CN206593446U - Activated Carbon Production drying device - Google Patents

Abstract

A kind of Activated Carbon Production drying device, cylinder top has feeding mouth bottom to have feed opening, the tubular that under shed is provided with cylinder separates cover, separate the outer installation downward helical blade of cover, and top is provided with material distributing cap, blanking tube is arranged on and is fixed in the sealed bearings of cylinder body bottom, upstream screw blade is installed on the outside of blanking tube, upstream screw blade is driven when blanking tube rotates by the material transportation of cylinder body bottom to blanking tube, the descending cutting plate of interlaced arrangement is fixed with the inside of blanking tube, cylinder bottom sets air inlet, cylinder bottom surface, separate cover, downward helical blade, upstream screw blade, blanking tube, air vent is all evenly arranged with descending cutting plate, ventilating opening and the gas outlet connected in cylinder are provided with cylinder lateral wall, cylinder inner structure has air vent, path of the material in drier is extended by the form turned back, increase drying time, material is stirred simultaneously, make its drying evenly, improve operating efficiency, add production capacity.

Description

Activated Carbon Production drying device

Technical field：

The utility model is related to drying device field, more particularly to a kind of Activated Carbon Production drying device.

Background technology：

Currently, need to dry activated carbon in Activated Carbon Production, the drier hot-air that current manufacturer uses is under Portion is passed through, and the activated carbon that top is stacked is dried, this mode heat transfer efficiency is relatively low, and heated uneven, and drying effect is not It is good.

Utility model content：

In consideration of it, be necessary to design a kind of Activated Carbon Production drying device, overcome in the prior art the thermal efficiency it is low, dry The small defect of amount, with good heat transfer effect, is heated evenly, and diameter is big, and production capacity is high.

A kind of Activated Carbon Production drying device, including cylinder, feeding mouth, feed opening, air inlet, airscoop shroud, gas outlet, Material distributing cap, separation cover, downward helical blade, upstream screw blade, blanking tube, descending cutting plate, sealed bearings, air vent, cylinder Offer feeding mouth at the top of body, and bottom is provided with feed opening, material enters after cylinder from feeding mouth goes out cylinder by blanking tube, The tubular that under shed is provided with cylinder separates cover, punishment in advance gap is left between the under shed and cylinder inboard wall that separate cover, and divide It is concentric reducing every cover and cylinder, separates and downward helical blade is installed between cover and cylinder inboard wall, separate the upper table of cover Face is arc, and the top of the separation cover corresponding with feeding mouth is installed with the arc material distributing cap projected upwards, from feeding mouth The material fallen is split on material distributing cap to the periphery for separating cover, i.e. material and downward helical blade contact, passes through descending spiral shell Material transportation to cylinder body bottom is separated in cover and is provided with upstream screw blade, blanking tube and descending cutting plate, blanking by vane piece Cylinder is connected with feed opening, and blanking tube is arranged on and is fixed in the sealed bearings of cylinder body bottom, i.e., blanking tube can rotate relative to cylinder, Left between the upper shed of blanking tube and separation cover and upstream screw blade is installed with the outside of punishment in advance gap, blanking tube, on Row helical blade matches with separating the inwall of cover, and blanking tube drives upstream screw blade to move upwards when rotating, i.e., by cylinder The material of bottom is transported up to blanking tube, and the descending cutting plate of interlaced arrangement, descending sub-material are fixed with the inside of blanking tube Zig zag path is split in space in blanking tube by plate, and the sealing of cylinder outer side bottom surface is fixed with airscoop shroud, airscoop shroud respectively with it is close Envelope bearing and cylinder lateral wall be tightly connected, the air inlet being arranged on airscoop shroud is symmetrically distributed in the both sides of feed opening, be located at into It is provided with air vent on cylinder bottom surface inside gas hood, separates cover, downward helical blade, upstream screw blade, blanking tube, descending Air vent is all evenly arranged with cutting plate, the top of cylinder lateral wall is provided with two symmetrical gas outlets, gas outlet position Air vent is provided with cylinder lateral wall, air enters after cylinder from air inlet passes through inner barrel to go out cylinder from gas outlet.

Optimal, the descending cutting plate is tilted down, and the acute angle between blanking tube is 60 °~70 °, fixed Punishment in advance gap is left between descending cutting plate end and blanking tube on blanking tube, blanking tube section where descending cutting plate is accounted for 3/5ths, descending cutting plate is divided into descending cutting plate A and descending cutting plate B, under the lower section of descending cutting plate A ends is fixed Descending cutting plate A is fixed in row cutting plate B, the lower section of descending cutting plate B ends, i.e., descending cutting plate A from top to bottom and descending point Flitch B is sequentially arranged, i.e., material is fallen on descending cutting plate B by descending cutting plate A end, then by descending cutting plate B's End is fallen on descending cutting plate A.

Optimal, the air vent aperture is less than material diameter.

Activated Carbon Production drying device provided by the utility model, internal structure is equipped with air vent, by turning back Path of the form extension material in drier, increase drying time, while stir material, make its drying evenly, carry High operating efficiency, adds production capacity.

Brief description of the drawings：

Accompanying drawing 1 is Activated Carbon Production drying device structural representation.

In figure：Cylinder 1, feeding mouth 2, feed opening 3, air inlet 4, airscoop shroud 5, gas outlet 6, material distributing cap 7, separate cover 8, under Row helical blade 9, upstream screw blade 10, blanking tube 11, descending cutting plate 12, sealed bearings 13, air vent 14.

Embodiment：

As shown in Figure 1, a kind of Activated Carbon Production drying device, including cylinder 1, feeding mouth 2, feed opening 3, air inlet 4th, airscoop shroud 5, gas outlet 6, material distributing cap 7, separate cover 8, it is downward helical blade 9, upstream screw blade 10, blanking tube 11, descending Cutting plate 12, sealed bearings 13, air vent 14.

The top of cylinder 1 offers feeding mouth 2, and bottom is provided with feed opening 3, and material enters after cylinder 1 from feeding mouth 2 The tubular for going out in cylinder 1, cylinder 1 to be provided with shed by blanking tube 11 separates cover 8, separates the under shed and the inwall of cylinder 1 of cover 8 Between leave punishment in advance gap, and it is concentric reducing to separate cover 8 with cylinder 1, separates to cover and is installed between 8 and the inwall of cylinder 1 Downward helical blade 9, the upper surface for separating cover 8 is arc, and the top of the separation cover 8 corresponding with feeding mouth 2 is installed with The arc material distributing cap 7 projected upwards, from the material that feeding mouth 2 is fallen be split on material distributing cap 7 to separate cover 8 periphery, i.e., Material is contacted with downward helical blade 9, by downward helical blade 9 by material transportation to the bottom of cylinder 1.

Separate in cover 8 and be provided with upstream screw blade 10, blanking tube 11 and descending cutting plate 12, blanking tube 11 and feed opening 3 connections, blanking tube 11 is arranged on and is fixed in the sealed bearings 13 of the bottom of cylinder 1, i.e., blanking tube 11 can rotate relative to cylinder 1, Punishment in advance gap is left between the upper shed of blanking tube 11 and separation cover 8, the outside of blanking tube 11 is installed with upstream screw leaf Piece 10, upstream screw blade 10 matches with separating the inwall of cover 8, and blanking tube 11 drives upstream screw blade 10 upward when rotating The material of the bottom of cylinder 1, i.e., be transported up to blanking tube 11, the inner side of blanking tube 11 is fixed with interlaced arrangement by motion Zig zag path is split in space in blanking tube 11 by row cutting plate 12, descending cutting plate 12.

Descending cutting plate 12 is tilted down, and the acute angle between blanking tube 11 is 60 °~70 °, is fixed on blanking Punishment in advance gap, blanking tube 11 where descending cutting plate 12 is accounted for are left between the end of descending cutting plate 12 and blanking tube 11 on cylinder 11 3/5ths of section, descending 12 points of cutting plate is descending cutting plate 12A and descending cutting plate 12B, descending cutting plate 12A ends Lower section descending cutting plate 12B is fixedly mounted, descending cutting plate 12A is fixedly mounted in the lower section of descending cutting plate 12B ends, i.e., by Descending cutting plate 12A and descending cutting plate 12B are sequentially arranged under up to, i.e., material is fallen on down by descending cutting plate 12A end On row cutting plate 12B, then fallen on by descending cutting plate 12B end on descending cutting plate 12A.

The sealing of the outer side bottom surface of cylinder 1 is fixed with airscoop shroud 5, and airscoop shroud 5 is sealed with sealed bearings 13 and the side wall of cylinder 1 respectively Connection, the air inlet 4 being arranged on airscoop shroud 5 is symmetrically distributed in the both sides of feed opening 3, the bottom of cylinder 1 inside airscoop shroud 5 Air vent 14 is provided with face, separates cover 8, downward helical blade 9, upstream screw blade 10, blanking tube 11, descending cutting plate 12 On be all evenly arranged with air vent 14, the top of the side wall of cylinder 1 is provided with two symmetrical gas outlets 6, the cylinder of the position of gas outlet 6 Air vent 14, the inside of the connection of air vent 14 cylinder 1 and gas outlet 6 are provided with the side wall of body 1, air enters cylinder 1 from air inlet 4 Pass through afterwards inside cylinder 1 and go out cylinder 1 from gas outlet 6.The aperture of air vent 14 is less than material diameter.

The utility model is sufficiently stirred for material and the holding motion of long period is dried in the cylinder 1, dries While effect is good, it can work continuously, so as to improve yield, the blanking tube 11 of rotation gets up the air stirring in cylinder 1, Increase mobility, use obvious drying effect raising.

Claims (3)

1. a kind of Activated Carbon Production drying device, it is characterised in that：Including cylinder, feeding mouth, feed opening, air inlet, air inlet Cover, gas outlet, material distributing cap, separate cover, downward helical blade, upstream screw blade, blanking tube, descending cutting plate, sealed bearings, Feeding mouth is offered at the top of air vent, cylinder, and bottom is provided with feed opening, material enters after cylinder by blanking from feeding mouth The tubular that cylinder goes out in cylinder, cylinder to be provided with shed separates cover, and punishment in advance is left between the under shed and cylinder inboard wall that separate cover Gap, and it is concentric reducing to separate cover with cylinder, separates and is installed with downward helical blade between cover and cylinder inboard wall, separates The upper surface of cover is arc, and the top of the separation cover corresponding with feeding mouth is installed with the arc material distributing cap projected upwards, It is split to the periphery for separating cover, i.e. material and downward helical blade contact, leads on material distributing cap from the material that feeding mouth is fallen Downward helical blade is crossed by material transportation to cylinder body bottom, separates and upstream screw blade, blanking tube and descending point is provided with cover Flitch, blanking tube is connected with feed opening, and blanking tube is arranged on and is fixed in the sealed bearings of cylinder body bottom, i.e., blanking tube can be relative Cylinder rotates, and is left between the upper shed of blanking tube and separation cover and up spiral shell is installed with the outside of punishment in advance gap, blanking tube Vane piece, upstream screw blade matches with separating the inwall of cover, and blanking tube drives upstream screw blade to move upwards when rotating, The material of cylinder body bottom is transported up to blanking tube, the descending cutting plate of interlaced arrangement is fixed with the inside of blanking tube, Zig zag path is split in space in blanking tube by descending cutting plate, and the sealing of cylinder outer side bottom surface is fixed with airscoop shroud, airscoop shroud It is tightly connected respectively with sealed bearings and cylinder lateral wall, the air inlet being arranged on airscoop shroud is symmetrically distributed in the two of feed opening Be provided with air vent on side, the cylinder bottom surface inside airscoop shroud, separate cover, downward helical blade, upstream screw blade, under Air vent is all evenly arranged with barrel, descending cutting plate, the top of cylinder lateral wall is provided with two symmetrical gas outlets, outlet Air vent is provided with the cylinder lateral wall of mouth position, air enters after cylinder from air inlet passes through inner barrel to go out cylinder from gas outlet Body.

2. Activated Carbon Production drying device as claimed in claim 1, it is characterised in that：The descending cutting plate dips down Tiltedly, the acute angle and between blanking tube is 60 °~70 °, is fixed on descending cutting plate end and blanking tube on blanking tube Between leave punishment in advance gap, 3/5ths of blanking tube section where descending cutting plate is accounted for, descending cutting plate is divided into descending sub-material Descending cutting plate B is fixed in plate A and descending cutting plate B, the lower section of descending cutting plate A ends, and the lower section of descending cutting plate B ends is consolidated Row cutting plate A is fixed, i.e., descending cutting plate A from top to bottom and descending cutting plate B are sequentially arranged, i.e., material is by descending cutting plate A End fall on descending cutting plate B, then fallen on by descending cutting plate B end on descending cutting plate A.

3. Activated Carbon Production drying device as claimed in claim 2, it is characterised in that：The air vent aperture is less than material Diameter.