CN112657826A

CN112657826A - Intelligent processing equipment of bio-organic fertilizer

Info

Publication number: CN112657826A
Application number: CN202011449008.8A
Authority: CN
Inventors: 杨文兰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-04-16

Abstract

The invention relates to the field of intelligent fertilizer processing equipment, in particular to intelligent biological organic fertilizer processing equipment which comprises a device main body, wherein a screening plate is movably arranged at the upper end inside the device main body, an extruding device is movably arranged at the right side of the upper end of the device main body, a material throwing device is movably arranged at the lower end inside the device main body, an extruding cavity is formed in the extruding device, an extruding block is movably arranged inside the extruding cavity, a material guide plate is fixedly arranged inside the device main body relative to the left side of the extruding device, the right side of the material guide plate is in arc shape and is attached to the outer side of the extruding device, the left side of the material guide plate is in downward inclination, so that fertilizer moving rightwards can enter the extruding cavity, the extruding block which can be moved outwards can be matched with the material guide plate to extrude and break in the upward moving process of the extruding device, and finally, the extruding cavity returns to the screening, the effect of automatically returning the caking fertilizer to improve the utilization efficiency of the fertilizer is achieved.

Description

Intelligent processing equipment of bio-organic fertilizer

Technical Field

The invention relates to the field of intelligent fertilizer processing equipment, in particular to intelligent biological organic fertilizer processing equipment.

Background

The biological organic fertilizer is a fertilizer with the effects of microbial fertilizer and organic fertilizer, which is compounded by microorganisms with specific functions and organic materials mainly from animal and plant residues and subjected to harmless treatment and decomposition, beneficial microorganisms in the biological organic fertilizer enter soil and form a mutual symbiotic proliferation relationship with microorganisms in the soil, so that the decomposition and conversion of the organic matters are promoted, various nutrients and stimulating substances can be directly or indirectly provided for crops, and the growth of the crops is promoted and regulated.

A series of processes such as screening, drying, granulating and the like are required to be carried out on the organic fertilizer after fermentation is completed, but the existing organic fertilizer cannot return after the fertilizer which is screened out of caking is crushed by extrusion when being processed, so that the utilization efficiency of the fertilizer is reduced, the existing fertilizer drying efficiency is low, the moisture control effect is poor after drying, and the demands of people cannot be met.

Disclosure of Invention

The utility model provides an intelligent processing equipment of bio-organic fertilizer, the device can return automatically with caking fertilizer and improve fertilizer utilization efficiency when, can improve the drying efficiency and the moisture control effect of fertilizer to improve organic fertilizer's processingquality.

The utility model provides an intelligent processing equipment of bio-organic fertilizer, includes the device main part, the inside upper end movable mounting of device main part has the screening board, device main part upper end right side movable mounting has crowded material device, the inside lower extreme movable mounting of device main part has the device of throwing away, it keeps off material portion to throw away material device upper end fixedly connected with, the inside bottom movable mounting of device main part has the stoving pipe, device main part lower extreme outside fixed mounting has the chamber of ventilating.

Preferably, the screening plate is arranged in a manner that the right side of the screening plate is inclined downwards, the extruding device is arranged at the upper end of the screening plate, and a lug in a right-angled triangle shape is fixedly mounted on the outer side of the extruding device.

Preferably, an extrusion cavity is formed in the inner side of the extrusion device, an extrusion block is movably mounted in the extrusion cavity, a guide plate is fixedly mounted in the device body relative to the left side of the extrusion device, the right side of the guide plate is in arc-shaped arrangement attached to the outer side of the extrusion device, and the left side of the guide plate is in downward-inclined arrangement.

Preferably, a fixing rod penetrating through the inside of the extruding device is fixedly installed inside the device main body, the outer side of the middle end of the fixing rod is in an arc-shaped protruding arrangement, and one side, facing the fixing rod, of the extruding block is in an inclined arrangement.

Preferably, the inner side of the material throwing device is an inverted circular truncated cone with the upper end inclined outwards, the material blocking portion is arranged in an upward arc-shaped outwards protruding mode, a filter screen is fixedly arranged inside the material blocking portion, and a discharging opening is formed inside the material throwing device.

Preferably, one end of the drying pipe is communicated with the inside of the ventilation cavity, a through hole which is communicated with the inside and the outside is formed in the drying pipe, a bevel gear is fixedly installed at one end, facing the material throwing device, of the drying pipe and is connected with the outer side of the material throwing device in an occluded mode, and a stirring plate is fixedly installed on the outer side of the drying pipe.

Preferably, a moisture detection device is fixedly installed inside the lower end of the device main body, a discharge pipe is fixedly installed at the lower end of the device main body, and an electromagnetic valve electrically connected with the moisture detection device is fixedly installed inside the discharge pipe.

Preferably, the inside bottom movable mounting of device main part has row material change, row material change outside fixed mounting has row material board, arrange the material board and arrange the material change outside and be tangent setting, the inside fixed mounting of device main part bottom has the motor with moisture detection device electric connection.

Compared with the prior art, the invention has the following beneficial effects:

1. the sieving plate is arranged in a manner that the right side of the sieving plate is inclined downwards, the extruding device is arranged at the upper end of the sieving plate, a lug which is arranged in a right-angled triangle shape is fixedly arranged at the outer side of the extruding device, so that sieved caking fertilizer can move rightwards along an inclined plane, the extruding device can be utilized to rotate clockwise, the lug is meshed with a groove on the sieving plate, so that the sieving plate is driven to move leftwards by intermittent driving to overcome the acting force of a spring, the effect of shaking the sieving plate to improve the sieving efficiency is achieved, an extruding cavity is formed in the inner side of the extruding device, an extruding block is movably arranged in the extruding cavity, a guide plate is fixedly arranged in the device body relative to the left side of the extruding device, the right side of the guide plate is in an arc-shaped arrangement which is attached to the outer side of the extruding device, the left side of the guide plate is, the extrusion piece that can be moved outward cooperates the guide plate and crowds the bits of broken glass, extrudes the extrusion chamber and gets back to the screening board along the inclined plane of guide plate when moving extrusion device upper left side at last, reaches to go on automatically returning the effect that improves fertilizer utilization efficiency with caking fertilizer.

2. The fixing rod penetrating through the interior of the extruding device is fixedly installed in the device main body, the outer side of the middle end of the fixing rod is in an arc-shaped protruding arrangement, one side of the extruding block, which faces the fixing rod, is in an inclined arrangement, the extruding block can gradually approach to the protruding side of the fixing rod along with the rotation of the extruding device, and further can gradually move outwards against the acting force of a spring, so that the effect of automatically extruding caking fertilizer is achieved, the inner side of the throwing device is in an inverted circular platform arrangement with the upper end inclined outwards, the material blocking part is in an upward arc-shaped protruding arrangement, a filter screen is fixedly installed in the material blocking part, and a feed opening is formed in the throwing device, so that the fertilizer which is screened and falls into the throwing device can move upwards along the inclined plane under the action of centrifugal force to be in contact with the material blocking part, the moisture in the material blocking part is upwards thrown out through the material blocking, thereby reducing the water to be removed during drying and improving the drying efficiency.

3. Through drying tube one end and the intracavity portion of ventilating is linked together, communicating through-hole inside and outside has been seted up on the drying tube, the drying tube towards the one end fixed mounting who gets rid of the material device have bevel gear and with get rid of the interlock of the material device outside and be connected, drying tube outside fixed mounting has the stirring board, then after the outside air heater of device main part blew in the hot gas flow to the intracavity of ventilating, the hot gas flow can get into the drying tube inside and then outwards spout, reach the effect of drying to the fertilizer, wherein utilize the bevel gear of drying tube one end and the stirring board in the outside, get rid of the material device and can drive it and rotate when making the drying tube dry, and then utilize the stirring board to turn to the fertilizer, thereby improve the drying.

4. A moisture detection device is fixedly arranged in the lower end of the device main body, a discharge pipe is fixedly arranged at the lower end of the device main body, a solenoid valve electrically connected with the moisture detection device is fixedly arranged in the discharge pipe, so that the moisture content of the fertilizer can be monitored in real time by the moisture detection device, when the moisture content reaches a preset value, the solenoid valve in the discharge pipe is opened, the fertilizer is discharged outwards to achieve the effect of intelligently controlling the moisture content of the fertilizer, wherein a discharge swivel is movably arranged at the bottom end in the device main body, a discharge plate is fixedly arranged on the outer side of the discharge swivel, the discharge plate and the outer side of the discharge swivel are arranged in a tangent manner, a motor electrically connected with the moisture detection device is fixedly arranged in the bottom end of the device main body, when the moisture detection device is communicated with the solenoid valve in the discharge pipe, the motor at, utilize the row's flitch of slope to drive fertilizer limit rotation limit and move to the edge, reach the effect of fertilizer to the discharging pipe gathering to guarantee discharging efficiency.

Drawings

FIG. 1 is a front view of the main body of the apparatus of the present invention;

FIG. 2 is a perspective view of the interior of the body of the device of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the invention at B of FIG. 2;

FIG. 5 is a perspective view of the extruding device of the present invention;

FIG. 6 is a top view of a drying duct according to the present invention;

fig. 7 is a top view of the discharge swivel of the present invention.

In FIGS. 1-7: 1-a device main body, 2-a ventilation cavity, 3-a discharge pipe, 4-a screening plate, 5-an extrusion device, 6-a material guide plate, 7-a material throwing device, 8-a material blocking part, 9-a feed opening, 10-a drying pipe, 11-a stirring plate, 12-a discharge rotating ring, 13-a moisture detection device, 14-an extrusion cavity, 15-an extrusion block, 16-a fixed rod, 17-a lug and 18-a discharge plate.

Detailed Description

Referring to fig. 1 to 7, a schematic plan structure and a schematic perspective structure of an intelligent bio-organic fertilizer processing apparatus are shown.

The utility model provides an intelligent processing equipment of bio-organic fertilizer, includes device

main part

1, and 1 inside upper end movable mounting of device main part has

screening board

4, and 1 upper end right side movable mounting of device main part has

crowded material device

5, and 1 inside lower extreme movable mounting of device main part has throws

material device

7, and 7 upper ends fixedly connected with material blocking portion 8 of throws material device, 1 inside bottom movable mounting of device main part has stoving

pipe

10, and 1 lower extreme outside fixed mounting of device main part has the chamber of ventilating 2.

In concrete implementation, screening board 4 sets up for the decurrent slope in right side, crowded material device 5 sets up in screening board 4 upper end, crowded material device 5 outside fixed mounting has the lug 17 that the right triangle form set up, then can let the caking fertilizer that screens off remove along the inclined plane when moving right, can utilize crowded material device 5 to carry out clockwise rotation, 4 recesses on the screening board are sieved through lug 17 interlock, thereby the effort that spring was overcome to intermittent type drive screening board 4 moves left, thereby reach the effect that shake screening board 4 improves screening efficiency.

In the concrete implementation, extrusion chamber 14 has been seted up to crowded material device 5 inboard, 14 inside movable mounting in extrusion chamber has extrusion piece 15, the inside left side fixed mounting of relative crowded material device 5 of device main part 1 has stock guide 6, the arc setting of stock guide 6 right side for laminating with crowded material device 5 outside, the left side is the downward sloping setting, make caking fertilizer that moves right can get into in the extrusion chamber 14, along with the in-process of crowded material device 5 upwards moving, can be crowded garrulous by the extrusion piece 15 cooperation stock guide 6 of outside removal, extrude extrusion chamber 14 when moving crowded material device 5 upper left side at last and get back to on the sieve plate 4 along the inclined plane of stock guide 6, reach and carry out the automatic effect that returns improvement fertilizer utilization efficiency with caking fertilizer.

In concrete implementation, the fixing rod 16 penetrating through the inside of the extruding device 5 is fixedly mounted inside the device main body 1, the outer side of the middle end of the fixing rod 16 is arc-shaped and outwards protruded, the extruding block 15 is obliquely arranged towards one side of the fixing rod 16, the extruding block 15 can gradually approach one side of the fixing rod 16 outwards protruded along with the rotation of the extruding device 5, and then the acting force of the spring can be overcome to gradually move outwards, so that the effect of automatically extruding the caking fertilizer is achieved.

In concrete implementation, 7 inboards of material throwing device are the setting of the radius platform that the upper end leaned out, it sets up for the arc evagination that makes progress to keep off

material portion

8, 8 inside fixed mounting of portion of keeping off has the filter screen, 7 inside feed opening 9 have been seted up to material throwing device, make the screening complete fall into 7 inside fertilizers of material throwing device 7 after 7 rotatory backs of material throwing device, can be under the effect of centrifugal force along inclined plane rebound and the contact of portion of keeping off 8, let inside moisture pass 8 upwards throws away of portion of keeping off, then fall out from feed opening 9 after 7 reduction rotational speeds of material throwing device, thereby the efficiency when the moisture that needs get rid of when reducing the stoving improves the stoving.

In the concrete implementation, one end of the drying pipe 10 is communicated with the inside of the ventilation cavity 2, a through hole which is communicated with the inside and the outside is formed in the drying pipe 10, a bevel gear is fixedly installed at one end, facing the material throwing device 7, of the drying pipe 10 and is connected with the outer side of the material throwing device 7 in an occluded mode, a stirring plate 11 is fixedly installed at the outer side of the drying pipe 10, after a hot air flow is blown into the ventilation cavity 2 by an air heater outside the device body 1, the hot air flow can enter the inside of the drying pipe 10 and then is ejected outwards, the effect of drying the fertilizer is achieved, the bevel gear at one end of the drying pipe 10 and the stirring plate 11 at the outer side are utilized, the material throwing device 7 can drive the drying pipe 10 to rotate, the fertilizer is further turned over by the stirring plate 11.

In concrete implementation, the inside fixed mounting of 1 lower extreme of device main part has

moisture detection device

13, and 1 lower extreme fixed mounting of device main part has discharging pipe 3, and the inside fixed mounting of discharging pipe 3 has the solenoid valve with moisture detection device 13 electric connection for can utilize moisture detection device 13 real-time supervision fertilizer's moisture content, when moisture content reaches the predetermined value, then open the solenoid valve in discharging pipe 3, outwards discharge fertilizer and reach the effect of intelligent control fertilizer moisture content.

In concrete implementation, device main part 1 inside bottom movable mounting has row material change 12, row material change 12 outside fixed mounting has row flitch 18, row flitch 18 with arrange the material change 12 outside and be tangent setting, device main part 1 inside fixed mounting in bottom has the motor with 13 electric connection of moisture detection device, then when moisture detection device 13 intercommunication discharging pipe 3 interior solenoid valve, also can feed through the motor of arranging material change 12 downside, thereby it rotates to drive row material change 12, row flitch 18 that utilizes the slope drives the rotatory limit in fertilizer limit and removes to the edge, reach the effect of fertilizer to 3 aggregations of discharging pipe, thereby guarantee discharging efficiency.

The working principle of the intelligent processing equipment for the biological organic fertilizer is as follows.

Firstly, fermented organic fertilizer is led into a main body 1 of the device, the right side of the device is arranged downwards in an inclined mode through a screening plate 4, an extruding device 5 is arranged at the upper end of the screening plate 4, a projection 17 which is arranged in a right-angled triangle shape is fixedly arranged on the outer side of the extruding device 5, screened agglomerated fertilizer can move rightwards along the inclined plane, the extruding device 5 can be used for clockwise rotating, the projection 17 is meshed with a groove on the screening plate 4, the screening plate 4 is intermittently driven to move leftwards against the action force of a spring, the effect of improving screening efficiency of the shaking screening plate 4 is achieved, an extrusion cavity 14 is formed in the inner side of the extruding device 5, an extrusion block 15 is movably arranged in the extrusion cavity 14, a guide plate 6 is fixedly arranged on the left side of the extruding device 5 in the main body 1, and the right side of the guide plate 6 is arranged in an arc shape and attached to the outer, the left side is arranged in a downward inclined mode, so that agglomerated fertilizer moving rightwards can enter the extrusion cavity 14, the agglomerated fertilizer can be extruded and crushed by the extrusion block 15 moving outwards in the process of moving upwards along the extruding device 5 in a matching mode with the material guide plate 6, and finally the extruded fertilizer can return to the screening plate 4 along the inclined plane of the material guide plate 6 when moving to the upper left side of the extruding device 5, so that the effect of automatically returning the agglomerated fertilizer to improve the utilization efficiency of the fertilizer is achieved, then the fixing rod 16 penetrating through the extruding device 5 is fixedly installed inside the device main body 1, the outer side of the middle end of the fixing rod 16 is arranged in an arc shape in a protruding mode, one side of the extrusion block 15 facing the fixing rod 16 is arranged in an inclined mode, the extrusion block 15 can gradually approach the protruding side of the fixing rod 16 along with the rotation of the extruding device 5, further, the acting force of a spring can be overcome, the inner side of the material throwing device 7 is provided with an inverted circular truncated cone with the upper end inclining outwards, the material blocking part 8 is arranged in an upwards arc-shaped outwards protruding manner, a filter screen is fixedly arranged in the material blocking part 8, a feed opening 9 is formed in the material throwing device 7, so that the screened fertilizer falling into the material throwing device 7 can move upwards along an inclined plane under the action of centrifugal force to be contacted with the material blocking part 8 after the material throwing device 7 rotates, the internal moisture passes through the material blocking part 8 to be thrown upwards, then the fertilizer falls out from the feed opening 9 after the rotating speed of the material throwing device 7 is reduced, the moisture required to be removed during drying is reduced, the drying efficiency is improved, then the drying efficiency is improved, one end of the drying pipe 10 is communicated with the inside of the ventilation cavity 2, a through hole communicated with the inside and the outside is formed in the drying pipe 10, a bevel gear is fixedly arranged at one end of the drying pipe 10 facing the material throwing device 7 and is connected, when a hot air blower outside the device main body 1 blows hot air into the ventilation cavity 2, the hot air can enter the drying pipe 10 and then is sprayed outwards, so that the effect of drying the fertilizer is achieved, wherein a bevel gear at one end of the drying pipe 10 and a stirring plate 11 at the outer side are utilized, so that the material throwing device 7 can drive the drying pipe 10 to rotate while drying the drying pipe, and further the stirring plate 11 is utilized to turn the fertilizer, so that the drying efficiency of the fertilizer is greatly improved, then a moisture detection device 13 is fixedly arranged inside the lower end of the device main body 1, a discharge pipe 3 is fixedly arranged at the lower end of the device main body 1, a solenoid valve electrically connected with the moisture detection device 13 is fixedly arranged inside the discharge pipe 3, so that the moisture content of the fertilizer can be monitored in real time by the moisture detection device 13, when the moisture content reaches a preset value, the solenoid valve in the discharge pipe 3 is opened, the fertilizer is discharged outwards, wherein there is row material change 12 through the inside bottom movable mounting of device main part 1, row material change 12 outside fixed mounting has row flitch 18, row flitch 18 with arrange the material change 12 outside and be tangent setting, the inside fixed mounting in 1 bottom of device main part has the motor with 13 electric connection of moisture detection device, then when the solenoid valve in moisture detection device 13 intercommunication discharging pipe 3, also can feed through the motor of arranging material change 12 downside, thereby it rotates to drive row material change 12, row flitch 18 that utilizes the slope drives the rotatory limit in fertilizer limit and removes to the edge, reach the effect of fertilizer to 3 aggregations of discharging pipe, thereby guarantee discharging efficiency.

Claims

1. The utility model provides an intelligent processing equipment of bio-organic fertilizer, includes device main part (1), its characterized in that: the device is characterized in that a screening plate (4) is movably mounted at the upper end inside the device body (1), a material extruding device (5) is movably mounted at the right side of the upper end of the device body (1), a material throwing device (7) is movably mounted at the lower end inside the device body (1), a material blocking part (8) is fixedly connected to the upper end of the material throwing device (7), a drying pipe (10) is movably mounted at the bottom end inside the device body (1), and a ventilation cavity (2) is fixedly mounted at the outer side of the lower end outside the device body (1).

2. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: screening board (4) are the decurrent slope setting in right side, crowded material device (5) set up in screening board (5) upper end, crowded material device (5) outside fixed mounting has lug (17) that the right angle triangle form set up.

3. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: crowded material device (5) inboard has been seted up and has been pushed chamber (14), the inside movable mounting in extrusion chamber (14) has extrusion piece (15), the inside left side fixed mounting who pushes material device (5) relatively of device main part (1) has stock guide (6), stock guide (6) right side is for setting up with the arc of pushing material device (5) outside laminating, and the left side is the downward sloping setting.

4. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: the device is characterized in that a fixing rod (16) penetrating through the interior of the extruding device (5) is fixedly mounted in the device body (1), the outer side of the middle end of the fixing rod (16) is in arc-shaped protruding arrangement, and one side, facing the fixing rod (16), of the extruding block (15) is in inclined arrangement.

5. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: get rid of material device (7) inboard and lean out the radius platform setting for the upper end, keep off material portion (8) and set up for making progress arc evagination, keep off the inside fixed mounting of material portion (8) and have the filter screen, get rid of material device (7) inside feed opening (9) of having seted up.

6. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: drying tube (10) one end and ventilate chamber (2) inside and be linked together, communicating through-hole inside and outside has been seted up on drying tube (10), drying tube (10) towards the one end fixed mounting who gets rid of material device (7) have bevel gear and with get rid of material device (7) outside interlock connection, drying tube (10) outside fixed mounting has stirring board (11).

7. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: the device is characterized in that a moisture detection device (13) is fixedly mounted in the lower end of the device main body (1), a discharge pipe (3) is fixedly mounted at the lower end of the device main body (1), and an electromagnetic valve electrically connected with the moisture detection device (13) is fixedly mounted in the discharge pipe (3).

8. The intelligent processing equipment for the biological organic fertilizer as claimed in claim 1, wherein the intelligent processing equipment comprises: device main part (1) inside bottom movable mounting has row material change (12), it has row material board (18) to arrange material change (12) outside fixed mounting, arrange material board (18) and arrange material change (12) outside and be tangent setting, device main part (1) inside fixed mounting in bottom have with moisture detection device (13) electric connection's motor.