CN220657830U - Microbial inoculum prilling granulator - Google Patents

Abstract

The utility model relates to the technical field of fertilizer granulation, and discloses a microbial inoculum granulating device which comprises a box body mechanism, an electric energy mechanism, a rough machining mechanism and a finish machining mechanism, wherein the electric energy mechanism is fixedly connected to the lower end of the left side of the box body mechanism, the rough machining mechanism is fixedly connected to the upper end of the inside of the box body mechanism, and the finish machining mechanism is fixedly connected to the middle part of the inside of the box body mechanism. This fungus agent prilling granulator, be fixed with the temperature controller in the inside upper end of prilling box for just be in a suitable temperature environment to fall into inside raw materials, also avoided the high temperature problem of machinery long-time operation simultaneously, smash the stirring for the first time with the raw materials through the breaker in addition, unable whereabouts the raw materials in the funnel clean through sweeping the axle in, and under the operation of hybrid axle and granulator, make the composition of fungus agent grain more reasonable, even, and the size is moderate, reduced the disqualification rate of fungus agent granulation under the common operation of rough machining mechanism and finish machining mechanism.

Description

Microbial inoculum prilling granulator

Technical Field

The utility model relates to the technical field of fertilizer granulation, in particular to a microbial inoculum granulating device.

Background

The microbial agent is a living microbial agent prepared by processing fermentation liquor of adsorbed bacteria by using porous substances as adsorbents (such as turf and vermiculite) after industrial production and propagation of target microorganisms (effective bacteria). The microbial inoculum has the functions of directly or indirectly improving soil and quality, reducing fertilizer consumption, reducing cost, improving soil and protecting ecological environment.

The microbial fertilizer has strict requirement on temperature when the microbial agent is granulated at low temperature, and the preservation temperature is 4-20 ℃; in addition, when the particle sizes of the microbial inoculum are different, the attractiveness is affected, and the soil is inconvenient to absorb due to the overlarge microbial inoculum, so that the use efficiency of the microbial inoculum is reduced.

Disclosure of Invention

(one) solving the technical problems

The utility model aims to provide a microbial inoculum granulating device, which solves the problems of different temperatures and different microbial inoculum granulating sizes in the prior art.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a fungus agent prilling granulator, includes box mechanism, electric energy mechanism, rough machining mechanism and finish machining mechanism, the left side lower extreme fixedly connected with electric energy mechanism of box mechanism, rough machining mechanism fixedly connected with is inside upper end in box mechanism, finish machining mechanism fixedly connected with is inside middle part in box mechanism, box mechanism includes prilling box, feed inlet, first chamber door and sill pillar, the top middle part fixedly connected with feed inlet of prilling box, first chamber door rotates to be connected in the front end that connects the prilling box, sill pillar fixedly connected with is around the prilling box bottom.

Preferably, the electric energy mechanism comprises a motor case, a heat dissipation hole, a motor, a coil hole and a second case door, wherein the heat dissipation hole is formed in the left side of the motor case, the motor is fixedly connected inside the motor case, the coil hole is formed in the upper end of the back of the motor case, and the second case door is rotationally connected to the front end of the motor case.

Preferably, the rough machining mechanism comprises a temperature controller, a crusher, a first filter screen, a sweeping shaft and a chute, wherein the temperature controller is fixedly connected to the back of the inside of the granulating box, and the temperature controller is positioned at the upper end of the inside of the granulating box.

Preferably, the breaker is rotationally connected to the upper end inside the granulation box, the first filter screen is fixedly connected to the middle inside the granulation box, the sweeping shaft is slidingly connected to the inside of the sliding groove, and the sliding groove is fixedly connected to the left side inside the granulation box.

Preferably, the finish machining mechanism comprises a funnel, a mixing shaft, a granulator, a discharge port and a second filter screen, wherein the funnel is fixedly connected to the lower end of the first filter screen, and the mixing shaft is rotatably connected to the inside of the funnel.

Preferably, the granulator is fixedly connected to the lower end of the mixing shaft, the discharge port is fixedly connected to the lower end of the granulator, and the second filter screen is fixedly connected to the bottom inside the granulating box.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the microbial inoculum granulating device, the temperature controller is fixedly arranged at the upper end of the inside of the granulating box, so that raw materials falling into the granulating box are in a proper temperature environment, and meanwhile, the problem of high temperature of long-time operation of machinery is avoided;

2. the microbial inoculum granulating device is provided with a rough machining mechanism and a finish machining mechanism, and the microbial inoculum granulating device is broken and uniformly stirred, so that the prepared microbial inoculum is uniform in proportion, and the reject ratio of microbial inoculum granulation is reduced;

3. according to the microbial inoculum granulating device, the raw materials are crushed and stirred for the first time through the crusher, the raw materials which cannot fall into the hopper are cleaned into the hopper through the sweeping shaft, and under the operation of the mixing shaft and the granulator, the components of microbial inoculum particles are more reasonable and uniform, the size is moderate, and finally the microbial inoculum particles are filtered out through the second filter screen.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of the internal three-dimensional structure of the electric energy mechanism of the present utility model;

FIG. 3 is a schematic view of the internal three-dimensional structure of the granulating tank of the utility model;

fig. 4 is a schematic plan view of a funnel according to the present utility model.

In the figure: 1. a box mechanism; 101. a granulating box; 102. a feed inlet; 103. a first door; 104. a bottom post; 2. an electrical energy mechanism; 201. a motor case; 202. a heat radiation hole; 203. a motor; 204. a coil hole; 205. a second door; 3. a rough machining mechanism; 301. a temperature controller; 302. a breaker; 303. a first filter screen; 304. a sweeping shaft; 305. a chute; 4. a finishing mechanism; 401. a funnel; 402. a mixing shaft; 403. a granulator; 404. a discharge port; 405. and a second filter screen.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a fungus agent prilling granulator, including box mechanism 1, electric energy mechanism 2, rough machining mechanism 3 and finish machining mechanism 4, the left side lower extreme fixedly connected with electric energy mechanism 2 of box mechanism 1, rough machining mechanism 3 fixed connection is in the inside upper end of box mechanism 1, finish machining mechanism 4 fixed connection is in the inside middle part of box mechanism 1, box mechanism 1 includes prilling box 101, feed inlet 102, first chamber door 103 and sill pillar 104, the top middle part fixedly connected with feed inlet 102 of prilling box 101, first chamber door 103 rotates to be connected in the front end that connects prilling box 101, sill pillar 104 fixed connection is around the prilling box 101 bottom. The first door 103 facilitates the opening of the granulating tank 101, and cleans the inside of the defective granules and other raw materials.

The electric energy mechanism 2 comprises a motor case 201, a heat dissipation hole 202, a motor 203, a coil hole 204 and a second case door 205, wherein the heat dissipation hole 202 is formed in the left side of the motor case 201, the motor 203 is fixedly connected inside the motor case 201, the coil hole 204 is formed in the upper end of the back of the motor case 201, and the second case door 205 is rotatably connected to the front end of the motor case 201. The motor 203 drives the rough machining mechanism 3 and the finish machining mechanism 4 to operate.

The rough machining mechanism 3 comprises a temperature controller 301, a crusher 302, a first filter screen 303, a sweeping shaft 304 and a sliding chute 305, wherein the temperature controller 301 is fixedly connected to the back inside the granulating box 101, and the temperature controller 301 is located at the upper end inside the granulating box 101. The temperature controller 301 controls the internal temperature to a temperature suitable for the microbial inoculum, so that the problem of failure of the microbial inoculum caused by the temperature is avoided.

The breaker 302 is rotatably connected to the upper end inside the prilling box 101, the first filter screen 303 is fixedly connected to the middle inside the prilling box 101, the sweeping shaft 304 is slidably connected to the inside of the chute 305, and the chute 305 is fixedly connected to the left inside the prilling box 101. The crusher 302 crushes and agitates the raw material, the raw material is input into the hopper 401 through the first screen 303, and the other part of the raw material falls down to the surface of the first screen 303 and is difficult to fall down and is cleaned by the cleaning shaft 304 to fall into the hopper 401.

The finish machining mechanism 4 comprises a funnel 401, a mixing shaft 402, a granulator 403, a discharge port 404 and a second filter screen 405, wherein the funnel 401 is fixedly connected to the lower end of the first filter screen 303, and the mixing shaft 402 is rotatably connected to the inside of the funnel 401. The raw materials are stirred and mixed by the mixing shaft 402, so that the problem of non-uniformity of the granulated ingredients is avoided.

The granulator 403 is fixedly connected to the lower end of the mixing shaft 402, the discharge port 404 is fixedly connected to the lower end of the granulator 403, and the second filter screen 405 is fixedly connected to the bottom inside the granulating tank 101. The second screen 405 facilitates successful output of the refined microbial inoculant particles.

Working principle: the worker starts the motor 203 to start the rough machining mechanism 3 and the finish machining mechanism 4, at the moment, the raw materials are poured into the granulating box 101 through the feeding hole 102, the crusher 302 crushes and stirs the raw materials, the raw materials are input into the funnel 401 through the first filter screen 303, the other part of the raw materials fall on the surface of the first filter screen 303 and are difficult to fall, and the sweeping shaft 304 sweeps back and forth in the chute 305 to enable the raw materials to fall into the funnel 401; the mixing shaft 402 further stirs and breaks the raw materials, so that the proportioned raw materials are mixed more uniformly and finely, the mixture is granulated under the action of the granulator 403, and the microbial inoculum particles with uniform size are dropped out of the second filter screen 405 through the discharge port 404.

Finally, it should be noted that the above description is only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and that the simple modification and equivalent substitution of the technical solution of the present utility model can be made by those skilled in the art without departing from the spirit and scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides a fungus agent prilling granulator, includes box mechanism (1), electric energy mechanism (2), rough machining mechanism (3) and finish machining mechanism (4), its characterized in that: the novel granulating machine comprises a box body mechanism (1), wherein an electric energy mechanism (2) is fixedly connected to the lower end of the left side of the box body mechanism (1), a rough machining mechanism (3) is fixedly connected to the upper end inside the box body mechanism (1), a finish machining mechanism (4) is fixedly connected to the middle inside the box body mechanism (1), the box body mechanism (1) comprises a granulating box (101), a feeding hole (102), a first box door (103) and a bottom column (104), the feeding hole (102) is fixedly connected to the middle of the top of the granulating box (101), the first box door (103) is rotationally connected to the front end of the granulating box (101), and the bottom column (104) is fixedly connected to the periphery of the bottom of the granulating box (101).

2. A microbial inoculant pelleting device according to claim 1, wherein: the electric energy mechanism (2) comprises a motor box (201), a radiating hole (202), a motor (203), a coil hole (204) and a second box door (205), wherein the radiating hole (202) is formed in the left side of the motor box (201), the motor (203) is fixedly connected inside the motor box (201), the coil hole (204) is formed in the upper back end of the motor box (201), and the second box door (205) is rotationally connected to the front end of the motor box (201).

3. A microbial inoculant pelleting device according to claim 1, wherein: the rough machining mechanism (3) comprises a temperature controller (301), a crusher (302), a first filter screen (303), a sweeping shaft (304) and a sliding groove (305), wherein the temperature controller (301) is fixedly connected to the back inside the granulating box (101), and the temperature controller (301) is located at the upper end inside the granulating box (101).

4. A microbial inoculant pellet according to claim 3 wherein: the crusher (302) is rotationally connected to the upper end inside the granulating box (101), the first filter screen (303) is fixedly connected to the middle inside the granulating box (101), the sweeping shaft (304) is slidably connected to the inside of the sliding groove (305), and the sliding groove (305) is fixedly connected to the left side inside the granulating box (101).

5. A microbial inoculant pellet according to claim 3 wherein: finish machining mechanism (4) are including funnel (401), mixing shaft (402), granulator (403), discharge gate (404) and second filter screen (405), funnel (401) fixed connection is in first filter screen (303) lower extreme, mixing shaft (402) rotate and connect in funnel (401) inside.

6. The microbial inoculant pellet of claim 5, wherein: the granulator (403) is fixedly connected to the lower end of the mixing shaft (402), the discharge port (404) is fixedly connected to the lower end of the granulator (403), and the second filter screen (405) is fixedly connected to the inner bottom of the granulating box (101).