CN214915627U - Production device of soil conditioner for preventing and controlling soil-borne diseases - Google Patents

Abstract

The utility model discloses a prevent and control soil-borne disease type soil conditioner apparatus for producing belongs to fertilizer apparatus for fertilizer production, its initial feeding section, reducing section, initial mixing section, second grade feeding section, tertiary feeding section, U type mixing section, level four feeding section, five-level feeding section, reducing section, last mixing section, discharging pipe including establishing ties in proper order, wherein the initial feeding section other end pass through the end cover shutoff, the intercommunication has two at least main inlet pipes on initial feeding section. In view of above-mentioned technical scheme, the utility model discloses can realize that liquid soil conditioner is at last misce bene, guarantee as far as possible that each composition content in the liquid soil conditioner of unit volume is unanimous.

Description

Production device of soil conditioner for preventing and controlling soil-borne diseases

Technical Field

The utility model belongs to fertilizer apparatus for producing field, specifically speaking especially relates to a prevent and control soil and pass disease type soil conditioner apparatus for producing.

Background

The soil conditioner can be divided into a liquid soil conditioner and a solid soil conditioner according to the physical properties of the soil conditioner, and can promote nutrient absorption of crops in the soil by improving the physical properties of the soil, for example, in northwest China, due to the influence of soil salinization and salinization, the problems of blight, brown spot, mosaic disease, rot and the like can occur in the growth process of the crops, so that the root systems of the crops grow slowly, the leaf surfaces of the crops cannot generate more photosynthesis, and the yield and the quality of the crops are influenced. By using the specific liquid soil conditioner, the soil can be improved, and the required nutrients which need to be supplemented in time for the growth of crops, such as molasses, pyroligneous liquor, amino acid, trace elements, compound microorganism bacteria and the like, can be increased.

The required liquid raw materials can be packaged and transported only by fully stirring and mixing, and how to realize uniform mixing of the raw materials and relatively consistent components in unit volume after mixing becomes one of the technical problems to be solved by the industry.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a prevent and control soil-borne disease type soil conditioner apparatus for producing, it can realize that liquid soil conditioner is at last misce bene, ensures each composition content unanimity in unit volume's liquid soil conditioner as far as possible.

In order to achieve the purpose, the utility model is realized by the following technical proposal:

the production device of the soil conditioner for preventing and controlling soil-borne diseases comprises an initial feeding section, wherein one end of the initial feeding section is plugged through an end cover, and the other end of the initial feeding section is communicated with an initial mixing section through a reducing section; the outer side of the initial feeding section is communicated with at least two main feeding pipes, and a main stirring blade driven by a stirring driving motor is arranged in the initial feeding section; the other end of the reducing section is communicated with an initial mixing section, and a mixing blade driven by a mixing driving motor is arranged in the initial mixing section; the other end of the initial mixing section is communicated with a second-stage feeding section, the other end of the second-stage feeding section is communicated with a third-stage feeding section, the third-stage feeding section is communicated with a fourth-stage feeding section through a U-shaped mixing section, the fourth-stage feeding section is communicated with a fifth-stage feeding section, and the fifth-stage feeding section is communicated with a discharge pipe through a reducing section and a final-stage mixing section; the second-stage feeding section, the third-stage feeding section, the fourth-stage feeding section and the fifth-stage feeding section are all provided with pipe body feeding holes, and the pipe body feeding holes are communicated with auxiliary feeding pipes; the pipe body feed inlets are arranged perpendicular to the horizontal plane and are respectively arranged in the pipe body tangential directions of the second-stage feed section, the third-stage feed section, the fourth-stage feed section and the fifth-stage feed section; the U-shaped mixing section is internally provided with a mixing spiral blade, and a plurality of through holes are distributed on the mixing spiral blade.

Further, the utility model discloses in stirring driving motor install on the auxiliary stand, the auxiliary stand is fixed in the outer wall of initial feeding section.

Further, the utility model discloses in stirring driving motor's quantity be three, three stirring driving motor corresponds the three main stirring vane of drive, adjacent main stirring vane dislocation set.

Further, say, the utility model discloses in hybrid blade's quantity be three, it is around by hybrid drive motor driven axis body the central axis equipartition, and processing has the through-hole that a plurality of apertures differ on hybrid blade.

Further, in the utility model, the outlet of the pipe body feed inlet is provided with the inlet guide projection that the spiral projection constitutes on the inner wall of the second grade feeding section, the third grade feeding section, the fourth grade feeding section and the fifth grade feeding section that correspond.

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

the utility model discloses a redesign and distribute mixing required structure, set up different orders of letting in through the difference of component content and mix, realize the purpose of misce bene under the prerequisite of guaranteeing mixing efficiency at last.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the initial feeding section of the present invention.

Fig. 3 is a schematic structural diagram of the middle-second feeding section (three-level feeding section, four-level feeding section, five-level feeding section) of the present invention.

Fig. 4 is a schematic structural diagram of the initial mixing section and the final mixing section of the present invention.

Fig. 5 is a schematic structural diagram of the U-shaped mixing section of the present invention.

In the figure: 1. an end cap; 2. an initial feeding section; 3. a main feed pipe; 4. an auxiliary support; 5. a stirring driving motor; 6. a diameter-changing section; 6', a reducing section; 7. an initial mixing section; 8. a secondary feeding section; 9. a third stage feeding section; 10. an auxiliary feed pipe; 11. a U-shaped mixing section; 12. a fourth stage feeding section; 13. a five-stage feeding section; 14. a final mixing section; 15. a discharge pipe; 16. a main stirring blade; 17. a hybrid drive motor; 18. a mixing blade; 19. a pipe body feeding port; 20. an inlet guide projection; 21. mixing the helical blades.

Detailed Description

The technical solution of the present invention will be further described and illustrated with reference to the following examples. It should be noted that the following paragraphs may refer to terms of orientation, including but not limited to "upper, lower, left, right, front, rear" and the like, which are all oriented to correspond to the visual orientations shown in the drawings of the specification, and should not be construed as limiting the scope or technical aspects of the present invention, but merely as providing those skilled in the art with a better understanding of the technical aspects of the present invention.

In the description of the present specification, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Example 1

A soil conditioner production device for preventing and controlling soil-borne diseases comprises an initial feeding section 2, a diameter-variable section 6, an initial mixing section 7, a secondary feeding section 8, a tertiary feeding section 9, a U-shaped mixing section, a fourth-stage feeding section 12, a fifth-stage feeding section 13, a diameter-variable section 6', a final-stage mixing section 14 and a discharge pipe 15 which are sequentially connected in series, wherein the other end of the initial feeding section 2 is plugged through an end cover 1, at least two main feeding pipes 3 are communicated with the initial feeding section 2, main stirring blades 16 are arranged in the initial feeding section 2 at the outlet of each main feeding pipe 3, the main stirring blades 16 are multi-stage spiral blades, the number of the main stirring blades is three, and adjacent main stirring blades 16 are arranged in a staggered manner; the main stirring blades 16 are driven by corresponding stirring driving motors 5, the stirring driving motors 5 are positioned on the auxiliary support 4, and the auxiliary support 4 is fixed on the outer wall of the initial feeding section 2.

The reducing section 6 and the reducing section 6' are of the same structure, and can change the flow velocity of the liquid flowing inside by changing the inner diameter of the pipe body, so that the mixing degree of the fluid inside is increased while the flow velocity is changed, and a certain turbulent flow is achieved.

The initial mixing section 7 and the final mixing section 14 are of the same structure, and both comprise a shell and mixing blades 18 driven by a mixing driving motor 17 in the shell, wherein the mixing blades 18 are of a three-plate structure, and are provided with a plurality of through holes with different apertures. Three mixing blades 18 are distributed around the central axis of the shaft, which is driven by a mixing drive motor 17.

Second grade feeding section 8, tertiary feeding section 9, level four feeding section 12, five-level feeding section 13 all include the body, and the intercommunication has body feed inlet 19 in the tangential direction of body, and body feed inlet 19 and supplementary conveying pipe 10 intercommunication will need the liquid raw materials who mixes to send into in body feed inlet 19 and the tangential direction of the pipe body of managing to enter into second grade feeding section 8, tertiary feeding section 9, level four feeding section 12, five-level feeding section 13 through supplementary conveying pipe 10. An inlet guide bulge 20 with a spiral line structure is distributed on the pipe wall at the position of the outlet of the pipe body feed port 19, and the screw pitch of the inlet guide bulge 20 is larger than the outlet caliber of the pipe body feed port 19.

The U-shaped mixing section 11 between the three-stage feeding section 9 and the four-stage feeding section 12 comprises a U-shaped pipe body and mixing helical blades 21 arranged on the inner wall of the U-shaped pipe body, a plurality of through holes are distributed on the mixing helical blades 21, and the distance from the mixing helical blades 21 to the central axis of the U-shaped mixing section 11 is greater than the radius of the mixing helical blades. Above-mentioned structure can make liquid fully pass through mixing helical blade 21's guide and through-hole can increase the vortex, and then promote the big mixture between the different liquid raw materials.

On the basis of the above embodiments, the present invention proceeds with detailed descriptions of technical features and functions thereof, so as to help those skilled in the art fully understand the technical solution of the present invention and reproduce it.

The utility model discloses in, initial feeding section 2 in main inlet pipe 3, body feed inlet 19 and the supplementary conveying pipe 10 on second grade feeding section 8, tertiary feeding section 9, level four feeding section 12, the five-stage feeding section 13 communicate different liquid raw materials respectively, can suitably subtract foretell feeding section according to required liquid raw materials's difference.

The utility model discloses in main inlet pipe 3 should let in two kinds of components and account for bigger different liquid raw materials to carry out the primary mixing in initial feeding section 2 and reducing section 6, initial mixing section 7, then the liquid raw materials that accounts for than, component fourth accounts for than with the component third respectively again mixes, and the misce bene of above-mentioned several kinds of components is realized to the mixture through U type mixing section 11. Because the length of the mixing helical blade 21 in the U-shaped mixing section 11 extending to the central axis direction of the U-shaped mixing section 11 is greater than the 1/2 inner diameter of the U-shaped mixing section 11, the liquid passing through the U-shaped mixing section 11 can be forced to be disturbed and mixed, and then the degree of mixing is increased. When other liquid raw materials with small weight enter the liquid raw materials through the four-stage feeding section 12 and the five-stage feeding section 13, the liquid raw materials can be stirred and mixed through at least one final-stage mixing section 14 again, and the stirred and mixed raw materials enter the discharging pipe 15 and are introduced into the next working procedure.

Finally, although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description of the present description is for clarity reasons only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims (5)

1. The utility model provides a prevent and control soil-borne disease type soil conditioner apparatus for producing, includes initial feeding section (2), its characterized in that: one end of the initial feeding section (2) is plugged through an end cover (1), and the other end of the initial feeding section is communicated with the initial mixing section (7) through a reducing section (6); the outer side of the initial feeding section (2) is communicated with at least two main feeding pipes (3), and a main stirring blade (16) driven by a stirring driving motor (5) is arranged in the initial feeding section (2); the other end of the reducing section (6) is communicated with the initial mixing section (7), and a mixing blade (18) driven by a mixing driving motor (17) is arranged in the initial mixing section (7); the other end of the initial mixing section (7) is communicated with a second-stage feeding section (8), the other end of the second-stage feeding section (8) is communicated with a third-stage feeding section (9), the third-stage feeding section (9) is communicated with a fourth-stage feeding section (12) through a U-shaped mixing section (11), the fourth-stage feeding section (12) is communicated with a fifth-stage feeding section (13), and the fifth-stage feeding section (13) is communicated with a discharge pipe (15) through a reducing section (6') and a final-stage mixing section (14); the secondary feeding section (8), the tertiary feeding section (9), the quaternary feeding section (12) and the quinary feeding section (13) are all provided with pipe body feeding ports (19), and the pipe body feeding ports (19) are communicated with auxiliary feeding pipes (10); the pipe body feed inlets (19) are arranged perpendicular to the horizontal plane and are respectively arranged in the pipe body tangential directions of the second-stage feed section (8), the third-stage feed section (9), the fourth-stage feed section (12) and the fifth-stage feed section (13); the U-shaped mixing section (11) is internally provided with a mixing helical blade (21), and a plurality of through holes are distributed on the mixing helical blade (21).

2. The production device of the soil conditioner for preventing and controlling soil-borne diseases according to claim 1, characterized in that: the stirring driving motor (5) is arranged on the auxiliary support (4), and the auxiliary support (4) is fixed on the outer wall of the initial feeding section (2).

3. The production device of the soil conditioner for preventing and controlling soil-borne diseases according to claim 1, characterized in that: the quantity of stirring driving motor (5) is three, and three stirring driving motor (5) correspond three main stirring vane (16) of drive, and adjacent main stirring vane (16) dislocation set.

4. The production device of the soil conditioner for preventing and controlling soil-borne diseases according to claim 1, characterized in that: the number of the mixing blades (18) is three, the mixing blades are uniformly distributed around the central axis of the shaft body driven by the mixing driving motor (17), and a plurality of through holes with different apertures are processed on the mixing blades (18).

5. The production device of the soil conditioner for preventing and controlling soil-borne diseases according to claim 1, characterized in that: and inlet guide bulges (20) formed by spiral bulges are arranged on the inner walls of the second-stage feeding section (8), the third-stage feeding section (9), the fourth-stage feeding section (12) and the fifth-stage feeding section (13) corresponding to the outlet of the pipe body feeding port (19).

Images