CN220496552U - Brick fertilizer apparatus for producing of accurate control material proportion - Google Patents

Abstract

The utility model discloses a brick fertilizer production device capable of accurately controlling the material proportion, relates to the technical field of agricultural equipment, and mainly aims to provide a brick fertilizer production device capable of accurately controlling the material proportion in brick fertilizer. The main technical scheme of the utility model is as follows: a brick fertilizer apparatus for producing of accurate control material proportion includes: the grinding assembly is characterized in that one end of the movable pipeline is connected with the grinding part, the other end of the movable pipeline is connected with the blanking valve, the upper part of the storage box is detachably connected with the blanking valve, the lower part of the storage box is provided with a blanking opening, the weighing part is arranged in the storage box, the rotating disc is arranged on the upper part of the weighing part, and the stirring part is connected with the blanking opening; the shaping part has extrusion recess in the extrusion case, and the one end of unloading pipeline is connected in stirring part, and the other end passes the extrusion case and stretches to extrusion recess's side, and the extruder setting has the rotor plate in extrusion recess's upper portion, extrusion recess's lower part. The utility model is mainly used for manufacturing the brick fertilizer.

Description

Brick fertilizer apparatus for producing of accurate control material proportion

Technical Field

The utility model relates to the technical field of agricultural equipment, in particular to a brick fertilizer production device capable of accurately controlling material proportion.

Background

The brick fertilizer is a platy fertilizer compressed by various nutrient materials and is usually used for fertilizing fruit trees or arid lands, and the brick fertilizer is extruded and molded after being mixed and stirred by various materials, so that the manufacturing process is complicated.

The existing brick fertilizer manufacturing method is that firstly, crushing is carried out through crushing equipment, then stirring is carried out through stirring equipment, but due to different mass and density between different materials, after stirring, the mass of the materials is larger, then the stirred materials are poured into extrusion equipment for extrusion, at the moment, the mass of the materials is larger, and in the pouring process, the materials with lighter mass are poured out and extruded, so that the material proportion in the brick fertilizer is uneven.

Disclosure of Invention

In view of the above, the embodiment of the utility model provides a brick fertilizer production device capable of accurately controlling the material proportion, and mainly aims to provide a brick fertilizer production device capable of accurately controlling the material proportion in brick fertilizer.

In order to achieve the above purpose, the present utility model mainly provides the following technical solutions:

the embodiment of the utility model provides a brick fertilizer production device capable of accurately controlling material proportion, which comprises the following components:

the crushing assembly comprises a crushing part, a distributing part and a stirring part, wherein the crushing part comprises a polishing part, a movable pipeline and a discharging valve, one end of the movable pipeline is connected with the polishing part, the other end of the movable pipeline is connected with the discharging valve, the distributing part comprises a plurality of storage parts, each storage part comprises a storage box, a weighing part and a rotating disc, the upper part of the storage box is detachably connected with the discharging valve, a discharging opening is formed in the lower part of the storage box, the weighing part is arranged in the storage box, the rotating disc is arranged on the upper part of the weighing part, and the stirring part is connected with the discharging opening;

the forming part, forming part includes unloading pipeline, extrusion case, extruder and conveyer belt, extrusion incasement has extrusion recess, unloading pipeline one end connect in stirring part, the other end pass extrusion case and stretch to extrusion recess's side, the extruder sets up extrusion recess's upper portion, extrusion recess's lower part has the rotor plate, the conveyer belt sets up the lower part of rotor plate.

Further, the weighing part comprises a weighing platform, a telescopic column and a first controller, the rotating disc comprises a rotating shaft and a disc body, the rotating shaft is connected with the disc body, and the first controller is electrically connected with the telescopic column and the weighing platform.

Further, the material distributing component further comprises a moving vehicle and a moving track, the moving track is arranged on the upper portion of the material storage box, the discharging valve is arranged on the side face of the moving vehicle, and the moving vehicle is connected with the moving track in a rolling mode.

Further, the stirring part comprises a stirring box, a stirrer and a feeding pipeline, one end of the feeding pipeline is connected to the discharging opening of each storage box, the other end of the feeding pipeline is connected to the upper portion of the stirring box, the stirrer is arranged in the stirring box, and the discharging pipeline is connected to the bottom of the stirring box.

Further, the water supply assembly is connected to the upper portion of the stirring tank.

Further, the forming part further comprises a spiral plate, and the spiral plate is spirally and circumferentially arranged on the inner side face of the extrusion box.

Further, the forming part further comprises a plurality of partition boards, the number of the extrusion grooves is multiple, and the partition boards are arranged between the adjacent extrusion grooves.

Further, a first included angle is formed between the spiral plate and the extrusion box, and the first included angle is 85-88 degrees.

Further, the forming part further comprises a blocking part, the blocking part comprises a rotating rod and a driving part, the driving part is connected with the rotating rod, and the rotating rod is arranged at the bottom of the rotating plate.

Compared with the prior art, the utility model has the following technical effects:

in the technical scheme provided by the embodiment of the utility model, the crushing assembly is used for crushing and stirring materials, the crushing assembly comprises a crushing part, a distributing part and a stirring part, the crushing part comprises a polishing part, a moving pipeline and a discharging valve, one end of the moving pipeline is connected with the polishing part, the other end of the moving pipeline is connected with the discharging valve, the distributing part comprises a plurality of storage parts, each storage part comprises a storage box, a weighing part and a rotating disc, the upper part of the storage box is detachably connected with the discharging valve, the lower part of the storage box is provided with a discharging opening, the weighing part is arranged in the storage box, the rotating disc is arranged on the upper part of the weighing part, and the stirring part is connected with the discharging opening; the forming part has the function of extrusion forming of materials, the forming part comprises a blanking pipeline, an extrusion box, an extruder and a conveyor belt, wherein an extrusion groove is formed in the extrusion box, one end of the blanking pipeline is connected with the stirring part, the other end of the blanking pipeline penetrates through the extrusion box and extends to the side face of the extrusion groove, the extruder is arranged at the upper part of the extrusion groove, a rotating plate is arranged at the lower part of the extrusion groove, the conveyor belt is arranged at the lower part of the rotating plate, compared with the prior art, the conveyor belt firstly pulverizes by a pulverizing device and then stirs by the stirring device, but due to different mass and density of different materials, after stirring, the materials with larger mass sink, then the stirred materials are poured into the extrusion device for extrusion, at the moment, the materials with larger mass sink, and in the pouring process, the materials with lighter mass are poured out and extruded, so that the material proportion in the brick fertilizer is uneven, in the technical scheme, different materials are crushed sequentially through the polishing component and then conveyed into the storage box, the weighing component weighs the materials, then the rotating disc is started, different materials are conveyed into the stirring component to be stirred, after a certain period of stirring, the blanking pipeline is started, the materials in the stirring process enter the extrusion box from the blanking pipeline, and because the materials are in the stirring process, gaps among the different materials are relatively uniform, the materials fall into the extrusion groove after entering the extrusion box, the extrusion machine extrudes the mixed materials, the brick fertilizer is formed after extrusion molding, the rotating plate is opened, the brick fertilizer enters the conveying belt and is transported, so that the effect of relatively uniform material proportion in the brick fertilizer is achieved, thereby achieving the technical effect of precisely controlling the material proportion in the brick fertilizer.

Drawings

FIG. 1 is a schematic structural diagram of a brick fertilizer production device capable of precisely controlling material proportion according to an embodiment of the utility model;

FIG. 2 is a schematic structural view of a pulverizing unit according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of a material distributing component according to an embodiment of the present utility model;

fig. 4 is a schematic structural view of a stirring component according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a molded part according to an embodiment of the present utility model;

fig. 6 is a schematic top view of an extrusion box according to an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples.

As shown in fig. 1 to 6, an embodiment of the present utility model provides a tile fertilizer production device for precisely controlling a material ratio, the device comprising:

the crushing assembly comprises a crushing part 11, a distributing part 12 and a stirring part 13, wherein the crushing part 11 comprises a grinding part 111, a movable pipeline 112 and a discharging valve 113, one end of the movable pipeline 112 is connected with the grinding part 111, the other end of the movable pipeline is connected with the discharging valve 113, the distributing part 12 comprises a plurality of storage parts, each storage part comprises a storage box 121, a weighing part and a rotating disc 123, the upper part of the storage box 121 is detachably connected with the discharging valve 113, a discharging opening is formed in the lower part of the storage box 121, the weighing part is arranged in the storage box 121, the rotating disc 123 is arranged on the upper part of the weighing part, and the stirring part 13 is connected with the discharging opening;

the shaping part, shaping part includes unloading pipeline 21, extrusion case 22, extruder 23 and conveyer belt 24, has extrusion recess 221 in the extrusion case 22, and the one end of unloading pipeline 21 is connected in stirring part 13, and the other end passes extrusion case 22 and stretches to the side of extrusion recess 221, and extruder 23 sets up in the upper portion of extrusion recess 221, and the lower part of extrusion recess 221 has rotating plate 222, and conveyer belt 24 sets up the lower part at rotating plate 222.

In the technical scheme provided by the embodiment of the utility model, the crushing assembly is used for crushing and stirring materials, the crushing assembly comprises a crushing part 11, a distributing part 12 and a stirring part 13, the crushing part 11 comprises a grinding part 111, a movable pipeline 112 and a discharging valve 113, one end of the movable pipeline 112 is connected with the grinding part 111, the other end is connected with the discharging valve 113, the distributing part 12 comprises a plurality of storage parts, each storage part comprises a storage box 121, a weighing part and a rotating disc 123, the upper part of the storage box 121 is detachably connected with the discharging valve 113, a discharging opening is arranged at the lower part of the storage box 121, the weighing part is arranged in the storage box 121, the rotating disc 123 is arranged at the upper part of the weighing part, and the stirring part 13 is connected with the discharging opening; the forming part is used for extrusion forming of materials, the forming part comprises a blanking pipeline 21, an extrusion box 22, an extruder 23 and a conveyor belt 24, an extrusion groove 221 is formed in the extrusion box 22, one end of the blanking pipeline 21 is connected with the stirring part 13, the other end of the blanking pipeline passes through the extrusion box 22 and extends to the side face of the extrusion groove 221, the extruder 23 is arranged at the upper part of the extrusion groove 221, a rotating plate 222 is arranged at the lower part of the extrusion groove 221, the conveyor belt 24 is arranged at the lower part of the rotating plate 222, compared with the prior art, the materials are crushed firstly by a crushing device and then stirred by the stirring device, but due to different mass and density between different materials, after stirring, the materials with larger mass sink, then the stirred materials are poured into the extrusion device for extrusion, at the moment, the materials with larger mass sink, and in the pouring process, firstly pouring out and extruding materials with lighter mass, so as to lead to uneven material proportion in the brick fertilizer, in the technical scheme, firstly crushing different materials in sequence through a polishing component 111, then conveying the crushed materials into a storage box 121, weighing the materials by a weighing component, then starting a rotating disc 123, conveying the different materials into a stirring component 13 for stirring, opening a blanking pipeline 21 after stirring for a certain time, leading the materials in the stirring process to enter an extruding box 22 from the blanking pipeline 21, and because the materials are in the stirring process, gaps among the different materials are relatively uniform, the materials fall into an extruding groove 221 after entering the extruding box 22, the extruding machine 23 extrudes the mixed materials, a brick fertilizer is formed after extrusion molding, a rotating plate 222 is opened, the brick fertilizer enters a conveying belt 24 and is conveyed, so that the effect of leading the material proportion in the brick fertilizer to be relatively uniform is achieved, thereby achieving the technical effect of precisely controlling the material proportion in the brick fertilizer.

Further, the weighing means comprises a weighing platform 1221, a telescopic column 1222 and a first controller, the rotating disc 123 comprises a rotating shaft and a disc body, the rotating shaft is connected to the disc body, and the first controller is electrically connected to the telescopic column 1222 and the weighing platform 1221. In this embodiment, a weighing part is further defined, the weighing part is used for weighing the weight of a material, after the material enters the storage tank 121, a discharge valve is arranged on the upper portion of the weighing platform 1221, when the material is needed, the discharge valve is opened, the material falls on the upper portion of a tray body of the weighing platform 1221, the weighing platform 1221 weighs the tray body, when the weight of the material meets a preset value, the first controller controls the discharge valve to be closed, then the telescopic column 1222 is started to enable the tray body to rotate around the axis of the rotating shaft, the material on the tray body is discharged from the discharge opening and enters the stirring part 13, and when all the material enters the stirring part 13, the stirring part 13 is started to mix and stir the material, thereby achieving the technical effect of feeding and weighing the material.

Further, the material distributing part 12 further comprises a moving vehicle 124 and a moving rail 125, the moving rail 125 is arranged at the upper part of the storage box 121, the material discharging valve 113 is installed at the side surface of the moving vehicle 124, and the moving vehicle 124 is connected to the moving rail 125 in a rolling manner. In this embodiment, the material distributing member 12 is further defined, the moving vehicle 124 is used to drive the blanking valve 113 and the moving pipe 112 to move, when one material is crushed, the blanking valve 113 and the moving pipe 112 are fixed on the upper portion of one of the storage boxes 121, and when another material needs to be crushed, the moving vehicle 124 moves to the upper portion of the other storage box 121 on the moving rail 125, then the position of the moving vehicle 124 is fixed, and then the blanking valve 113 is opened, so that the material enters the storage boxes 121, thereby achieving the technical effect of conveniently distributing different materials.

Further, the stirring member 13 comprises a stirring tank 131, a stirrer 132 and a feeding pipe 133, one end of the feeding pipe 133 is connected to the feed opening of each storage tank 121, the other end is connected to the upper portion of the stirring tank 131, the stirrer 132 is disposed in the stirring tank 131, and the feed pipe 21 is connected to the bottom of the stirring tank 131. In this embodiment, the stirring member 13 is further defined, the stirrer 132 is installed in the stirring tank 131, the stirrer 132 stirs and mixes the mixed materials by rotating, one end of the feeding pipe 133 is connected to the feed opening of each storage tank 121, the other end is connected to the upper portion of the stirring tank 131, the materials discharged from each storage tank 121 enter the stirring tank 131 from the feeding pipe 133, the stirrer 132 is started to uniformly stir the mixed materials, after stirring for a certain period of time, the feed opening is opened, and the mixed materials enter the extrusion tank 22 from the feed pipe 21, thereby achieving the technical effect of discharging the mixed materials.

Further, a water supply assembly 134 is added, and the water supply assembly 134 is connected to an upper portion of the stirring tank 131. In this embodiment, the water supply assembly 134 is added, the water supply assembly 134 is used for providing water into the stirring tank 131, the water supply assembly 134 is connected to the upper portion of the stirring tank 131, the water supply assembly 134 is opened in the stirring process, and quantitative water is conveyed into the stirring tank 131, so that materials are convenient to mix, and the technical effect of mixing the materials is achieved.

Further, the molding member further includes a spiral plate spirally disposed around the inner side surface of the extrusion box 22. In this embodiment, the forming part is further defined, the spiral plate is disposed on the inner side surface of the extrusion box 22, the spiral plate is spirally wound on the inner side surface of the extrusion box 22, so that after the mixed material enters the extrusion box 22, a first included angle is formed between the spiral plate and the extrusion box 22, the first included angle is 85-88 degrees, the mixed material falls into the extrusion groove 221 along the spiral plate at a certain distance under the action of inertia, the first included angle is formed between the spiral plate and the extrusion box 22, the first included angle is 85-88 degrees, and the mixed material enters the extrusion groove 221 under the action of inertia and gravity, so that the technical effect of mixing the mixed material is achieved.

Further, the molding member further includes a plurality of spacers 25, the pressing grooves 221 are plural, and the spacers 25 are disposed between adjacent pressing grooves 221. In this embodiment, the forming member is further defined, and the partition plates 25 are disposed in the spaces between the adjacent pressing grooves 221, so that the mixed material can enter the pressing grooves 221 under the action of the partition plates 25, thereby achieving the technical effect of facilitating the mixed material to enter the pressing grooves 221.

Further, the molding part further includes a blocking part including a rotation lever 261 and a driving part 262, the driving part 262 is connected to the rotation lever 261, and the rotation lever 261 is disposed at the bottom of the rotation plate 222. In this embodiment, a blocking component is added, the blocking component is used to limit the position of the rotating plate 222, when the material enters the extrusion groove 221, the rotating plate 222 is fixed under the action of the rotating rod 261, the rotating rod 261 can block the rotating plate 222, the rotating plate 222 is prevented from rotating, the rotating rod 261 remains fixed when the extrusion machine 23 extrudes, after the extrusion of the extrusion machine 23 is completed, the driving component 262 is started, the rotating rod 261 rotates, the rotating plate 222 is opened under the action of gravity, then the extrusion machine 23 is continuously started, and the extrusion machine 23 extrudes the extruded brick fertilizer from the extrusion groove 221, so that the technical effect of conveniently discharging the brick fertilizer is achieved.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a brick fertilizer apparatus for producing of accurate control material proportion which characterized in that includes:

the crushing assembly comprises a crushing part, a distributing part and a stirring part, wherein the crushing part comprises a polishing part, a movable pipeline and a discharging valve, one end of the movable pipeline is connected with the polishing part, the other end of the movable pipeline is connected with the discharging valve, the distributing part comprises a plurality of storage parts, each storage part comprises a storage box, a weighing part and a rotating disc, the upper part of the storage box is detachably connected with the discharging valve, a discharging opening is formed in the lower part of the storage box, the weighing part is arranged in the storage box, the rotating disc is arranged on the upper part of the weighing part, and the stirring part is connected with the discharging opening;

the forming part, forming part includes unloading pipeline, extrusion case, extruder and conveyer belt, extrusion incasement has extrusion recess, unloading pipeline one end connect in stirring part, the other end pass extrusion case and stretch to extrusion recess's side, the extruder sets up extrusion recess's upper portion, extrusion recess's lower part has the rotor plate, the conveyer belt sets up the lower part of rotor plate.

2. The brick fertilizer production device capable of precisely controlling the material proportion according to claim 1, wherein,

the weighing component comprises a weighing platform, a telescopic column and a first controller, the rotating disc comprises a rotating shaft and a disc body, the rotating shaft is connected with the disc body, and the first controller is electrically connected with the telescopic column and the weighing platform.

3. The brick fertilizer production device capable of precisely controlling the material proportion according to claim 1, wherein,

the material distributing component further comprises a moving vehicle and a moving track, the moving track is arranged on the upper portion of the storage box, the discharging valve is arranged on the side face of the moving vehicle, and the moving vehicle is connected with the moving track in a rolling mode.

4. The brick fertilizer production device capable of precisely controlling the material proportion according to claim 1, wherein,

the stirring part comprises a stirring box, a stirrer and a feeding pipeline, one end of the feeding pipeline is connected to the discharging opening of each storage box, the other end of the feeding pipeline is connected to the upper portion of the stirring box, the stirrer is arranged in the stirring box, and the discharging pipeline is connected to the bottom of the stirring box.

5. The tile fertilizer production device capable of precisely controlling material proportion according to claim 4, further comprising:

and the water supply assembly is connected to the upper part of the stirring tank.

6. The brick fertilizer production device capable of precisely controlling the material proportion according to any one of claims 1 to 5, wherein,

the forming part further comprises a spiral plate which is arranged on the inner side surface of the extrusion box in a spiral surrounding mode.

7. The brick fertilizer production device capable of precisely controlling the material proportion according to claim 6, wherein,

the forming part further comprises a plurality of partition boards, the number of the extrusion grooves is multiple, and the partition boards are arranged between the adjacent extrusion grooves.

8. The brick fertilizer production device capable of precisely controlling the material proportion according to claim 6, wherein,

the spiral plate and the extrusion box are provided with a first included angle, and the angle of the first included angle is 85-88 degrees.

9. The brick fertilizer production device capable of precisely controlling the material proportion according to any one of claims 1 to 5, wherein,

the forming part further comprises a blocking part, the blocking part comprises a rotating rod and a driving part, the driving part is connected with the rotating rod, and the rotating rod is arranged at the bottom of the rotating plate.