CN205300196U - Mechanism carbon powder drying -machine - Google Patents

Mechanism carbon powder drying -machine Download PDF

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Publication number
CN205300196U
CN205300196U CN201520846049.9U CN201520846049U CN205300196U CN 205300196 U CN205300196 U CN 205300196U CN 201520846049 U CN201520846049 U CN 201520846049U CN 205300196 U CN205300196 U CN 205300196U
Authority
CN
China
Prior art keywords
coil pipe
furnace
tube
bucket
dehumidifying
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201520846049.9U
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Chinese (zh)
Inventor
唐勇军
唐忠良
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chongqing Zhuhai New Energy Development Co Ltd
Original Assignee
Chongqing Zhuhai New Energy Development Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Chongqing Zhuhai New Energy Development Co Ltd filed Critical Chongqing Zhuhai New Energy Development Co Ltd
Priority to CN201520846049.9U priority Critical patent/CN205300196U/en
Application granted granted Critical
Publication of CN205300196U publication Critical patent/CN205300196U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a mechanism carbon powder dry and the carbomorphism device, include the interior furnace body and outer furnace body established with the axle sleeve, the inner space of interior furnace body is the combustion chamber, space between interior furnace body and the outer furnace body is the drying chamber, the drying chamber is equipped with by lower supreme first coil pipe and the second coil pipe of being equipped with, first coil pipe is the cylindrical spiral line form with the second coil pipe, the upper end and the feed arrangement intercommunication of first coil pipe, the lower extreme of first coil pipe is through the entry intercommunication of first fan with first hydrofuge bucket, the lower extreme of second coil pipe and the exit linkage of first hydrofuge bucket, the upper end of second coil pipe is passed through the second fan and is connected with second hydrofuge bucket, in first, two fans inhale first, two hydrofuge buckets with the material respectively. Comparatively moist material from top to bottom moves at first coil pipe, and resistance to motion is little, after once drying, follows the second coil pipe again and by supreme operation down, dries fully, and whole drying efficiency is high to first, two coil pipes are by supreme arranging down, and the structure is neat, compact, the installation of being convenient for, overhaul and maintain.

Description

Machine-made carbon powder dryer
Technical field
This utility model is a kind of machine-made carbon powder dryer.
Background technology
The powder of machine-made carbon powder such as rice husk, Pericarppium arachidis hypogaeae, boll hull, corn cob, corn stalk, kaoliang stalk etc. needs powder is dried before making organic rod. CN201126301Y discloses a kind of powder drying device, this equipment passes through first, two coil pipes and first, two dehumidifying buckets realize powder second dries, first coil pipe and the second coil pipe interlaced arrangement, the upper inlet that material enters the first dehumidifying bucket by the air draught power of the first blower fan from the upper port of the first coil pipe after entering the first coil pipe from the first coil pipe lower port carries out dehumidifying, then material enters the second coil pipe and the second dehumidifying bucket from the lower exit port of the first dehumidifying bucket, there is problems of, material trend in the first coil pipe is from bottom to up, and material has just enter into the first coil pipe and makes comparatively moist, the resistance of such material operation in the first coil pipe is bigger, drying efficiency is low, additionally, first coil pipe and the second coil pipe interlaced arrangement, cause that the radial space in baking chamber is bigger, simultaneously first, disorderly and unsystematic the causing of two coil pipes installs, maintenance, safeguard not convenient.
Utility model content
For the deficiency that prior art exists, this utility model purpose is to provide a kind of machine-made carbon powder dryer, and drying efficiency is high, it is simple to installs, overhaul, safeguard.
To achieve these goals, this utility model is to realize by the following technical solutions: a kind of machine-made carbon powder dryer, including coaxially sheathed inner furnace body and external furnace body, the inner space of described inner furnace body is combustor, space between described inner furnace body and external furnace body is drying chamber, described drying chamber is provided with and is provided with the first coil pipe and the second coil pipe from the bottom to top, described first coil pipe and the second coil pipe are cylindrical screw wire, the upper end of described first coil pipe connects with feed arrangement, the entrance connection by the first blower fan and the first dehumidifying bucket of the lower end of described first coil pipe, the lower end of described second coil pipe is connected with the outlet of the first dehumidifying bucket, the upper end of described second coil pipe is connected by the second blower fan and the second dehumidifying bucket, first, material is sucked first by two blower fans respectively, in two dehumidifying buckets.
Further, also include the first U-tube, the two ends of described first U-tube respectively with the lower end of the second coil pipe and combustion chamber, the outlet of described first dehumidifying bucket connects with the stage casing of the first U-tube.
Further, it is additionally provided with in described drying chamber and is positioned at above the second coil pipe in the 3rd coil pipe of cylindrical screw wire, the lower end of described 3rd coil pipe and the outlet of the second dehumidifying bucket with connect, the upper end of described 3rd coil pipe is connected by the 3rd blower fan and the 3rd dehumidifying bucket, and the material in the 3rd coil pipe is introduced in the 3rd dehumidifying bucket by described 3rd blower fan.
Further, also include the second U-tube, the two ends of described second U-tube respectively with the lower end of the 3rd coil pipe and combustion chamber, the outlet of described second dehumidifying bucket connects with the stage casing of the second U-tube.
Further, described second U-tube is provided with the charging aperture that can add new material, and the material after the second coil pipe is dried is sent in the 3rd coil pipe with after the new mixing of materials that charging aperture adds.
The beneficial effects of the utility model: a kind of machine-made carbon powder dryer of the present utility model, including coaxially sheathed inner furnace body and external furnace body, the inner space of described inner furnace body is combustor, space between described inner furnace body and external furnace body is drying chamber, described drying chamber is provided with and is provided with the first coil pipe and the second coil pipe from the bottom to top, described first coil pipe and the second coil pipe are cylindrical screw wire, the upper end of described first coil pipe connects with feed arrangement, the entrance connection by the first blower fan and the first dehumidifying bucket of the lower end of described first coil pipe, the lower end of described second coil pipe is connected with the outlet of the first dehumidifying bucket, the upper end of described second coil pipe is connected by the second blower fan and the second dehumidifying bucket, first, material is sucked first by two blower fans respectively, in two dehumidifying buckets. comparatively moist material from top to bottom runs at the first coil pipe, and running resistance is little, after first drying, running from the bottom to top along the second coil pipe, dry fully, overall drying efficiency is high, and first and second coil pipe is arranged from the bottom to top, structure is neat, compact, it is simple to installs, overhaul and safeguards.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of machine-made carbon powder dryer of this utility model;
Detailed description of the invention
For the technological means making this utility model realize, creation characteristic, reach purpose and effect and be easy to understand, below in conjunction with detailed description of the invention, this utility model is expanded on further.
Refer to figure, this utility model provides a kind of technical scheme: a kind of machine-made carbon powder dryer, including coaxially sheathed inner furnace body 1 and external furnace body 2, the inner space of described inner furnace body 1 is combustor 3, space between described inner furnace body 1 and external furnace body 2 is drying chamber 4, described drying chamber 4 is provided with and is provided with the first coil pipe 5 and the second coil pipe 6 from the bottom to top, described first coil pipe 5 and the second coil pipe 6 are cylindrical screw wire, the upper end of described first coil pipe 5 connects with feed arrangement 22, the lower end of described first coil pipe 5 is connected with the entrance of the first dehumidifying bucket 8 by the first blower fan 7, the lower end of described second coil pipe 6 is connected with the outlet of the first dehumidifying bucket 8, the upper end of described second coil pipe 6 is connected with the second dehumidifying bucket 10 by the second blower fan 9, first, two blower fans 7, material is sucked first by 9 respectively, two dehumidifying buckets 8, in 10.
The heat produced in combustor 3 is transferred in drying chamber 4 through inner furnace body 1, thus being heated the material in first and second coil pipe and powdered biomass drying.Material is through elevating hopper, separating sieve, the feed arrangements such as screw pump 22 enter the top of the first coil pipe 5, the air draught power that first blower fan 5 produces makes material 5 internal coiling in the first coil pipe run downwards, running resistance is compared when running from the bottom to top little, in running in the first coil pipe, material is by first drying, material after first drying enters the first dehumidifying bucket 8, enter the dampness in the first dehumidifying bucket 8 with material and discharge the first dehumidifying bucket 8 through the first dehumidification tube 23 from the bottom to top, material then enters the bottom of the second coil pipe 6 from the outlet bottom the first dehumidifying bucket 8, now, material is after first drying, dampness reduces, then the air draught power of the second blower fan 9 makes material enter the second coil pipe 6 and along the second coil pipe 6 spiral from the bottom to top, spiral is compared from top to bottom to run and can be made increase the time of contact of material and the second coil pipe from the bottom to top, and running resistance compares material first time, and to enter drying chamber resistance when directly running from the bottom to top little. material enters after the second dehumidifying bucket 10 through the second blower fan 9, and dampness discharges the second dehumidifying bucket 10 through the second dehumidification tube 24 from the bottom to top, and material is then discharged from the outlet at bottom of the second dehumidifying bucket 10.
Material at the first coil pipe from top to bottom, in the second coil pipe method of operation from the bottom to top, both ensure that the operation time of material, and in turn ensure that simultaneously and namely ensure that the drying efficiency of material by the drying effect of material.
Also include the first U-tube 11, the two ends of described first U-tube 11 respectively with the lower end of the second coil pipe 6 and combustion chamber, the outlet of described first dehumidifying bucket 8 connects with the stage casing of the first U-tube 11. Heat in the outlet material of the first dehumidifying bucket 8 and combustor all together enters after in the first U-tube and enters back into the second coil pipe 6, make material heat exchange in the second coil pipe 6 faster, namely the steam in combustor 3 is directly entered the second coil pipe 6 material is dried, and drying effect is better.
It is additionally provided with in described drying chamber 4 and is positioned at above the second coil pipe in the 3rd coil pipe 13 of cylindrical screw wire, the lower end of described 3rd coil pipe 13 and the outlet of the second dehumidifying bucket 10 with connect, the upper end of described 3rd coil pipe 13 is connected with the 3rd dehumidifying bucket 15 by the 3rd blower fan 14, and the material in the 3rd coil pipe is introduced in the 3rd dehumidifying bucket 15 by described 3rd blower fan 14. In like manner, material is entered the 3rd coil pipe 13 by the 3rd blower fan 14, makes material third time be dried, and drying effect is more preferably, dampness in material is discharged with the 3rd dehumidification tube 25 in reason the 3rd dehumidifying bucket 15, and material is then discharged into subsequent technique from the outlet bottom the 3rd dehumidifying bucket 15.
Also include the second U-tube 12, the two ends of described second U-tube 12 respectively with the lower end of the 3rd coil pipe and combustion chamber, the outlet of described second dehumidifying bucket 10 connects with the stage casing of the second U-tube 12, and the effect of the second U-tube 12 is identical with the first U-tube. In like manner, outlet at feed arrangement also has the 3rd U-tube, the effect of the 3rd U-tube is identical with first and second U-tube, sends in the first coil pipe by the steam of combustor while material imports the first coil pipe upper end, accelerates material drying rate in the first coil pipe.
Described second U-tube 12 is provided with the charging aperture 16 that can add new material, and the material after the second coil pipe is dried is sent in the 3rd coil pipe 13 with after the new mixing of materials that charging aperture 16 adds. Due to from feed arrangement 22 material out after drying chamber 4 sequentially passes through first and second coil pipe by twice heating, drying, now the temperature of material is higher, the mixing of materials after the material and twice drying that new needs dry is added by charging aperture 16, mixed material is dried then through the 3rd coil pipe 13 just can directly meet drying effect, make through charging aperture 16 add material without by first and second coil pipe just complete dry, substantially increase drying efficiency, and save the energy.
Being provided with flow control valve 17 between upper end and the feed arrangement of described first coil pipe 5, the outlet of described 3rd dehumidifying bucket 15 is provided with the temperature sensor 18 of detection temperature of charge. Flow control valve 17 regulates the flow of material, the temperature of finished product materials is then measured in temperature sensor 18, flow is regulated by flow control valve 17, to meet the temperature requirements of material outlet, the flow of flow control valve 17 is changed in other words according to the temperature of material, after making the flow entering the material of drying chamber and drying, the temperature of material matches, and controls more accurate.
Coaming plate 19 it is provided with inside described inner furnace body, open-topped combustion chamber 20 is formed between described coaming plate and inner furnace body, in inner furnace body, the part beyond corresponding combustion chamber 20 is heat collector cavity 21, is provided with the conducting strip 21 that two ends contact with coaming plate and inner furnace body respectively in described combustion chamber. The heat of combustion chamber 20 is transferred to drying chamber 4 and heat collector cavity 21 by conducting strip 20, can pass through pyrolysis still and place organic rod, utilize the heat in heat collector cavity 21 that organic rod is carried out carbonization in heat collector cavity 21.
Of the present utility model ultimate principle and principal character and of the present utility model advantage have more than been shown and described, to those skilled in the art, obvious this utility model is not limited to the details of above-mentioned one exemplary embodiment, and when without departing substantially from spirit of the present utility model or basic feature, it is possible to realize this utility model in other specific forms. Therefore, no matter from which point, embodiment all should be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims rather than described above, it is intended that all changes in the implication of the equivalency dropping on claim and scope included in this utility model. Any accompanying drawing labelling in claim should be considered as the claim that restriction is involved.
In addition, it is to be understood that, although this specification is been described by according to embodiment, but not each embodiment only comprises an independent technical scheme, this narrating mode of description is only for clarity sake, description should be made as a whole by those skilled in the art, and the technical scheme in each embodiment through appropriately combined, can also form other embodiments that it will be appreciated by those skilled in the art that.

Claims (1)

1. a machine-made carbon powder dryer, including coaxially sheathed inner furnace body (1) and external furnace body (2), the inner space of described inner furnace body (1) is combustor (3), space between described inner furnace body (1) and external furnace body (2) is drying chamber (4), it is characterized in that: described drying chamber (4) is provided with and is provided with the first coil pipe (5) and the second coil pipe (6) from the bottom to top, described first coil pipe (5) and the second coil pipe (6) are cylindrical screw wire, the upper end of described first coil pipe (5) connects with feed arrangement (22), the lower end of described first coil pipe (5) is connected with the entrance of the first dehumidifying bucket (8) by the first blower fan (7), the outlet of the lower end of described second coil pipe (6) and the first dehumidifying bucket (8), the upper end of described second coil pipe (6) is connected with the second dehumidifying bucket (10) by the second blower fan (9), first, two blower fans (7, 9) respectively material is sucked first, two dehumidifying buckets (8, 10) in, also include the first U-tube (11), the two ends of described first U-tube (11) respectively with the lower end of the second coil pipe and combustion chamber, the described outlet of the first dehumidifying bucket (8) connects with the stage casing of the first U-tube (11), it is additionally provided with in described drying chamber (4) and is positioned at above the second coil pipe in the 3rd coil pipe (13) of cylindrical screw wire, the lower end of described 3rd coil pipe (13) and the outlet of the second dehumidifying bucket (10) with connect, the upper end of described 3rd coil pipe (13) is connected with the 3rd dehumidifying bucket (15) by the 3rd blower fan (14), material in 3rd coil pipe is introduced in the 3rd dehumidifying bucket (15) by described 3rd blower fan (14), also include the second U-tube (12), the two ends of described second U-tube (12) respectively with the lower end of the 3rd coil pipe and combustion chamber, the described outlet of the second dehumidifying bucket (10) connects with the stage casing of the second U-tube (12), described second U-tube (12) is provided with the charging aperture (16) that can add new material, material after the second coil pipe is dried is sent in the 3rd coil pipe (13) with after the new mixing of materials that charging aperture (16) adds.
CN201520846049.9U 2015-10-28 2015-10-28 Mechanism carbon powder drying -machine Expired - Fee Related CN205300196U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520846049.9U CN205300196U (en) 2015-10-28 2015-10-28 Mechanism carbon powder drying -machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520846049.9U CN205300196U (en) 2015-10-28 2015-10-28 Mechanism carbon powder drying -machine

Publications (1)

Publication Number Publication Date
CN205300196U true CN205300196U (en) 2016-06-08

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Status (1)

Country Link
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105219413A (en) * 2015-10-28 2016-01-06 重庆市竹海新能源开发有限公司 Machine-made carbon powder is dried and carbonizing apparatus

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105219413A (en) * 2015-10-28 2016-01-06 重庆市竹海新能源开发有限公司 Machine-made carbon powder is dried and carbonizing apparatus
CN105219413B (en) * 2015-10-28 2018-06-01 重庆市竹海新能源开发有限公司 Mechanism carbon powder is dried and carbonizing apparatus

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GR01 Patent grant
C14 Grant of patent or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160608

Termination date: 20161028

CF01 Termination of patent right due to non-payment of annual fee