CN218250401U - Compound microbial manure production is with broken transmission device of separation - Google Patents

Abstract

The utility model relates to a compound microorganism bacterial manure production is with broken conveyer of separation, it includes the conveyer belt, be provided with the feed mechanism who is used for separating different block size raw materials on the conveyer belt, feed mechanism is close to the setting of conveyer belt feed end, and subaerial being provided with is used for the broken mechanism of bold body raw materials, broken mechanism is located feed mechanism towards conveyer belt feed end one side. This application has the effect that reduces the influence that the bold body raw materials produced to the granulation to reduce the influence to fertilizer normal production.

Description

Compound microbial manure production is with broken transmission device of separation

Technical Field

The application relates to the field of fertilizer production, especially, relate to a compound microorganism bacterial manure production is with broken transmission device of separation.

Background

The compound microbial fertilizer is a living microbial product which is formed by compounding specific microorganisms and nutrient substances and can provide, maintain or improve plant nutrition, increase the yield of agricultural products or improve the quality of the agricultural products. The fertilizer compounding mode comprises the compounding of two or more than two microorganisms and the compounding of the microorganisms with organic fertilizers and a large number of nutrient elements or trace elements.

In the production process of the compound microbial fertilizer, phosphate rock powder, light calcium carbonate, plant ash, bone meal and wheat bran powder are used as the decomposed material, the decomposed material is granulated and dried, and then the bacterial powder is sprinkled on the decomposed material particles to finally prepare the compound microbial fertilizer.

In view of the above-mentioned related art, the inventor believes that the raw material is deliquesced to form blocks with different sizes, so that the block raw material and the powder raw material are mixed together, and the large block raw material affects the granulation, thereby affecting the normal production of the fertilizer.

SUMMERY OF THE UTILITY MODEL

In order to reduce the influence that big bulk material produced to the granulation to reduce the influence to fertilizer normal production, the application provides a compound microorganism bacterial manure production is with broken transmission device of separation.

The application provides a compound microorganism bacterial manure production is with broken transmission device of separation adopts following technical scheme:

the separation, crushing and transmission device for producing the compound microbial fertilizer comprises a conveying belt, wherein a material distribution mechanism used for separating raw materials with different block sizes is arranged on the conveying belt, the material distribution mechanism is arranged close to the feeding end of the conveying belt, a crushing mechanism used for crushing the raw materials with the large blocks is arranged on the ground, and the crushing mechanism is located on one side, facing the feeding end of the conveying belt, of the material distribution mechanism.

By adopting the technical scheme, the raw materials are transported along the conveyer belt, when the raw materials are transported to the distributing mechanism, the small block bodies and the powdery raw materials pass through the distributing mechanism to be transported continuously, and the large block body raw materials are accumulated at the distributing mechanism, so that the raw materials are separated; the crushing mechanism is used for crushing the large bulk raw materials, and the crushed raw materials can pass through the material distribution mechanism, so that the raw materials are crushed, the influence of the large bulk raw materials on granulation is reduced, and the influence on the normal production of the fertilizer is further reduced.

Optionally, the material distribution mechanism includes a support assembly, a separation assembly is fixedly connected to the support assembly, and the separation assembly is located above the conveyor belt.

Through adopting above-mentioned technical scheme, the raw materials is transported along the conveyer belt, and when transporting to separable set department, little block and powdered raw materials pass separable set and continue to transport, and the bold raw materials is piled up in separable set department to the completion is to the separation of raw materials, and the follow-up raw materials of being convenient for are broken.

Optionally, the supporting component includes two first bracing pieces, two fixedly connected with second bracing piece between the first bracing piece, the second bracing piece is located the conveyer belt top, the separator component includes many separating rods of fixed connection on the second bracing piece, and little block and powdered raw materials can pass between many separating rods.

Through adopting above-mentioned technical scheme, when the raw materials transported separation rod department, little block and powdered raw materials passed the separation rod and continue to transport on the conveyer belt, and bold body raw materials piles up in separation rod department to the completion is to the separation of raw materials, easy operation is convenient.

Optionally, the crushing mechanism includes an air cylinder, a crushing assembly is arranged on one side of the air cylinder facing the conveying belt, the crushing assembly includes crushing plates, the two sides of the conveying direction of the conveying belt are both provided with crushing plates, and one crushing plate slides to and fro in a direction close to the other crushing plate.

Through adopting above-mentioned technical scheme, start the cylinder, the cylinder promotes the crushing plate to being close to another crushing plate direction reciprocating sliding to press from both sides the bits of broken glass to the bold body raw materials, the follow-up transportation to the bold body raw materials of being convenient for, easy operation is convenient.

Optionally, a plurality of rows of tapered teeth are fixedly connected to the breaker plate.

Through adopting above-mentioned technical scheme, the setting of tapered tooth is convenient for press from both sides the bold body raw materials garrulous to improve the effect of pressing from both sides garrulous raw materials, easy operation is convenient.

Optionally, a connecting assembly is arranged on the conveying belt, one side of the connecting assembly is fixedly connected with the cylinder piston rod, and the other side of the connecting assembly is fixedly connected with the crushing plate.

Through adopting above-mentioned technical scheme, the flexible coupling assembling reciprocating sliding that drives of cylinder piston rod to drive the reciprocating sliding of breaker, accomplish the drive to the breaker, and then press from both sides the raw materials garrulous.

Optionally, the connecting assembly comprises a vertically arranged connecting plate, one side of the connecting plate is fixedly connected with the cylinder piston rod, the other side of the connecting plate is fixedly connected with a connecting rod, the connecting rod is perpendicular to the connecting plate, and the other end of the connecting rod is fixedly connected with the crushing plate.

Through adopting above-mentioned technical scheme, the flexible connecting plate reciprocating sliding that drives of piston rod of the cylinder, the connecting plate passes through the connecting rod and drives the reciprocating sliding of crushing shell to the completion is to the drive of crushing shell, and then presss from both sides the raw materials garrulous.

Optionally, the connecting rods are arranged to be multiple, and the connecting rods are evenly distributed on the connecting plate at intervals.

Through adopting above-mentioned technical scheme, many connecting rods evenly spaced apart on the connecting plate to strengthen the connection stability of connecting plate and breaker, and then improve the stability when promoting the breaker.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the raw materials are transported along the conveyer belt, when the raw materials are transported to the distributing mechanism, the small block bodies and the powdery raw materials pass through the distributing mechanism to be transported continuously, and the large block body raw materials are stacked at the distributing mechanism, so that the raw materials are separated; the crushing mechanism crushes the large bulk raw materials, and the crushed raw materials can pass through the material distribution mechanism, so that the raw materials are crushed, the influence of the large bulk raw materials on granulation is reduced, and the influence on the normal production of the fertilizer is further reduced;

2. when the raw materials are conveyed to the separating rod, the small blocks and the powdery raw materials pass through the separating rod to be continuously conveyed on the conveying belt, and the large blocks of raw materials are accumulated at the separating rod, so that the raw materials are separated, and the operation is simple and convenient;

3. the cylinder piston rod stretches and retracts to drive the connecting plate to slide in a reciprocating mode, the connecting plate drives the crushing plate to slide in a reciprocating mode through the connecting rod, and therefore the crushing plate is driven to crush raw materials.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a part of the structure of the embodiment of the present application, which is mainly used for showing a material distributing mechanism;

fig. 3 is a partial structural schematic diagram of the embodiment of the present application, which is mainly used for showing a crushing mechanism.

Description of the reference numerals: 1. a conveyor belt; 2. a material distributing mechanism; 21. a support assembly; 211. a first support bar; 212. a second support bar; 22. a separating lever; 3. a crushing mechanism; 31. a supporting seat; 32. a cylinder; 33. a connecting assembly; 331. a connecting plate; 332. a connecting rod; 34. a crushing assembly; 341. a breaker plate; 342. tapered teeth.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses compound microbial manure production is with broken transmission device of separation. Referring to fig. 1, the separating, crushing and conveying device for producing the compound microbial fertilizer comprises a conveying belt 1, a material distribution mechanism 2 is vertically arranged on the ground, and the upper end of the material distribution mechanism 2 is erected above the conveying belt 1. The two sides of the conveying direction of the conveying belt 1 are provided with crushing mechanisms 3, and the crushing mechanisms 3 are positioned on one side of the material distributing mechanism 2 facing the feeding end of the conveying belt 1.

The raw materials are transported along the conveyer belt 1 from the feed end of the conveyer belt 1, when transported to the distributing mechanism 2, the small blocks and the powdery raw materials pass through the distributing mechanism 2 to be transported continuously, and the large blocks are blocked by the distributing mechanism 2 to be stacked at the distributing mechanism 2. Starting the crushing mechanism 3, crushing the large block raw material by the crushing mechanism 3, and enabling the crushed raw material to pass through the material distributing mechanism 2, so that the raw material is separated and crushed.

Referring to fig. 1 and 2, the material distribution mechanism 2 includes a vertically arranged support component 21, the support component 21 is located on two sides of the conveying direction of the conveying belt 1, a separation component is arranged on the support component 21, and the separation component is located above the conveying belt 1.

Referring to fig. 1 and 2, the supporting assembly 21 includes a first supporting rod 211 vertically and fixedly connected to the ground, the first supporting rod 211 is disposed on both sides of the conveying direction of the conveying belt 1, and the first supporting rod 211 is close to the feeding end of the conveying belt 1. A second support rod 212 is fixedly connected between the two first support rods 211, the length direction of the second support rod 212 is perpendicular to the length direction of the first support rods 211, and the second support rod 212 is located above the conveyor belt 1.

Referring to fig. 1 and 2, the separating assembly includes a plurality of separating rods 22 fixedly coupled to a lower surface of the second support bar 212, the separating rods 22 being positioned above the conveyor belt 1. The length direction of the separation rods 22 is parallel to the length direction of the first support rod 211, the separation rods 22 are arranged at equal intervals along the length direction of the second support rod 212, and the small blocks and the powdery raw materials can pass through the intervals between the separation rods 22.

The material is transported along the conveyor belt 1, and when transported to the separating rod 22, the small pieces and the powdery material can be transported further on the conveyor belt 1 through the separating rod 22. The large bulk material is stopped by the separation rod 22 to be accumulated at the separation rod 22.

Referring to fig. 1 and 3, the crushing mechanism 3 includes a support seat 31 disposed on the ground, the support seats 31 are disposed on both sides of the conveying direction of the conveying belt 1, and the support seats 31 are located on one side of the first support rods 211 facing the feeding end of the conveying belt 1. The supporting seat 31 is provided with an air cylinder 32, the air cylinder 32 is provided with a connecting assembly 33 towards one side of the conveying belt 1, and the connecting assembly 33 is positioned above the conveying belt 1. The side, away from the air cylinder 32, of the connecting assembly 33 is fixedly connected with a crushing assembly 34, the crushing assembly 34 is located above the conveying belt 1, and the crushing assembly 34 slides back and forth along the direction perpendicular to the conveying direction of the conveying belt 1.

Referring to fig. 1 and 3, the connection assembly 33 includes a vertically disposed connection plate 331, the connection plate 331 is located on a side of the cylinder 32 facing the conveyor belt 1, and a piston rod of the cylinder 32 is fixedly connected to the connection plate 331. Connecting plate 331 deviates from cylinder 32 one side fixedly connected with four connecting rods 332, and connecting rod 332 length direction is parallel with the flexible direction of cylinder 32 piston rod, and four connecting rods 332 are evenly interval distribution on connecting plate 331.

Referring to fig. 1 and 3, the crushing assembly 34 includes a crushing plate 341 fixedly attached to the connecting rod 332, the crushing plate 341 being located at an end of the connecting rod 332 facing the conveying belt 1, the crushing plate 341 being vertically disposed, the crushing plate 341 being located above the conveying belt 1. The crushing plate 341 is fixedly connected with a plurality of rows of tapered teeth 342 on the side facing the conveying belt 1, and the plurality of rows of tapered teeth 342 are arranged along the conveying direction of the conveying belt 1.

The cylinder 32 is started, the piston rod of the cylinder 32 drives the connecting plate 331 to slide in a reciprocating manner in a direction perpendicular to the conveying direction of the conveying belt 1, the connecting plate 331 drives the crushing plates 341 to slide in a reciprocating manner in a direction perpendicular to the conveying direction of the conveying belt 1, the two crushing plates 341 crush the large block raw materials, and the crushed raw materials pass through the separating rod 22 to be transported continuously.

The application embodiment of a compound microorganism bacterial manure production is with broken transmission device's of separation implementation principle does: the material is transported along the conveyor belt 1, and when transported to the separating rod 22, the small pieces and the powdery material can be transported further on the conveyor belt 1 through the separating rod 22. The large bulk material is blocked by the separating rod 22 to be accumulated at the separating rod 22. The cylinder 32 is started, the piston rod of the cylinder 32 drives the connecting plate 331 to slide in a reciprocating manner in a direction perpendicular to the conveying direction of the conveying belt 1, the connecting plate 331 drives the crushing plates 341 to slide in a reciprocating manner in a direction perpendicular to the conveying direction of the conveying belt 1, the two crushing plates 341 crush the large block raw materials, and the crushed raw materials pass through the separating rod 22 to be transported continuously.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a compound production of microbial manure is with broken transmission device of separation which characterized in that: including conveyer belt (1), be provided with feed mechanism (2) that are used for separating different block size raw materials on conveyer belt (1), feed mechanism (2) are close to conveyer belt (1) feed end setting, are provided with crushing mechanism (3) that are used for broken bold body raw materials subaerially, crushing mechanism (3) are located feed mechanism (2) towards conveyer belt (1) feed end one side.

2. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 1, wherein: the material distribution mechanism (2) comprises a supporting component (21), a separating component is fixedly connected to the supporting component (21), and the separating component is located above the conveying belt (1).

3. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 2, wherein: support assembly (21) include two first bracing pieces (211), two fixedly connected with second bracing piece (212) between first bracing piece (211), second bracing piece (212) are located conveyer belt (1) top, separation assembly includes many separating rod (22) of fixed connection on second bracing piece (212), and the fritter and powdered raw materials can pass between many separating rod (22).

4. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 1, wherein: the crushing mechanism (3) comprises an air cylinder (32), a crushing assembly (34) is arranged on one side, facing the conveying belt (1), of the air cylinder (32), the crushing assembly (34) comprises crushing plates (341), the two sides of the conveying direction of the conveying belt (1) are provided with the crushing plates (341), and one crushing plate (341) slides in a reciprocating mode in the direction close to the other crushing plate (341).

5. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 4, wherein: the crushing plate (341) is fixedly connected with a plurality of rows of conical teeth (342).

6. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 5, wherein: be provided with coupling assembling (33) on conveyer belt (1), coupling assembling (33) one side and cylinder (32) piston rod fixed connection, coupling assembling (33) opposite side and crushing plate (341) fixed connection.

7. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 6, wherein: the connecting assembly (33) comprises a vertically arranged connecting plate (331), one side of the connecting plate (331) is fixedly connected with a piston rod of the air cylinder (32), the other side of the connecting plate (331) is fixedly connected with a connecting rod (332), the connecting rod (332) is perpendicular to the connecting plate (331), and the other end of the connecting rod (332) is fixedly connected with the crushing plate (341).

8. The separation and crushing transmission device for producing the compound microbial fertilizer as claimed in claim 7, wherein: the connecting rods (332) are arranged into a plurality of pieces, and the connecting rods (332) are uniformly distributed on the connecting plate (331) at intervals.

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