CN216440495U - Fertile blending tank of macroelement suspension - Google Patents

Abstract

The utility model relates to the technical field of suspended fertilizer production equipment, and provides a macroelement suspended fertilizer mixing tank which comprises a mixing tank body, wherein an end plate is sealed at the top of the mixing tank body, an end cover is arranged on the end plate, a stirrer driven by a motor is arranged in an inner cavity of the mixing tank body, a shearing disperser and a shearing emulsifier driven by the motor are respectively and oppositely arranged at two sides close to the stirrer, the bottom of the mixing tank body is communicated with a discharge pipeline, a support frame is arranged at the bottom of the inner cavity of the mixing tank body close to the discharge pipeline, and a filter screen is arranged on the support frame; the discharging pipeline is communicated with a first material conveying pipeline, the discharging end of the first material conveying pipeline is communicated with a feeding hopper of the colloid mill, and the discharging end of the colloid mill is communicated with a second material conveying pipeline and conveyed to a designated area through the second material conveying pipeline. The utility model solves the problems that most of the existing mixing tanks have single structures and can not be fully stirred and fused, so that the suspended fertilizer is easy to generate a crystallization or precipitation layer when being placed, and the quality of the suspended fertilizer is influenced.

Description

Fertile blending tank of macroelement suspension

Technical Field

The utility model relates to the technical field of suspended fertilizer production equipment, in particular to a major element suspended fertilizer mixing tank.

Background

The suspension fertilizer is a high-concentration liquid fertilizer, is a later-stage product of the liquid fertilizer, forms two main types of the liquid fertilizer together with a clear liquid fertilizer, has good dissolvability, high nutrient content, high uniformity of nutrients and convenient quality detection; in addition, the fertilizer can be well mixed with other pesticides or fertilizers for use so as to improve the absorption and utilization of crops to fertilizer nutrients and achieve the effects of saving fertilizer and increasing efficiency.

With the development of fertilizers in China and the progress of water and fertilizer integration, liquid suspended fertilizers are gradually valued for being more suitable for water-saving irrigation and fertilization, liquid suspended fertilizers in developed countries of foreign agriculture have already entered a very mature application period, which guides the development direction of the fertilizers in China, recognizes the current situation and the development direction of the liquid suspended fertilizer industry, promotes the healthy development of the liquid suspended fertilizer industry, and the liquid suspended fertilizers are typical energy-saving and environment-friendly products, which can be a new favorite in the fertilizer industry of China in the future and have huge market potential.

At present, suspension fertilizer is in production process, and the blending tank for mixing stirring mostly all has a single structure, and stirring that can not be abundant fuses, leads to the suspension fertilizer to appear crystallization or deposit the layer easily when placing, influences the fertile quality scheduling problem of suspension.

Therefore, the development of the macro-element suspended fertilizer mixing tank has urgent research value and also has good economic benefit and industrial application potential.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a major element suspension fertilizer mixing tank, which aims to solve the problems that the existing mixing tank is single in structure and cannot be fully stirred and fused, so that a crystallization or precipitation layer is easy to appear when the suspension fertilizer is placed, and the quality of the suspension fertilizer is influenced.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a macroelement suspended fertilizer mixing tank comprises a mixing tank body, wherein an end plate is sealed at the top of the mixing tank body, an openable end cover is mounted on the end plate, a stirrer driven by a motor is mounted in an inner cavity of the mixing tank body, a shearing disperser and a shearing emulsifier driven by the motor are respectively and oppositely mounted on two sides close to the stirrer, a discharge pipeline is communicated with the bottom of the mixing tank body, a support frame is mounted at the bottom of the inner cavity of the mixing tank body close to the discharge pipeline, and a filter screen is mounted on the periphery of the support frame;

the discharging pipeline is communicated with a first material conveying pipeline, the discharging end of the first material conveying pipeline is communicated with a feeding hopper of the colloid mill, and the discharging end of the colloid mill is communicated with a second material conveying pipeline and conveyed to a designated area through the second material conveying pipeline.

As an improved scheme, the first material conveying pipeline and the second material conveying pipeline are both provided with a conveying pump;

a first circulating pipeline is arranged between the first material conveying pipeline and the mixing tank body, and a second circulating pipeline is arranged between the second material conveying pipeline and a feed hopper of the colloid mill;

and the second material conveying pipeline is also communicated with a sampling pipeline at the position close to the colloid mill.

As an improved scheme, control valves are mounted on the discharge pipeline, the first conveying pipeline, the second conveying pipeline, the first circulating pipeline, the second circulating pipeline and the sampling pipeline.

As an improved scheme, two end covers are oppositely arranged on the end plate and are respectively positioned at two sides of the stirrer.

As an improved scheme, the stirrer comprises a stirring shaft driven by a motor, the bottom of the stirring shaft is rotatably installed on the support frame, a bottom stirring frame is arranged at the bottom, close to the mixing tank body, of the stirring shaft, and an upper stirring rod is arranged at the top of the bottom stirring frame on the stirring shaft.

As an improved scheme, the bottom layer stirring frame comprises first rod bodies which are oppositely arranged, the bottoms of the two first rod bodies are respectively and oppositely provided with a second rod body, the first rod body and the second rod body are both arranged on the stirring shaft, and one ends of the first rod body and the second rod body, which are far away from the stirring shaft, are connected with arc-shaped rod bodies;

the upper stirring rod comprises oppositely arranged third rod bodies, and the third rod bodies are respectively positioned at the top of the first rod body and are all arranged on the stirring shaft.

As an improved scheme, the first rod body, the second rod body and the third rod body are all obliquely arranged.

As an improved scheme, the shearing disperser comprises a first shearing shaft driven by a motor, the first shearing shaft faces one end of the bottom of the mixing tank body, and a plurality of shearing blades are arranged on the periphery of the shearing wheel disc.

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

the mixing tank is arranged, the top of the mixing tank is sealed by the end plate, the end plate is provided with the end cover which can be opened and closed, materials can be put into the mixing tank through the end cover which can be opened and closed, the inner cavity of the mixing tank is provided with the stirrer which is driven by the motor, the materials put into the mixing tank can be stirred and mixed through the stirrer, the two sides close to the stirrer are respectively and oppositely provided with the shearing disperser and the shearing emulsifier which are driven by the motor, and the materials in the mixing tank can be sheared and emulsified through the shearing disperser and the shearing emulsifier, so that the material solution is mixed more uniformly and fully, and the problem of crystallization or precipitation is avoided;

the bottom of the mixing tank body is communicated with a discharge pipeline, the discharge pipeline is communicated with a first material conveying pipeline, the discharge end of the first material conveying pipeline is communicated with a feed hopper of a colloid mill, materials are further sheared, emulsified, dispersed and homogenized through the colloid mill, the mixing and emulsifying effects of the suspended fertilizer are guaranteed, and the suspended fertilizer is conveyed to a designated area through a second material conveying pipeline;

the conveying pump is arranged to enable materials to flow in the first conveying pipeline and the second conveying pipeline, the first circulating pipeline is arranged between the first conveying pipeline and the mixing tank body, the first circulating pipeline enables the materials flowing out of the mixing tank body to be conveyed into the tank body again to be mixed and stirred again, the effects of mixing, shearing and emulsifying of the materials are guaranteed, the second circulating pipeline is arranged between the second conveying pipeline and the feeding hopper of the colloid mill, the second circulating pipeline enables the materials flowing out of the colloid mill to be conveyed into the hopper of the colloid mill again to be sheared and emulsified again, the effects and quality of mixing and emulsifying of suspended fertilizers are guaranteed, and by arranging the sampling pipeline, the materials processed by the colloid mill can be detected, and the mixing effect is guaranteed;

control valves are arranged on the discharge pipeline, the first material conveying pipeline, the second material conveying pipeline, the first circulating pipeline, the second circulating pipeline and the sampling pipeline, and the control valves can control the communication and the closing of the pipelines;

the agitator includes the (mixing) shaft, and the (mixing) shaft bottom is equipped with the bottom agitator frame, and the top is equipped with upper stirring rod, can carry out the intensive mixing to the internal material of blending tank through bottom agitator frame and upper stirring rod, makes the material mix more evenly abundant.

In conclusion, the utility model solves the problems that the existing mixing tank is single in structure and cannot be fully stirred and fused, so that a crystallization or sedimentation layer is easy to appear when the suspended fertilizer is placed, and the quality of the suspended fertilizer is influenced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the mixing tank of the present invention;

FIG. 3 is a schematic view of the construction of the stirrer according to the present invention;

wherein each numerical designation refers to a particular meaning, element, and/or component, respectively, as follows in the figures.

In the figure: 1. mixing tank body, 2, end plate, 3, end cover, 4, stirrer, 5, shearing disperser, 501, first shearing shaft, 502, shearing wheel disc, 503, shearing blade, 6, shearing emulsifier, 7, discharge pipeline, 8, support frame, 9, filter screen, 10, first conveying pipeline, 11, colloid mill, 12, second conveying pipeline, 13, delivery pump, 14, first circulating pipeline, 15, second circulating pipeline, 16, sampling pipeline, 17, control valve, 18, stirring shaft, 19, bottom layer stirring frame, 1901, first rod body, 1902, second rod body, 1903, arc rod body, 20, upper layer stirring rod, 2001, third rod body, 21, mounting bracket, 22, collecting box.

Detailed Description

The utility model is further illustrated by the following specific examples. The use and purpose of these exemplary embodiments are to illustrate the present invention, not to limit the actual scope of the present invention in any way, and not to limit the scope of the present invention in any way.

As shown in fig. 1-3, a macroelement suspended fertilizer mixing tank comprises a mixing tank body 1, wherein mounting brackets 21 are arranged around the mixing tank body 1, an end plate 2 is sealed at the top of the mixing tank body 1, an openable end cover 3 is mounted on the end plate 2, materials can be put into the mixing tank body 1 through the openable end cover 3, a stirrer 4 driven by a motor is mounted in an inner cavity of the mixing tank body 1, the materials put into the mixing tank body 1 can be stirred and mixed through the stirrer 4, a shearing disperser 5 and a shearing emulsifier 6 driven by the motor are respectively mounted near two sides of the stirrer 4, the shearing emulsifier 6 is a high-speed shearing emulsifier, which is common in daily life and belongs to the common general knowledge of technical personnel in the technical field, and therefore, the shearing disperser 5 and the shearing emulsifier 6 can shear the materials in the mixing tank body 1, Emulsifying to ensure that the material solution is mixed more uniformly and fully and avoid the problem of crystallization or precipitation, wherein the bottom of the mixing tank body 1 is communicated with a discharge pipeline 7, a collection tank 22 can be placed at the bottom of the discharge pipeline 7 and is used for cleaning impurities in the mixing tank body 1, a support frame 8 is arranged at the bottom of an inner cavity of the mixing tank body 1 close to the discharge pipeline 7, the support frame 8 is connected with a stirrer 4, a filter screen 9 is arranged on the periphery of the support frame 8, and the filter screen 9 is arranged to prevent impurities from entering the pipeline and blocking the pipeline;

the discharge pipeline 7 is communicated with a first material conveying pipeline 10 through a three-way joint, the discharge end of the first material conveying pipeline 10 is communicated with a feed hopper of a colloid mill 11, the discharge end of the colloid mill 11 is communicated with a second material conveying pipeline 12 and is conveyed to a designated area through the second material conveying pipeline 12, the colloid mill 11 is used for further shearing, emulsifying, dispersing and homogenizing materials, and the mixing and emulsifying effects of suspended fertilizers are guaranteed.

In this embodiment, referring to fig. 1, a conveying pump 13 is installed on each of the first conveying pipeline 10 and the second conveying pipeline 12, and the conveying pumps 13 are installed to enable materials to flow in the first conveying pipeline 10 and the second conveying pipeline 12;

a first circulating pipeline 14 is arranged between the first conveying pipeline 10 and the mixing tank body 1, the materials flowing out of the mixing tank body 1 are conveyed into the tank body again to be mixed and stirred again through the first circulating pipeline 14, the mixing, shearing and emulsifying effects of the materials are ensured, a second circulating pipeline 15 is arranged between the second conveying pipeline 12 and a feed hopper of the colloid mill 11, the materials flowing out of the colloid mill 11 are conveyed into the feed hopper of the colloid mill 11 again through the second circulating pipeline 15 to be sheared and emulsified again, and the mixing, emulsifying effects and quality of the suspended fertilizer are ensured;

the second material conveying pipeline 12 is also communicated with a sampling pipeline 16 close to the colloid mill 11, and the sampling pipeline 16 can be arranged to detect the materials processed by the colloid mill 11 so as to ensure the mixing effect;

in addition, the first circulation pipeline 14, the second circulation pipeline 15 and the sampling pipeline 16 are communicated with the material conveying pipelines through three-way joints.

In this embodiment, referring to fig. 1, the discharge pipeline 7, the first delivery pipeline 10, the second delivery pipeline 12, the first circulation pipeline 14, the second circulation pipeline 15, and the sampling pipeline 16 are all provided with control valves 17, and the control valves 17 can control the connection and the closure of the pipelines by providing the control valves 17.

In this embodiment, as shown in fig. 2, two end caps 3 are oppositely disposed on the end plate 2 and respectively located at two sides of the stirrer 4, and the two opposite end caps 3 are disposed to facilitate feeding of the material into the mixing tank 1.

In this embodiment, as shown in fig. 1 and fig. 3, stirrer 4 includes (mixing) shaft 18 driven by a motor, end plate 2 is run through at the top of (mixing) shaft 18, and be connected with the output shaft transmission of motor through the shaft coupling, motor and shaft coupling are installed on end plate 2, the bottom of (mixing) shaft 18 is passed through the bearing and is rotated and install on support frame 8, ensure the stability when 4 agitators move, the bottom that is close to mixing tank body 1 on (mixing) shaft 18 is equipped with bottom stirring frame 19, the top that just is located bottom stirring frame 19 on (mixing) shaft 18 is equipped with upper stirring rod 20, can carry out intensive mixing to the material in the mixing tank body 1 through setting up bottom stirring frame 19 and upper stirring rod 20, make the material mix more evenly abundant.

In this embodiment, as shown in fig. 1 and fig. 3, the bottom layer stirring rack 19 includes first rods 1901 disposed oppositely, second rods 1902 are disposed at bottoms of the first rods 1901, the first rods 1901 and the second rods 1902 are both mounted on the stirring shaft 18 through bolts, an arc-shaped rod 1903 is connected to ends of the first rod 1901 and the second rod 1902 far away from the stirring shaft 18, and the first rod 1901, the second rod 1902 and the arc-shaped rod 1903 are used to stir the material near the bottom of the mixing tank 1;

the upper layer stirring rod 20 comprises third rod bodies 2001 which are oppositely arranged, the two third rod bodies 2001 are respectively positioned at the tops of the first rod bodies 1901 and are all installed on the stirring shaft 18 through bolts, and materials close to the tops of the mixing tank bodies 1 are stirred conveniently through the third rod bodies 2001.

In this embodiment, referring to fig. 3, the first rod 1901, the second rod 1902 and the third rod 2001 are all disposed in an inclined manner, and the first rod 1901, the second rod 1902 and the third rod 2001 are disposed in an inclined manner, so that the sputtering generated during stirring is reduced as much as possible while the stirring effect is ensured.

In this embodiment, as shown in fig. 1, the shearing disperser 5 includes a first shearing shaft 501 driven by a motor, a shearing wheel disc 502 is installed at one end of the first shearing shaft 501 facing the bottom of the mixing tank 1, a plurality of shearing blades 503 are arranged around the shearing wheel disc 502, and the plurality of shearing blades 503 shear the material at a high speed under the driving of the first shearing shaft 501.

For ease of understanding, the working process of the present embodiment is given below:

as shown in fig. 1-3, firstly, a material is put into a mixing tank 1 through an openable end cover 3, a stirrer 4, a shearing disperser 5 and a shearing emulsifier 6 are started to mix, stir, shear and emulsify the material in the mixing tank 1, the stirred and emulsified material is conveyed into a first material conveying pipeline 10 through a discharge pipeline 7 and conveyed into a feed hopper of a colloid mill 11 through the first material conveying pipeline 10, the material is further sheared and emulsified through the colloid mill 11, and the material after passing through the colloid mill 11 is conveyed to a designated area through a second material conveying pipeline 12;

the first material conveying pipeline 10 is also communicated with a first circulating pipeline 14, and the material in the first material conveying pipeline 10 is conveyed into the mixing tank body 1 again to be stirred and mixed again through the control of the control valve 17 on the first material conveying pipeline 10;

the second material conveying pipeline 12 is also communicated with a second circulating pipeline 15, and the control of the control valve 17 on the second material conveying pipeline 12 enables the materials in the second material conveying pipeline 12 to be conveyed into the colloid mill 11 again for shearing and emulsification, so that the mixing and stirring of the macroelement suspended fertilizer are realized.

In conclusion, the utility model solves the problems that the existing mixing tank is single in structure and cannot be fully stirred and fused, so that a crystallization or sedimentation layer is easy to appear when the suspended fertilizer is placed, and the quality of the suspended fertilizer is influenced.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should also be understood that various alterations, modifications and/or variations can be made to the present invention by those skilled in the art after reading the technical content of the present invention, and all such equivalents fall within the protective scope defined by the claims of the present application.

Claims (8)

1. The utility model provides a fertile blending tank of macroelement suspension which characterized in that: the shearing and emulsifying device comprises a mixing tank body, wherein an end plate is sealed at the top of the mixing tank body, an openable end cover is installed on the end plate, a stirrer driven by a motor is installed in an inner cavity of the mixing tank body, a shearing disperser and a shearing emulsifier driven by the motor are respectively and oppositely installed at two sides close to the stirrer, a discharge pipeline is communicated with the bottom of the mixing tank body, a support frame is installed at the position, close to the discharge pipeline, of the bottom of the inner cavity of the mixing tank body, and a filter screen is installed on the periphery of the support frame;

the discharging pipeline is communicated with a first material conveying pipeline, the discharging end of the first material conveying pipeline is communicated with a feeding hopper of the colloid mill, and the discharging end of the colloid mill is communicated with a second material conveying pipeline and conveyed to a designated area through the second material conveying pipeline.

2. A macroelement suspension fertilizer mixing tank as defined in claim 1, wherein: the first material conveying pipeline and the second material conveying pipeline are both provided with a conveying pump;

a first circulating pipeline is arranged between the first material conveying pipeline and the mixing tank body, and a second circulating pipeline is arranged between the second material conveying pipeline and a feed hopper of the colloid mill;

and the second material conveying pipeline is also communicated with a sampling pipeline at the position close to the colloid mill.

3. A macroelement suspension fertilizer mixing tank as defined in claim 2, wherein: the discharge pipeline, the first conveying pipeline, the second conveying pipeline, the first circulating pipeline, the second circulating pipeline and the sampling pipeline are all provided with control valves.

4. A macroelement suspension fertilizer mixing tank as defined in claim 1, wherein: the end covers are oppositely arranged on the end plates and are respectively positioned on two sides of the stirrer.

5. A macroelement suspension fertilizer mixing tank as defined in claim 1, wherein: the agitator includes by motor drive's (mixing) shaft, the bottom of (mixing) shaft rotate install in on the support frame, be close to on the (mixing) shaft the bottom of blending tank body is equipped with the bottom stirring frame, on the (mixing) shaft and be located the top of bottom stirring frame is equipped with upper puddler.

6. A macroelement suspension fertilizer mixing tank as defined in claim 5, wherein: the bottom layer stirring frame comprises first rod bodies which are oppositely arranged, the bottoms of the two first rod bodies are respectively and oppositely provided with a second rod body, the first rod bodies and the second rod bodies are both arranged on the stirring shaft, and the ends, far away from the stirring shaft, of the first rod bodies and the second rod bodies are connected with arc-shaped rod bodies;

the upper stirring rod comprises third rod bodies which are oppositely arranged, and the third rod bodies are respectively positioned at the top of the first rod body and are arranged on the stirring shaft.

7. A macroelement suspension fertilizer mixing tank as defined in claim 6, wherein: the first rod body, the second rod body and the third rod body are all obliquely arranged.

8. A macroelement suspension fertilizer mixing tank as defined in claim 1, wherein: the shearing disperser comprises a first shearing shaft driven by a motor, the first shearing shaft faces one end of the bottom of the mixing tank body, and a plurality of shearing blades are arranged on the shearing wheel disc in a circle.

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