CN220194749U - Full-automatic bulk blending fertilizer production facility - Google Patents

Abstract

The utility model provides full-automatic blending fertilizer production equipment which comprises a feeding frame, a roller mixer and a packaging frame, wherein a feeding platform is arranged below the inner part of the feeding frame, a plurality of raw material bins are arranged on one side of the feeding platform, a plurality of electric hoists are arranged at the top of the feeding frame, a quantitative feeder is arranged below each raw material bin on the feeding frame, an aggregate belt conveyor is arranged on one side outside the feeding frame, the aggregate belt conveyor is arranged below the quantitative feeder, a finished product bin is arranged above the packaging frame, a packaging machine is arranged below the finished product bin, the aggregate belt conveyor is connected with the roller mixer through a feeding belt conveyor, and the roller mixer is connected with the finished product bin through a discharging belt conveyor. The whole set of production line only needs to manually carry out raw material feeding before production, and all full-automatic control flows such as feeding, proportioning, mixing, bagging and the like in the production process do not need manual operation, so that the labor is saved, and the production efficiency and the finished product qualification rate are improved.

Description

Full-automatic bulk blending fertilizer production facility

Technical Field

The utility model belongs to the technical field of blending fertilizer production equipment, and particularly relates to full-automatic blending fertilizer production equipment.

Background

The mixed fertilizer is also called dry mixed fertilizer, which is prepared by taking two or more than two simple substance fertilizers or compound fertilizers with similar particle sizes as raw materials according to a certain proportion and mechanically mixing. The blended fertilizer has the advantages of simple production process and flexible operation, and the nutrient proportion can be adjusted and controlled according to the requirements of field crops.

The existing blended fertilizer production equipment is not intelligent enough in the production and preparation process, flexible judgment cannot be made on the amount of raw materials and the type requirements, the manual mass production pressure is increased, and the operation of workers is very inconvenient.

Therefore, the existing production process of the blended fertilizer needs to be further improved.

Disclosure of Invention

Aiming at the defects pointed out in the background art, the utility model aims to provide full-automatic blended fertilizer production equipment.

In order to achieve the above object, the technical scheme of the present utility model is as follows:

the utility model provides a full-automatic bulk blending fertilizer production facility, includes from left to right feeding frame, cylinder blendor and the packing frame that sets gradually, feeding frame inside below is provided with the feeding platform, feeding platform one side is provided with a plurality of former feed bins, feeding frame top is provided with a plurality of electric block, feeding frame in each former feed bin below is provided with the ration feeder, feeding frame outside one side is provided with aggregate belt conveyor, aggregate belt conveyor is located the ration feeder below, the packing frame top is provided with the finished product storehouse, the packing frame in finished product storehouse below is provided with packagine machine, aggregate belt conveyor passes through the material loading belt conveyor and connects the cylinder blendor, the cylinder blendor passes through the unloading belt conveyor and connects the finished product storehouse.

As a preferred technical scheme, the cylinder blendor includes support body, barrel and motor, the support body top is through bearing frame movable mounting has the pivot of slope, the motor is fixed support body top right-hand member, the motor drive is connected with the speed reducer, the output shaft of speed reducer passes through the coupling joint the pivot, the pivot is connected through three sets of supporting seats of establishing on its axis the barrel, the screen cloth has been laid to the barrel of barrel right half, the support body upper left side is fixed with the feeder hopper, the feeder hopper end stretches into the barrel front end, the support body lower right side is fixed with and connects unloading belt conveyor connect the hopper.

As a preferable technical scheme, the receiving hopper is provided with a main discharge hole opposite to the tail end of the cylinder body and a secondary discharge hole opposite to the screen mesh, and the discharging belt conveyor is used for connecting the main discharge hole with the finished product bin.

As an optimized technical scheme, the rolling brush is movably arranged on one side of the right end of the frame body, the brush surface of the rolling brush is clung to the outer peripheral surface of the screen, a belt wheel is arranged at one end of the rolling brush, a driving mechanism is fixed on one side of the right end of the frame body, and the driving mechanism is connected with the belt wheel through a belt.

As a preferred technical scheme, the quantitative feeder comprises a belt scale, a feeding hopper is erected at the right end of the belt scale through a supporting frame, the feeding hopper is positioned below the raw material bin, a discharge hole is formed below the front end of the feeding hopper, a plurality of groups of material distributing rods which are transversely arranged are fixed on the inner wall of the rear of the feeding hopper, and the material distributing rods are obliquely directed to the discharge hole.

After the technical scheme is adopted, the utility model has the beneficial effects that:

the whole set of production line only needs to manually carry out raw material feeding before production, and all full-automatic control flows such as feeding, proportioning, mixing, bagging and the like in the production process do not need manual operation, so that the labor is saved, and the production efficiency and the finished product qualification rate are improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of a feeding frame;

FIG. 3 is a schematic diagram of the structure of a dosing machine;

fig. 4 is a schematic structural view of the raw material bin.

In the figure: 1. the feeding machine comprises a feeding frame, 2, an electric hoist, 3, a feeding platform, 4, a raw material bin, 5, a quantitative feeder, 6, an aggregate belt conveyor, 7, a feeding belt conveyor, 8, a roller mixer, 9, a blanking belt conveyor, 10, a finished product bin, 11, a packaging machine, 12, a feeding hopper, 13, a frame body, 14, a rotating shaft, 15, a supporting seat, 16, a barrel, 17, a feeding hopper, 18, a secondary discharge hole, 19, a main discharge hole, 20, a screen, 21, a rolling brush, 22, a belt pulley, 23, a speed reducer, 24, a belt balance, 25 and a material distributing rod.

Detailed Description

Features and exemplary embodiments of various aspects of the present utility model will be described in detail below, and in order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail below with reference to the accompanying drawings and the detailed embodiments. It should be understood that the specific embodiments described herein are merely configured to illustrate the utility model and are not configured to limit the utility model. It will be apparent to one skilled in the art that the present utility model may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the utility model by showing examples of the utility model.

The directional terms appearing in the following description are those directions shown in the drawings and do not limit the specific structure of the utility model. In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

The following describes in detail the technical solutions provided by the embodiments of the present utility model with reference to fig. 1 to fig. 4.

The utility model relates to full-automatic bulk blending fertilizer production equipment which comprises a feeding frame 1, a roller mixer 8 and a packaging frame which are sequentially arranged from left to right. A feeding platform 3 is arranged below the inside of the feeding frame 1, a plurality of raw material bins 4 are arranged on one side of the feeding platform 3, and a plurality of electric hoists 2 for hoisting raw materials are arranged at the top of the feeding frame 1. One side outside the feeding frame 1 is provided with a material collecting belt conveyor 6, the feeding frame 1 is provided with a quantitative feeder 5 below each raw material bin 4, and the material collecting belt conveyor 6 is positioned below the quantitative feeder 5. The discharge gate of each former feed bin 4 is equipped with pneumatic push-pull valve, and when pneumatic push-pull valve opened, the material in the former feed bin 4 falls into corresponding quantitative feeder 5, and quantitative feeder 5 is according to setting for the ratio automatic conveying to the belt conveyor that gathers materials 6.

The quantitative feeder 5 comprises a belt scale 24, a feeding hopper 12 is arranged at the right end of the belt scale 24 through a supporting frame, the feeding hopper 12 is positioned below the raw material bin 4, a discharge hole is arranged below the front end of the feeding hopper 12, a plurality of groups of material distributing rods 25 which are transversely arranged are fixed on the inner wall at the rear of the feeding hopper 12, and the material distributing rods 25 are obliquely directed to the discharge hole. The material in the raw material bin 4 may be hardened due to damp, edges and corners of the hardened material can continuously strike the belt surface of the belt scale 24, and the belt can be worn and aged over time, so that the service life of the belt is shortened. Therefore, the materials in the raw material bin 4 can be split when entering the feeding hopper 12. The finely divided materials directly fall on the belt scale 24 through gaps among the material distribution rods 25, the large materials are blocked by an array formed by the material distribution rods 25 and then fall along the material distribution rods 25, so that the falling time of the large materials is prolonged, the finely divided materials fall on the belt scale 24 in one step firstly due to the existence of time difference, a protective layer is formed on the belt scale 24 by paving the finely divided materials, the large materials are paved on the finely divided materials, the abrasion of the belt scale 24 by the large materials is avoided, and the service life of the belt is prolonged.

A finished product bin 10 is arranged above the packaging machine frame, a packaging machine 11 is arranged below the finished product bin 10, the material collecting belt conveyor 6 is connected with a roller mixer 8 through a material feeding belt conveyor 7, and the roller mixer 8 is connected with the finished product bin 10 through a material discharging belt conveyor 9. And a pneumatic gate valve is also arranged below the finished product bin 10, and when the pneumatic gate valve is opened, materials in the finished product bin 10 fall into a packaging bag sleeved on the packaging machine 11 in advance, so that the packaging is completed.

The drum mixer 8 includes a frame 13, a bowl 16, and a motor. The top of the frame 13 is movably provided with an inclined rotating shaft 14 through a bearing seat, a motor is fixed at the right end of the top of the frame 13, the motor is connected with a speed reducer 23 in a driving manner, and an output shaft of the speed reducer 23 is connected with the rotating shaft 14 through a coupling. The rotating shaft 14 is connected with the cylinder 16 through three groups of supporting seats 15 arranged on the shaft body, and the screen 20 is arranged on the cylinder body of the right half part of the cylinder 16. The motor drives the rotating shaft 14 to rotate through the speed reducer 23, so as to drive the cylinder 16 to rotate, and the granular materials roll over and roll in the cylinder 16, thereby achieving the aim of mixing.

A feed hopper 17 is fixed at the upper left of the frame 13, the tail end of the feed hopper 17 extends into the front end of the cylinder 16, and a receiving hopper connected with the blanking belt conveyor 9 is fixed at the lower right of the frame 13. The receiving hopper is provided with a main discharge hole 19 facing the tail end of the cylinder 16 and a secondary discharge hole 18 facing the screen 20, and the discharging belt conveyor 9 connects the main discharge hole 19 with the finished product bin 10. When the material flows through the screen 20, the mixed material falls onto the blanking belt conveyor 9 from the main discharge port 9, the crushed or granular materials with unconditional mesh numbers are screened out through meshes of the screen 20, and finally the materials flow out from the secondary discharge port 18.

The right end side of the frame 13 is movably provided with a rolling brush 21, the brush surface of the rolling brush 21 is clung to the peripheral surface of the screen 20, one end of the rolling brush 21 is provided with a belt wheel 22, one side of the right end of the frame 13 is fixedly provided with a driving mechanism, and the driving mechanism is connected with the belt wheel 22 through a belt. The driving mechanism drives the rolling brush 21 to rotate through the belt, and along with the rotation of the cylinder 16, the rolling brush 21 can timely clean materials clamped on meshes of the screen 20, and the screen 20 is not easy to block.

In accordance with the above embodiments of the utility model, these embodiments are not exhaustive of all details, nor are they intended to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model and various modifications as are suited to the particular use contemplated. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. A full-automatic bulk blending fertilizer production facility which characterized in that: including throwing material frame (1), cylinder blendor (8) and the packing frame that set gradually from a left side to the right side, throw material frame (1) inside below and be provided with throw material platform (3), throw material platform (3) one side and be provided with a plurality of former feed bin (4), throw material frame (1) top is provided with a plurality of electric hoist (2), throw material frame (1) in every former feed bin (4) below is provided with ration feeder (5), throw material frame (1) outside one side and be provided with aggregate belt conveyer (6), aggregate belt conveyer (6) are located ration feeder (5) below, the packing frame top is provided with finished product storehouse (10), the packing frame in finished product storehouse (10) below is provided with packagine machine (11), aggregate belt conveyer (6) are connected through material loading belt conveyer (7) cylinder blendor (8), cylinder blendor (8) are connected through unloading belt conveyer (9) finished product storehouse (10).

2. The fully automatic blended fertilizer production equipment according to claim 1, wherein: the roller mixer (8) comprises a frame body (13), a cylinder body (16) and a motor, wherein an inclined rotating shaft (14) is movably mounted at the top of the frame body (13) through a bearing seat, the motor is fixed at the right end of the top of the frame body (13), a speed reducer (23) is connected with a motor drive, an output shaft of the speed reducer (23) is connected with the rotating shaft (14) through a coupling, the rotating shaft (14) is connected with the cylinder body (16) through three groups of supporting seats (15) arranged on the shaft body of the rotating shaft, a screen (20) is arranged on the cylinder body of the right half part of the cylinder body (16), a feed hopper (17) is fixed at the upper left side of the frame body (13), the tail end of the feed hopper (17) extends into the front end of the cylinder body (16), and a receiving hopper connected with the blanking belt conveyor (9) is fixed at the lower right side of the frame body (13).

3. The fully automatic blended fertilizer production equipment according to claim 2, wherein: the receiving hopper is provided with a main discharge hole (19) right opposite to the tail end of the cylinder body (16) and a secondary discharge hole (18) right opposite to the screen (20), and the discharging belt conveyor (9) is used for connecting the main discharge hole (19) with the finished product bin (10).

4. A fully automatic blended fertilizer production apparatus according to claim 3, characterized in that: the novel screen printing machine is characterized in that a rolling brush (21) is movably mounted on one side of the right end of the frame body (13), a brush surface of the rolling brush (21) is tightly attached to the outer peripheral surface of the screen (20), a belt wheel (22) is arranged at one end of the rolling brush (21), a driving mechanism is fixed on one side of the right end of the frame body (13), and the driving mechanism is connected with the belt wheel (22) through a belt.

5. The fully automatic blended fertilizer production equipment according to claim 1, wherein: the quantitative feeder (5) comprises a belt scale (24), a feeding hopper (12) is arranged at the right end of the belt scale (24) through a supporting frame, the feeding hopper (12) is positioned below the raw material bin (4), a discharge hole is formed below the front end of the feeding hopper (12), a plurality of groups of material distributing rods (25) which are transversely arranged are fixed on the inner wall at the rear of the feeding hopper (12), and the material distributing rods (25) are obliquely directed to the discharge hole.