CN205441763U - Continuous conveyer is appeared to crystalline solid - Google Patents

Abstract

The utility model provides a continuous conveyer is appeared to crystalline solid, including transport oar piece and the tube -shape casing that encloses into cylindric grid, spring form, interior week of carrying the oar piece with the periphery of the grid of tube -shape suits, the periphery of carrying the oar piece with suiting in interior week of tube -shape casing, grid, transport oar piece and the tube -shape casing of tube -shape embed in proper order and form three -layer nested structure, the inside one end of tube -shape casing is provided with motor drive's drive end cover, it fixes to carry oar piece one end the drive end is covered. The one end of tube -shape casing open have with carry oar piece complex discharge opening, the utility model discloses in pass through the rotation of carrying the oar piece, the material of production is hugged closely owing to centrifugal force the inner wall of tube -shape casing, owing to carry the similar screw extruder's of oar piece structure, the material is released the discharge opening in succession, has improved the continuous production ability.

Description

Crystalline solid separates out device for continuously conveying

Technical field

This utility model relates to material and delivers field, especially, is that a kind of crystalline solid separates out device for continuously conveying.

Background technology

In Chemical Manufacture, having portioned product is to use the mode separating out precipitation after solution reaction to obtain, the chemical products separated out are taken out, the method typically used is that after having reacted, filtration has been taken out or bottom opening filtration acquisition, these acquisition patterns, obtain complex steps, be unfavorable for large-scale continuous production.

Summary of the invention

In order to solve the problems referred to above, the purpose of this utility model is to provide a kind of crystalline solid to separate out device for continuously conveying, and this crystalline solid separates out device for continuously conveying can transfer out the crystalline solid in reactor by continuous print.

This utility model solves its technical problem and be the technical scheme is that

This crystalline solid separates out device for continuously conveying and includes surrounding grid, the conveying blade of spring-like and the tubular shell of cylindrical shape, the inner circumferential of described conveying blade adapts with the periphery of the grid of described tubular, the periphery of described conveying blade adapts with the inner circumferential of described tubular shell, the grid of described tubular, conveying blade and tubular shell are nested to form three layers of nested structure successively, one end within described tubular shell is provided with motor-driven Driving terminal, and described conveying blade one end is fixed on described Driving terminal.One end of described tubular shell has the discharge opening coordinated with described conveying blade.

As preferably, described discharge opening is between the adjacent blades of conveying blade.

As preferably, the grid of described cylindrical shape is louvered, the angle synchronization control of the grid on the grid of described cylindrical shape.

As preferably, the side of the anti-drive end cover of described tubular shell is provided with deflection end cap, grid one end hub setting on the grid of described cylindrical shape is at described deflection end cap, it is provided with the driver driving described grid to change angle in described deflection end cap, and described deflection end cap is also driven by driving means and rotates.

The utility model has the advantage of:

By the rotation of described conveying blade, the material of generation is close to the inwall of described tubular shell due to centrifugal force, and owing to conveying blade is similar to the structure of screw extruder, material is released discharge opening continuously, improve continuous production capacity.

Accompanying drawing explanation

Fig. 1 be this crystalline solid separate out device for continuously conveying face structural representation.

Fig. 2 is the A-A cut-away illustration that this crystalline solid separates out device for continuously conveying Fig. 1 embodiment.

Fig. 3 is the structural representation that this crystalline solid separates out the grid of another embodiment tubular of device for continuously conveying.

Detailed description of the invention

With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings:

In the present embodiment, refering to Fig. 1 and Fig. 2, this crystalline solid separates out device for continuously conveying and includes surrounding the grid 300 of cylindrical shape, the conveying blade 200 of spring-like and tubular shell 100, the inner circumferential of described conveying blade 200 adapts with the periphery of the grid 300 of described tubular, the periphery of described conveying blade 200 adapts with the inner circumferential of described tubular shell 100, the grid 300 of described tubular, conveying blade 200 and tubular shell 100 are nested to form three layers of nested structure successively, one end within described tubular shell 100 is provided with motor-driven Driving terminal 210, described conveying blade 200 one end is fixed on described Driving terminal 210.One end of described tubular shell 100 has the discharge opening 110 coordinated with described conveying blade 200.

Above-mentioned crystalline solid separates out device for continuously conveying, and described discharge opening 110, between the adjacent blades of conveying blade 200, makes the material of the extrusion precipitation that discharge opening 110 is complete.

In another embodiment, refering to Fig. 3, the grid 300 of described cylindrical shape is in louvered, and the angle synchronization control of the grid on the grid 300 of described cylindrical shape, by adjusting the size that the angle of grid on the grid 300 of described tubular can control the material of grid 300 through stating tubular.

Above-mentioned crystalline solid separates out device for continuously conveying, the side of the anti-drive end cover 210 of described tubular shell 100 is provided with deflection end cap 310, grid one end hub setting on the grid 300 of described cylindrical shape is at described deflection end cap 310, it is provided with the driver driving described grid to change angle in described deflection end cap 310, and described deflection end cap 310 is also driven by driving means and rotates.

The working method of the crystalline solid precipitation device for continuously conveying in above-described embodiment and principle:

Refering to Fig. 1, by the rotation of described conveying blade 200, the material of generation is close to the inwall of described tubular shell 100 due to centrifugal force, and owing to conveying blade 200 is similar to the structure of screw extruder, material is released discharge opening 110 continuously.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (4)

1. a crystalline solid separates out device for continuously conveying, it is characterised in that:

Including the grid (300) surrounding cylindrical shape, the conveying blade (200) of spring-like and tubular shell (100), the inner circumferential of described conveying blade (200) adapts with the periphery of the grid (300) of described tubular, the periphery of described conveying blade (200) adapts with the inner circumferential of described tubular shell (100), the grid (300) of described tubular, conveying blade (200) and tubular shell (100) are nested to form three layers of nested structure successively, one end of described tubular shell (100) inside is provided with motor-driven Driving terminal (210), described conveying blade (200) one end is fixed on described Driving terminal (210), one end of described tubular shell (100) has the discharge opening (110) coordinated with described conveying blade (200).

Crystalline solid the most according to claim 1 separates out device for continuously conveying, it is characterised in that: described discharge opening (110) is positioned between the adjacent blades of conveying blade (200).

Crystalline solid the most according to claim 1 separate out device for continuously conveying, it is characterised in that: the grid (300) of described cylindrical shape in louvered, the angle synchronization control of the grid on the grid (300) of described cylindrical shape.

Crystalline solid the most according to claim 1 separates out device for continuously conveying, it is characterized in that: the side of the anti-drive end cover (210) of described tubular shell (100) is provided with deflection end cap (310), grid one end hub setting on the grid (300) of described cylindrical shape is described deflection end cap (310), it is provided with the driver driving described grid to change angle in described deflection end cap (310), and described deflection end cap (310) is also driven by driving means and rotates.