CN213222777U - Multistage swirler integrated configuration - Google Patents

Abstract

The utility model discloses a multistage swirler integrated configuration, including rectangle hollow frame, rectangle hollow frame all be equipped with L shape supporting leg in the four peripheral angular position department below, wherein control two supporting leg below of corresponding one side and weld the mounting panel respectively, mounting panel below be equipped with around two bottom mounting panels that transversely set up, the inside feed cylinder that is equipped with of rectangle hollow frame, the blown down tank below be equipped with the blown down tank, blown down tank and blown down tank both sides be connected fixedly through the spliced pole and the blown down tank both sides are equipped with a plurality of rectangle connection piece, rectangle connection plate below be connected through vibrations spring beam and mounting panel upper surface fixed, blown down tank the place ahead be fixed with the fortune material pump through the mount pad. The structure has larger treatment capacity and smaller grading fineness, meets the treatment requirement of starch under special working conditions, and improves the working efficiency and the working quality.

Description

Multistage swirler integrated configuration

Technical Field

The utility model relates to a food processing equipment technical field, more specifically the theory relates to a multistage swirler integrated configuration.

Background

The desanding cyclone is mainly used for removing gravels and other heavy impurities in potato emulsion, and placed in front of the extraction section, the back-end equipment can be effectively protected, the service life of the whole system is prolonged, the main principle is that fluid materials are pumped into the desanding cyclone and rotate at a high speed in the desanding cyclone, the lighter materials (such as starch) are discharged through an overflow pipe under the action of centrifugal force, heavy impurities can sink along the conical inner wall of the desanding cyclone and are discharged from a bottom valve, but in the prior art, when a single cyclone cannot meet the processing capacity or the grading fineness of the process requirement, the cyclone combination structure needs to be designed in consideration, and the application is wide.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multistage swirler integrated configuration, this structure has bigger handling capacity and littleer hierarchical fineness, satisfies the processing requirement of special operating mode starch, improves work efficiency and operating mass with rated load.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a multistage cyclone composite structure comprises a rectangular hollow frame, L-shaped supporting legs are arranged below the positions of the four peripheral corners of the rectangular hollow frame, mounting plates are respectively welded and fixed below two supporting legs at the left side and the right side, a front bottom support plate and a rear bottom support plate are transversely arranged below the mounting plates, a discharge barrel is arranged inside the rectangular hollow frame, a discharge chute is arranged below the discharge barrel, the discharge chute is fixedly connected with the two sides of the discharge barrel through connecting columns, a plurality of rectangular connecting sheets are arranged on the two sides of the discharge chute, the lower parts of the rectangular connecting sheets are fixedly connected with the upper surface of the mounting plates through vibrating spring rods, a material conveying pump is fixed in front of the discharge chute through a mounting seat, the input end of the material conveying pump is connected with a material inlet pipeline, the output end of the material conveying pump is connected onto a plurality of material conveying barrels through a pump material pipeline, the front and rear ends of the plurality of discharge barrels are connected with a plurality, multinomial fortune feed cylinder below both sides all through cradling piece and rectangle hollow frame left and right sides fixed position, wherein all swirler row sand mouths all extend to the inside feed inlet of play storage bucket and all swirlers all through pipeline and multinomial fortune feed cylinder front and back intercommunication, multinomial fortune feed cylinder top both sides all be fixed with one-level play feed cylinder, second grade play feed cylinder and tertiary play feed cylinder upwards in proper order through the cradling piece, wherein one-level play feed cylinder, second grade play feed cylinder and tertiary play feed cylinder front and back both sides all through overflow pipe and all swirler discharge gates intercommunication and one-level play feed cylinder, second grade play feed cylinder and tertiary play feed cylinder one side seal opposite side and be equipped with the opening.

Furthermore, the working surface of the discharge chute is a forward inclined plane and is used for pouring out sand and stone impurities.

Furthermore, a control box is fixed on one side of the rectangular hollow frame, the control box is connected with a material conveying pump through a circuit, and the material conveying pump is externally connected with a power supply.

Furthermore, one end of each material conveying barrel is communicated with the material conveying pump through a pump material pipeline, and the other end of each material conveying barrel is sealed through a flange plate.

Compared with the prior art, the utility model has the advantages that:

the utility model discloses in through the supporting structure who sets up multistage play feed cylinder structure and make up a plurality of swirler, can be so that swirler group has bigger handling capacity and littleer hierarchical fineness, satisfy the processing requirement of special operating mode starch, improve work efficiency and operating mass with rated load.

Drawings

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

FIG. 2 is another schematic view of the overall structure of the present invention;

in the figure: 1. a third-stage discharging barrel; 2. a secondary discharging barrel; 3. a primary discharging barrel; 4. an overflow pipe; 5. a swirler; 6. a support rod; 7. a pump material pipeline; 8. a rectangular hollow frame; 9. a control box; 10. a bottom bracket plate; 11. mounting a plate; 12. a discharge chute; 13. a plurality of shipping barrels; 14. a line; 15. a discharging barrel; 16. a material conveying pump; 17. a mounting seat; 18. vibrating the spring rod; 19. rectangular connecting piece.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the utility model easy to understand and understand, the utility model is further explained by combining with the specific figures.

As shown in figures 1 and 2, a multistage cyclone composite structure comprises a rectangular hollow frame 8, L-shaped supporting legs are arranged below the positions of four peripheral corners of the rectangular hollow frame 8, wherein mounting plates 11 are respectively welded and fixed below two supporting legs at the left and right corresponding sides, a front bottom support plate 10 and a rear bottom support plate 10 are arranged below the mounting plates 11, a discharge barrel 15 is arranged inside the rectangular hollow frame 8, a discharge chute 12 is arranged below the discharge barrel 15, the discharge chute 12 and the discharge barrel 15 are fixedly connected through a connecting column, a plurality of rectangular connecting sheets 19 are arranged at two sides of the discharge chute 12, the lower parts of the rectangular connecting sheets 19 are fixedly connected with the upper surface of the mounting plates 11 through vibrating spring rods 18, a material conveying pump 16 is fixed in front of the discharge chute 12 through a mounting seat 17, the input end of the material conveying pump 16 is connected with a feeding pipeline, and the output end of the material conveying pump is connected to, the front and the rear parts of the multiple discharge barrels 13 are connected with a plurality of symmetrically distributed cyclones 5 through pipelines, the two sides below the multiple transport barrels 13 are respectively connected with the left and the right fixed positions of the rectangular hollow frame 8 through a support rod 6, sand discharge ports of all the cyclones 5 extend into the discharge barrel 15, feed ports of all the cyclones 5 are respectively communicated with the front and the rear parts of the multiple transport barrels 13 through pipelines, the two sides above the multiple transport barrels 13 are respectively and sequentially fixed with a primary discharge barrel 3, a secondary discharge barrel 2 and a tertiary discharge barrel 1 upwards through the support rod 6, wherein the front and the rear sides of the primary discharge barrel 3, the secondary discharge barrel 2 and the tertiary discharge barrel 1 are respectively communicated with discharge ports of all the cyclones 5 through overflow pipes 4, one side of the primary discharge barrel 3, the secondary discharge barrel 2 and the tertiary discharge barrel 1 is sealed, the other side is provided with a through hole, the working surface of the discharge tank 12 is a, a control box 9 is fixed on one side of the rectangular hollow frame 8, the control box 9 is connected with a material conveying pump 16 through a circuit 14, the material conveying pump 16 is externally connected with a power supply, one end of each material conveying cylinder 13 is communicated with the material conveying pump 16 through a material conveying pipeline 7, and the other end of each material conveying cylinder is sealed through a flange plate.

During the actual work, pour the fluid material into inside the charge-in pipeline and advance to enter into inside reentrant all swirler 5 of multinomial fortune feed cylinder 13 through material conveying pump 16 and continue to twist high-speed rotatory, because of the effect of centrifugal force, the meeting of the light material of different weight enters into one-level play feed cylinder 3 through the overflow pipe, in second grade play feed cylinder 2 and the tertiary play feed cylinder 1, by the hierarchical collection, impurity such as the heavier grit of weight can sink and enter into the inside unified processing of blown down tank 12 again along the conical inner wall of swirler 5 in addition, the in-process vibrations spring lever 18 is used for alleviating heavy impurity's collision vibrations, the improvement of security of structure.

The basic principles and main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A multistage swirler integrated configuration which characterized in that: the material conveying device comprises a rectangular hollow frame, L-shaped supporting legs are arranged below the positions of the four peripheral corners of the rectangular hollow frame, mounting plates are respectively welded and fixed below two supporting legs on the left side and the right side, a front bottom support plate and a rear bottom support plate are transversely arranged below the mounting plates, a discharging barrel is arranged inside the rectangular hollow frame, a discharging chute is arranged below the discharging barrel, the discharging chute and the two sides of the discharging barrel are fixedly connected through connecting columns, a plurality of rectangular connecting sheets are arranged on the two sides of the discharging barrel, the lower sides of the rectangular connecting sheets are fixedly connected with the upper surface of the mounting plates through vibrating spring rods, a material conveying pump is fixed in front of the discharging chute through a mounting seat, the input end of the material conveying pump is connected with a feeding pipeline, the output end of the material conveying pump is connected onto a plurality of material conveying barrels through a pump pipeline, and the front and rear ends of the plurality of material conveying barrels, multinomial fortune feed cylinder below both sides all through cradling piece and rectangle hollow frame left and right sides fixed position, wherein all swirler row sand mouths all extend to the inside feed inlet of play storage bucket and all swirlers all through pipeline and multinomial fortune feed cylinder front and back intercommunication, multinomial fortune feed cylinder top both sides all be fixed with one-level play feed cylinder, second grade play feed cylinder and tertiary play feed cylinder upwards in proper order through the cradling piece, wherein one-level play feed cylinder, second grade play feed cylinder and tertiary play feed cylinder front and back both sides all through overflow pipe and all swirler discharge gates intercommunication and one-level play feed cylinder, second grade play feed cylinder and tertiary play feed cylinder one side seal opposite side and be equipped with the opening.

2. A multistage cyclone combination according to claim 1, wherein: the working surface of the discharge chute is a forward inclined surface and is used for pouring out sand and stone impurities.

3. A multistage cyclone combination according to claim 1, wherein: a control box is fixed on one side of the rectangular hollow frame, the control box is connected with a material conveying pump through a circuit, and the material conveying pump is externally connected with a power supply.

4. A multistage cyclone combination according to claim 1, wherein: one end of each material conveying cylinder is communicated with the material conveying pump through a material pumping pipeline, and the other end of each material conveying cylinder is sealed through a flange plate.

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