first transmission rod 5025 by about twenty degrees, when viewed from the third transmission wheel towards the fourth transmission wheel 5019, the feeding plate 8 rotates counterclockwise, so that the feeding plate 5028 pushes caked pig manure towards the equipartition device 5014, and when the caked pig manure is pushed by the feeding plate 5028, the filter hole that cooperates first filter screen 508 makes the pig manure rarefaction, the later rarefaction pig manure can be washed by the water that follow-up sent into in the pig manure and become the silt form, and the pig manure that originally is just the silt form then can follow the clearance of pay-off board 5028 below and first filter screen 508 and flow into in mixing rabbling mechanism 6 from first filter screen 508, when pay-off board 5028 removed, slide in first spout 5016 through first slider 5027, second slider 5029 slides in second spout 5017, guarantee its level steady movement, this mechanism has realized the part rarefaction of caking in the pig manure, and the filter hole can not be blockked up to the pig manure when filtering, make the pig manure that sends into in mixing rabbling mechanism 6 at last all be similar to the silt form, the water content is moderate.

The mixing and stirring mechanism 6 further comprises a mixing cabin 601, a concave block 602, a second connecting block 603, a blanking cabin 604, a rotary blanking device 605, a sixth driving wheel 606, a seventh driving wheel 607, an eighth driving wheel 608, a first bevel gear 609, a second bevel gear 6010, a second driving rod 6011, an L-shaped connecting plate 6012, a ninth driving wheel 6013, a third bevel gear 6014, a fourth bevel gear 6015, a tenth driving wheel 6016, an eleventh driving wheel 6017, a first reversing gear 6018, a second reversing gear 6019, a first stirrer 6020, a second stirrer 6021, a twelfth driving wheel 6022, a third driving rod 6023, a helical stirrer 6024, a stirring cylinder 6025 and a third connecting block 6026; one side of the lower part in the mixing cabin 601 is welded with the lower concave block 602; the other side of the lower part in the mixing cabin 601 is welded with the stirring cylinder 6025; one side of the mixing cabin 601 is welded with the second connecting block 603; the other side of the mixing cabin 601 is welded with a third connecting block 6026; the second connecting block 603 and the third connecting block 6026 are both welded to the blanking chamber 604; the lower part in the blanking cabin 604 is rotationally connected with a rotary blanking device 605; the rotary feeder 605 is rotationally connected with the sixth driving wheel 606 through a rotating shaft; the axle center of the sixth driving wheel 606 is rotationally connected with the seventh driving wheel 607; the outer ring of the sixth driving wheel 606 is in transmission connection with a twelfth driving wheel 6022 through a belt; the outer ring surface of the seventh transmission wheel 607 is in transmission connection with an eighth transmission wheel 608 through a belt; the axle center of the eighth driving wheel 608 is rotationally connected with a first bevel gear 609; the first bevel gear 609 is meshed with the second bevel gear 6010; the inner surface of the second bevel gear 6010 is rotatably connected with a second transmission rod 6011, and both sides of the outer surface of the second transmission rod 6011 are connected with the mixing cabin 601; the middle part of the outer surface of the second transmission rod 6011 is rotatably connected with an L-shaped connecting plate 6012, and the L-shaped connecting plate 6012 is rotatably connected with an eighth transmission wheel 608 through a rotating shaft; one side of the outer surface of the second transmission rod 6011 is rotatably connected with a ninth transmission wheel 6013; the other side of the outer surface of the second transmission rod 6011 is in transmission connection with a third bevel gear 6014; the third bevel gear 6014 and the fourth bevel gear 6015 are engaged with each other; a fourth bevel gear 6015 is rotationally connected with a tenth driving wheel 6016 through a rotating shaft; the outer ring surface of the tenth driving wheel 6016 is in driving connection with an eleventh driving wheel 6017; the shaft center of the eleventh transmission wheel 6017 is rotatably connected with a first reversing gear 6018; the first direction changing gear 6018 and the second direction changing gear 6019 are engaged with each other; the first reversing gear 6018 is rotationally connected with the first stirrer 6020 through a rotating shaft; the second reversing gear 6019 is rotationally connected with the second stirrer 6021 through a rotating shaft; the inner surface of the twelfth driving wheel 6022 is rotationally connected with the third driving rod 6023; the third transmission rod 6023 is rotatably connected with the spiral stirrer 6024; the surface below the mixing cabin 601 is sequentially welded with a first supporting column 1, a second supporting column 2, a third supporting column 3 and a fourth supporting column 4; the outer ring surface of the ninth driving wheel 6013 is in driving connection with the first driving wheel 505 through a belt; the end of the mixing chamber 601 near the second connecting block 603 is welded to the filtering chamber 507.

Firstly, ingredients such as rice bran, leavening agent and the like are added into a blanking cabin 604, pig manure treated by a dilute crushing and filtering mechanism 5 firstly falls on a lower concave block 602, then a small part of the pig manure is stacked on the lower concave block, then a part of sludge-shaped pig manure uniformly flows to the position under the blanking cabin 604 from the lower concave block 602, at the moment, a second motor 503 rotates, an output shaft of the second motor 503 drives a first transmission wheel 505 to rotate, the first transmission wheel 505 drives a ninth transmission wheel 6013 to rotate through a belt, an inner surface of the ninth transmission wheel 6013 drives a second transmission rod 6011 to rotate, a middle part of an outer surface of the second transmission rod 6011 drives a second bevel gear 6010 to rotate, the second bevel gear 6010 drives a first bevel gear 609 meshed with the first bevel gear 609 to rotate, the first bevel gear 609 drives an eighth transmission wheel 608 to rotate, the eighth transmission wheel 608 drives a seventh transmission wheel 607 to rotate through a belt, and the seventh transmission wheel 607 drives a rotary blanking device, when the rotary blanking device 605 rotates sixty degrees, a part of ingredients are driven to rotate, then the ingredients drop downwards to the pig manure just below the rotary blanking device when moving to the position of the opening below the blanking cabin 604, so that the rice bran and the pig manure are uniformly mixed, then the pig manure mixture moves to one side of the first stirrer 6020 and the second stirrer 6021 close to the concave block 602, at the time, the outer surface of the second transmission rod 6011 drives the third conical gear 6014 to rotate, the third conical gear 6014 drives the fourth conical gear 6015 meshed with the third conical gear 6014 to rotate, the fourth conical gear 6015 drives the tenth transmission wheel 6016 to rotate through the rotating shaft, the tenth transmission wheel 6016 drives the eleventh transmission wheel 6017 to rotate through the belt, the axis of the eleventh transmission wheel 6017 drives the first reversing gear 6018 to rotate, the first reversing gear 6018 drives the second reversing gear 6019 meshed with the first reversing gear 6018 to rotate, then the first reversing gear 6018 drives the first stirrer 6020 to rotate through the rotating shaft, at the same time, the second reversing gear 6019 drives the second stirrer 6021 to rotate through the rotating shaft, when viewed from above, the first stirrer 6020 rotates clockwise, the second stirrer 6021 rotates counterclockwise, and then the first stirrer 6020 and the second stirrer 6021 which rotate oppositely use six sets of stirring blades equidistantly arranged on the outer surface thereof to stir the pig manure mixture once, and at the same time, the pig manure is sent to the opening of the stirring cylinder 6025 near one end of the concave block 602, and then the pig manure enters between the helical blades of the helical stirrer 6024, at this time, the shaft center of the seventh driving wheel 607 drives the sixth driving wheel 606 to rotate, the sixth driving wheel 606 drives the twelfth driving wheel 6022 to rotate through the belt, further, the inner surface of the twelfth driving wheel 6022 drives the third driving rod 6023 to rotate, and the shaft center of the third driving rod 6023 drives the helical stirrer 6024 to rotate, and then realized that pivoted spiral agitator 6024 utilizes its surperficial installation's heliciform blade to carry out the secondary stirring to the pig manure, simultaneously, move the pig manure towards the direction of keeping away from twelfth drive wheel 6022, the pig manure that stirs evenly at last can follow stirring drum 6025 and keep away from the opening of twelfth drive wheel 6022 one end and leave the device, drop downwards, later will prepare the biological fertilizer raw materials that obtain and collect, this mechanism has realized mixing ingredients such as rice bran and leaven with the pig manure is homogeneous mixing to the mixture has carried out the secondary stirring, has obtained the pig manure biological fertilizer raw materials of misce bene.

Eight groups of nozzles 5015 are arranged, and are equidistantly arranged on one side, close to the feeding plate 5028, of the divider 5014.

So that the pig manure sprayed from the spray nozzles 5015 can be uniformly sprayed on the first filter 508.

The second filter 509 is inclined from the drain 5010 toward the first drive pulley 505.

So that the pig manure on the second filter screen 509 can automatically flow into the mixing and stirring mechanism 6 under the action of gravity.

Wherein, the distance between the lower part of the feeding plate 5028 and the first filter screen 508 is five to ten millimeters.

So that the feeding plate 5028 can press the pig manure blocking the first filter screen 508 downwards when moving vertically and forwards, and the first filter screen 508 is prevented from being blocked by the pig manure.

Wherein, one side of the upper part of the lower concave block 602 is concave downwards, and the other side is provided with an inclined plane.

The sludge-like pig manure is firstly accumulated on one side of the downward depression of the concave block 602, and then the inclined plane on the other side of the concave block 602 is uniformly covered, so that the pig manure can uniformly flow from the inclined plane to the position right below the blanking cabin 604.

Wherein, six groups of blades are equidistantly arranged on the outer surface of the rotary feeder 605.

Ingredients such as rice bran and leavening agent will stay between the two adjacent sets of blades such that a small amount of ingredients will be delivered to the opening directly below the discharge chamber 604 for every sixty degrees of rotation of the rotary discharger 605.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims (8)

1. The utility model provides a device is prepared to bio-fertilizer raw materials, including first support column, second support column, third support column and fourth support column, characterized by: the device also comprises a dilute filtration mechanism, a mixing and stirring mechanism and a control display screen; one side below the dilute crushing filtering mechanism is welded with the first supporting column and the second supporting column; the other side below the dilute crushing filtering mechanism is welded with the third supporting column and the fourth supporting column; one end of the dilute filtration mechanism, which is close to the first support column and the second support column, is provided with a control display screen; one end of the dilute crushing and filtering mechanism, which is close to the third supporting column, is connected with the mixing and stirring mechanism.

2. The device for preparing bio-fertilizer raw material as claimed in claim 1, wherein: the dilute crushing filtering mechanism also comprises a support frame, a first motor, a second motor, a feces pump, a first driving wheel, a second driving wheel, a filtering cabin, a first filter screen, a second filter screen, a sewage discharge outlet, a first plastic pipe, a second plastic pipe, a connector, a divider, a nozzle, a first chute, a second chute, a third driving wheel, a fourth driving wheel, a first gear, a fifth conveying wheel, a second gear, a rack, a first connecting block, a first driving rod, a first limit column, a first sliding block, a feeding plate, a second sliding block, a second limit column, a first limit block and a second limit block; a first motor and a second motor are arranged on one side of the support frame; a feces pump is arranged on the other side of the support frame; the upper part of the support frame is welded with the filtering cabin; the output shaft of the first motor is in transmission connection with the first transmission wheel; the output shaft of the second motor is in transmission connection with a second transmission wheel; the outer ring surface of the second transmission wheel is in transmission connection with the third transmission wheel through a belt; a first filter screen is arranged in the middle of the filter cabin; a second filter screen is arranged below the filter cabin; a sewage draining outlet is formed in one end, close to the fifth conveying wheel, of the filtering cabin; a first chute is arranged at one side of the filtering cabin; a second chute is arranged on the other side of the filtering cabin; the excrement pump is connected with the first plastic pipe and the second plastic pipe; the upper part of the second plastic pipe is connected with the connector; one end of the connector, which is close to the feeding plate, is connected with the equipartition device; a nozzle is arranged on one side of the equipartition device away from the connector; the axle center of the third driving wheel is rotationally connected with the fourth driving wheel; the axle center of the fourth transmission wheel is rotationally connected with the first gear; the outer ring surface of the fourth transmission wheel is in transmission connection with the fifth transmission wheel through a belt; one side below the rack is meshed with the first gear; the other side below the rack is meshed with a second gear, and the axle center of the second gear is rotationally connected with a fifth transmission wheel; the middle part above the rack is welded with the first connecting block; the first connecting block is rotationally connected with the first transmission rod; a first limiting column and a first sliding block are arranged on one side of the first transmission rod, and the middle part of the outer surface of the first sliding block is in sliding connection with the first sliding chute; a second sliding block and a second limiting column are arranged on the other side of the first transmission rod, and the middle part of the outer surface of the second sliding block is in sliding connection with a second sliding groove; the middle part of the outer surface of the first transmission rod is welded with the feeding plate; one end of the first sliding block, which is close to the first limiting column, is welded with the first limiting block; one end of the second sliding block, which is close to the second limiting column, is welded with the second limiting block; the first driving wheel is connected with the mixing and stirring mechanism; the filtering cabin is welded with the mixing and stirring mechanism.

3. The device for preparing bio-fertilizer raw material as claimed in claim 2, wherein: the mixing and stirring mechanism further comprises a mixing cabin, a concave block, a second connecting block, a discharging cabin, a rotary discharging device, a sixth driving wheel, a seventh driving wheel, an eighth driving wheel, a first bevel gear, a second driving rod, an L-shaped connecting plate, a ninth driving wheel, a third bevel gear, a fourth bevel gear, a tenth driving wheel, an eleventh driving wheel, a first reversing gear, a second reversing gear, a first stirrer, a second stirrer, a twelfth driving wheel, a third driving rod, a spiral stirrer, a stirring cylinder and a third connecting block; one side of the lower part in the mixing cabin is welded with the lower concave block; the other side of the lower part in the mixing cabin is welded with the stirring cylinder; one side of the mixing cabin is welded with the second connecting block; the other side of the mixing cabin is welded with a third connecting block; the second connecting block and the third connecting block are welded with the blanking cabin; the lower part in the blanking cabin is rotationally connected with a rotary blanking device; the rotary feeder is rotationally connected with a sixth driving wheel through a rotating shaft; the axle center of the sixth driving wheel is rotationally connected with the seventh driving wheel; the outer ring of the sixth driving wheel is in transmission connection with the twelfth driving wheel through a belt; the outer ring surface of the seventh transmission wheel is in transmission connection with the eighth transmission wheel through a belt; the axle center of the eighth driving wheel is rotationally connected with the first bevel gear; the first bevel gear and the second bevel gear are meshed with each other; the inner surface of the second bevel gear is rotationally connected with a second transmission rod, and two sides of the outer surface of the second transmission rod are connected with the mixing cabin; the middle part of the outer surface of the second transmission rod is rotationally connected with an L-shaped connecting plate, and the L-shaped connecting plate is rotationally connected with an eighth transmission wheel through a rotating shaft; one side of the outer surface of the second transmission rod is rotationally connected with the ninth transmission wheel; the other side of the outer surface of the second transmission rod is in transmission connection with a third bevel gear; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is in rotary connection with a tenth driving wheel through a rotating shaft; the surface of the outer ring of the tenth driving wheel is in transmission connection with the eleventh driving wheel; the shaft center of the eleventh transmission wheel is rotationally connected with the first reversing gear; the first reversing gear is meshed with the second reversing gear; the first reversing gear is rotationally connected with the first stirrer through a rotating shaft; the second reversing gear is rotationally connected with the second stirrer through a rotating shaft; the inner surface of the twelfth driving wheel is rotationally connected with the third transmission rod; the third transmission rod is rotationally connected with the spiral stirrer; the surface below the mixing cabin is sequentially welded with a first supporting column, a second supporting column, a third supporting column and a fourth supporting column; the outer ring surface of the ninth transmission wheel is in transmission connection with the first transmission wheel through a belt; and one end of the mixing cabin close to the second connecting block is welded with the filtering cabin.

4. A bio-fertilizer raw material preparation apparatus as claimed in claim 3, wherein: the nozzles are arranged in eight groups at equal intervals and are arranged on one side of the equal divider close to the feeding plate.

5. The device for preparing bio-fertilizer raw material as claimed in claim 4, wherein: the second filter screen inclines from the drain port to the first driving wheel.

6. The device for preparing bio-fertilizer raw material as claimed in claim 5, wherein: the distance between the lower part of the feeding plate and the first filter screen is five to ten millimeters.

7. The device for preparing bio-fertilizer raw material as claimed in claim 6, wherein: one side above the lower concave block is concave downwards, and the other side is provided with an inclined plane.

8. The device for preparing bio-fertilizer raw material as claimed in claim 7, wherein: six groups of blades are equidistantly arranged on the outer surface of the rotary feeder.

Images