CN103738956A - Super-high temperature graphitization treatment equipment - Google Patents
Super-high temperature graphitization treatment equipment Download PDFInfo
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- CN103738956A CN103738956A CN201410016297.0A CN201410016297A CN103738956A CN 103738956 A CN103738956 A CN 103738956A CN 201410016297 A CN201410016297 A CN 201410016297A CN 103738956 A CN103738956 A CN 103738956A
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- chamber
- furnace shell
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- processing equipment
- temperature graphitization
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Abstract
The invention discloses super-high temperature graphitization treatment equipment. The super-high temperature graphitization treatment equipment comprises a furnace shell, wherein the furnace shell is internally provided with a feeding chamber, a heating chamber and a discharging chamber which are mutually communicated in sequence along a material conveying direction; a feeding heat-insulation door is arranged between the feeding chamber and the heating chamber; a discharging heat-insulation door is arranged between the heating chamber and the discharging chamber; a rapid cooling system matched with the discharging chamber is arranged on the furnace shell; the furnace shell is internally provided with a material conveying device which is respectively matched with the feeding chamber, the heating chamber and the discharging chamber; the feeding chamber is internally provided with a first vacuumizing device and a second air inlet device which are matched with each other; the heating chamber is internally provided with a second vacuumizing device and a second air inlet device which are matched with each other; the discharging chamber is internally provided with a third vacuumizing device and a third air inlet device which are matched with each other; the furnace shell is provided with vacuum sets which are matched with the first vacuumizing device, the second vacuumizing device and the third vacuumizing device. A treatment process of the super-high temperature graphitization treatment equipment is continuous and efficient.
Description
Technical field
The present invention relates to high temperature graphitization treatment facility technical field, particularly a kind of ultrahigh-temperature graphitization processing equipment.
Background technology
In current carbon carbon, carbon ceramic composite material process of manufacture, ultrahigh-temperature graphitization processing equipment is a kind of requisite equipment for treating materials, and along with the improving constantly of user demand, people also have higher requirement to the performance of ultrahigh-temperature graphitization processing equipment.
In current existing ultrahigh-temperature graphitization processing equipment work process, it typically is intermittent apparatus, heat storage capacity in equipment running process is large, heat-up rate is slow, cooling time is long, the continuity of whole treating processes is poor, processing efficiency is low, and energy consumption is higher, cause inconvenience to relevant production operation.
Therefore the treating processes that, how to make ultrahigh-temperature graphitization processing equipment more continuous high-efficient is the important technological problems that those skilled in the art need to solve at present.
Summary of the invention
The object of this invention is to provide a kind of ultrahigh-temperature graphitization processing equipment, the treating processes continuous high-efficient of this ultrahigh-temperature graphitization processing equipment.
For solving the problems of the technologies described above, the invention provides a kind of ultrahigh-temperature graphitization processing equipment, comprise furnace shell, in described furnace shell, along mass transport direction, be disposed with the feed chamber being interconnected, heating chamber and discharge chamber, between described feed chamber and described heating chamber, be provided with charging insulated door, between described heating chamber and described discharge chamber, be provided with discharging insulated door, on described furnace shell, be provided with the accelerate cooling system matching with described discharge chamber, the inside of described furnace shell is provided with respectively and described feed chamber, the device for transporting objects that described heating chamber and described discharge chamber match,
In described feed chamber, be provided with the first vacuum extractor and the first diffuser that cooperatively interact, in described heating chamber, be provided with the second vacuum extractor and the second diffuser that cooperatively interact, in described discharge chamber, be provided with the 3rd vacuum extractor and the 3rd diffuser that cooperatively interact, on described furnace shell, be provided with the vacuum unit matching with described the first vacuum extractor, described the second vacuum extractor and described the 3rd vacuum extractor.
Preferably, on described charging insulated door and described discharging insulated door, be provided with high temperature blocking layer, and each described high temperature blocking layer is all positioned at the side near described heating chamber.
Preferably, on described charging insulated door and described discharging insulated door, be provided with pneumatics, and each described pneumatics is all positioned at the side away from described heating chamber.
Preferably, described device for transporting objects comprises haul frame and material mover.
Preferably, described material mover is carbon-carbon composite product.
Preferably, the inside of the inside of described feed chamber, described discharge chamber is provided with high temperature resistant flue.
Preferably, the outside of described furnace shell is provided with the feeding car matching with described feed chamber movably.
Preferably, the outside of described furnace shell is provided with the discharging car matching with described discharge chamber movably.
Above-mentioned background technology relatively, ultrahigh-temperature graphitization processing equipment provided by the present invention, comprise furnace shell, in described furnace shell, along mass transport direction, be disposed with the feed chamber being interconnected, heating chamber and discharge chamber, between described feed chamber and described heating chamber, be provided with charging insulated door, between described heating chamber and described discharge chamber, be provided with discharging insulated door, on described furnace shell, be provided with the accelerate cooling system matching with described discharge chamber, the inside of described furnace shell is provided with respectively and described feed chamber, the device for transporting objects that described heating chamber and described discharge chamber match, in described feed chamber, be provided with the first vacuum extractor and the first diffuser that cooperatively interact, in described heating chamber, be provided with the second vacuum extractor and the second diffuser that cooperatively interact, in described discharge chamber, be provided with the 3rd vacuum extractor and the 3rd diffuser that cooperatively interact, on described furnace shell, be provided with the vacuum unit matching with described the first vacuum extractor, described the second vacuum extractor and described the 3rd vacuum extractor.In working process, described device for transporting objects control material is successively via described feed chamber, described heating chamber and described discharge chamber, having realized high-efficient graphiteization processes with cooling fast, in treating processes, by the cooperatively interacting of each vacuum extractor and each diffuser, guaranteed atmosphere or the vacuum treatment environment of corresponding chambers.Described ultrahigh-temperature graphitization processing equipment has realized that material is graphited works continuously, and its processing efficiency is higher.
In another preferred version of the present invention, on described charging insulated door and described discharging insulated door, be provided with high temperature blocking layer, and each described high temperature blocking layer is all positioned at the side near described heating chamber.Described high temperature blocking layer can significantly improve the effect of heat insulation between adjacent two chambers, to guarantee the operation treating processes stability and high efficiency more in each chamber.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
The structural representation of the ultrahigh-temperature graphitization processing equipment that Fig. 1 provides for a kind of embodiment of the present invention.
Embodiment
Core of the present invention is to provide a kind of ultrahigh-temperature graphitization processing equipment, the treating processes continuous high-efficient of this ultrahigh-temperature graphitization processing equipment.
In order to make those skilled in the art person understand better the present invention program, below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.
Please refer to Fig. 1, the structural representation of the ultrahigh-temperature graphitization processing equipment that Fig. 1 provides for a kind of embodiment of the present invention.
In embodiment, ultrahigh-temperature graphitization processing equipment provided by the present invention, comprise furnace shell 11, the interior feed chamber 111 being interconnected that is disposed with along mass transport direction of furnace shell 11, heating chamber 112 and discharge chamber 113, between feed chamber 111 and heating chamber 112, be provided with charging insulated door 121, between heating chamber 112 and discharge chamber 113, be provided with discharging insulated door 122, on furnace shell 11, be provided with the accelerate cooling system (not shown) matching with discharge chamber 113, the inside of furnace shell 11 is provided with respectively and feed chamber 111, the device for transporting objects that heating chamber 112 and discharge chamber 113 match, in feed chamber 111, be provided with the first vacuum extractor (not shown) and the first diffuser (not shown) that cooperatively interact, in heating chamber 112, be provided with the second vacuum extractor (not shown) and the second diffuser (not shown) that cooperatively interact, in discharge chamber 113, be provided with the 3rd vacuum extractor (not shown) and the 3rd diffuser (not shown) that cooperatively interact, on furnace shell 11, be provided with and described the first vacuum extractor, the vacuum unit (not shown) that described the second vacuum extractor and described the 3rd vacuum extractor match.In working process, described device for transporting objects control material is successively via feed chamber 111, heating chamber 112 and discharge chamber 113, having realized high-efficient graphiteization processes with cooling fast, in treating processes, by the cooperatively interacting of each vacuum extractor and each diffuser, guaranteed atmosphere or the vacuum treatment environment of corresponding chambers.Described ultrahigh-temperature graphitization processing equipment has realized that material is graphited works continuously, and its processing efficiency is higher.
Further, on charging insulated door 121 and discharging insulated door 122, be provided with high temperature blocking layer 123, and each high temperature blocking layer 123 is all positioned at the side near heating chamber 112.High temperature blocking layer 123 can significantly improve the effect of heat insulation between adjacent two chambers, to guarantee the operation treating processes stability and high efficiency more in each chamber.
More specifically, on charging insulated door 121 and discharging insulated door 122, be provided with pneumatics 124, this pneumatics 124 is controlled the open and close of insulated door, and each pneumatics 124 is all positioned at the side away from heating chamber 112.Pneumatics 124 can effectively completely cut off the heat transmission between adjacent two chambers, further to guarantee the operation treating processes stability and high efficiency more in each chamber.
On the other hand, described device for transporting objects comprises haul frame 131 and material mover 132.The reliable in structure of this kind of haul frame 131, material mover 132 is controlled comparatively flexibly, can further guarantee the working efficiency of described ultrahigh-temperature graphitization processing equipment.
In addition, material mover 132 is carbon-carbon composite product.The high temperature tolerance of this kind of carbon-carbon composite product is stronger, can further guarantee the working reliability of associated components.
In addition, the inside of the inside of feed chamber 111, discharge chamber 113 is provided with high temperature resistant flue.This kind of high temperature resistant flue can avoid the inwall of feed chamber 111 and discharge chamber 113 to be subject to the erosion of high temperature gas flow, thereby makes the whole service life of described ultrahigh-temperature graphitization processing equipment and reliability thereof be able to corresponding raising.
Further, the outside of furnace shell 11 is provided with the feeding car 141 matching with feed chamber 111 movably.This feeding car 141 can significantly improve charging efficiency and the controllability thereof of described ultrahigh-temperature graphitization processing equipment.
More specifically, the outside of furnace shell 11 is provided with the discharging car 142 matching with discharge chamber 113 movably.This discharging car 142 can significantly improve discharging efficiency and the controllability thereof of described ultrahigh-temperature graphitization processing equipment.
In summary, the ultrahigh-temperature graphitization processing equipment providing in the present invention, comprise furnace shell, in described furnace shell, along mass transport direction, be disposed with the feed chamber, heating chamber and the discharge chamber that are interconnected, between described feed chamber and described heating chamber, be provided with charging insulated door, between described heating chamber and described discharge chamber, be provided with discharging insulated door, on described furnace shell, be provided with the accelerate cooling system matching with described discharge chamber, the inside of described furnace shell is provided with the device for transporting objects matching with described feed chamber, described heating chamber and described discharge chamber respectively; In described feed chamber, be provided with the first vacuum extractor and the first diffuser that cooperatively interact, in described heating chamber, be provided with the second vacuum extractor and the second diffuser that cooperatively interact, in described discharge chamber, be provided with the 3rd vacuum extractor and the 3rd diffuser that cooperatively interact, on described furnace shell, be provided with the vacuum unit matching with described the first vacuum extractor, described the second vacuum extractor and described the 3rd vacuum extractor.In working process, described device for transporting objects control material is successively via described feed chamber, described heating chamber and described discharge chamber, having realized high-efficient graphiteization processes with cooling fast, in treating processes, by the cooperatively interacting of each vacuum extractor and each diffuser, guaranteed atmosphere or the vacuum treatment environment of corresponding chambers.Described ultrahigh-temperature graphitization processing equipment has realized that material is graphited works continuously, and its processing efficiency is higher.
Above ultrahigh-temperature graphitization processing equipment provided by the present invention is described in detail.Applied specific case herein principle of the present invention and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present invention and core concept thereof.It should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention, can also carry out some improvement and modification to the present invention, these improvement and modification also fall in the protection domain of the claims in the present invention.
Claims (8)
1. a ultrahigh-temperature graphitization processing equipment, it is characterized in that: comprise furnace shell, in described furnace shell, along mass transport direction, be disposed with the feed chamber, heating chamber and the discharge chamber that are interconnected, between described feed chamber and described heating chamber, be provided with charging insulated door, between described heating chamber and described discharge chamber, be provided with discharging insulated door, on described furnace shell, be provided with the accelerate cooling system matching with described discharge chamber, the inside of described furnace shell is provided with the device for transporting objects matching with described feed chamber, described heating chamber and described discharge chamber respectively;
In described feed chamber, be provided with the first vacuum extractor and the first diffuser that cooperatively interact, in described heating chamber, be provided with the second vacuum extractor and the second diffuser that cooperatively interact, in described discharge chamber, be provided with the 3rd vacuum extractor and the 3rd diffuser that cooperatively interact, on described furnace shell, be provided with the vacuum unit matching with described the first vacuum extractor, described the second vacuum extractor and described the 3rd vacuum extractor.
2. ultrahigh-temperature graphitization processing equipment as claimed in claim 1, is characterized in that: on described charging insulated door and described discharging insulated door, be provided with high temperature blocking layer, and each described high temperature blocking layer is all positioned at the side near described heating chamber.
3. ultrahigh-temperature graphitization processing equipment as claimed in claim 2, is characterized in that: on described charging insulated door and described discharging insulated door, be provided with pneumatics, and each described pneumatics is all positioned at the side away from described heating chamber.
4. ultrahigh-temperature graphitization processing equipment as claimed in claim 1, is characterized in that: described device for transporting objects comprises haul frame and material mover.
5. ultrahigh-temperature graphitization processing equipment as claimed in claim 4, is characterized in that: described material mover is carbon-carbon composite product.
6. ultrahigh-temperature graphitization processing equipment as claimed in claim 1, is characterized in that: the inside of described feed chamber, the inside of described discharge chamber are provided with high temperature resistant flue.
7. ultrahigh-temperature graphitization processing equipment as claimed in claim 1, is characterized in that: the outside of described furnace shell is provided with the feeding car matching with described feed chamber movably.
8. ultrahigh-temperature graphitization processing equipment as claimed in claim 1, is characterized in that: the outside of described furnace shell is provided with the discharging car matching with described discharge chamber movably.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106744917A (en) * | 2016-12-31 | 2017-05-31 | 南京新月材料科技有限公司 | A kind of superhigh temperature graphitizing furnace |
CN109231198A (en) * | 2018-11-27 | 2019-01-18 | 湖南顶立科技有限公司 | A kind of material equipment for purifying |
DE102017121224A1 (en) * | 2017-09-13 | 2019-03-14 | Eisenmann Se | Apparatus and method for thermal or thermo-chemical treatment of material |
CN114923304A (en) * | 2022-06-17 | 2022-08-19 | 中南大学 | System and method for cooling high-temperature graphite through non-contact radiation |
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CN101920952A (en) * | 2010-08-24 | 2010-12-22 | 天津伊博瑞尔能源科技发展有限公司 | Technique and device for producing iron phosphate lithium positive pole material through one-step process |
CN103359724A (en) * | 2013-07-03 | 2013-10-23 | 李倩 | Continuous induction graphitizing system |
CN203768030U (en) * | 2014-01-14 | 2014-08-13 | 湖南顶立科技有限公司 | Ultrahigh-temperature graphitization treatment equipment |
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2014
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101920952A (en) * | 2010-08-24 | 2010-12-22 | 天津伊博瑞尔能源科技发展有限公司 | Technique and device for producing iron phosphate lithium positive pole material through one-step process |
CN103359724A (en) * | 2013-07-03 | 2013-10-23 | 李倩 | Continuous induction graphitizing system |
CN203768030U (en) * | 2014-01-14 | 2014-08-13 | 湖南顶立科技有限公司 | Ultrahigh-temperature graphitization treatment equipment |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106744917A (en) * | 2016-12-31 | 2017-05-31 | 南京新月材料科技有限公司 | A kind of superhigh temperature graphitizing furnace |
DE102017121224A1 (en) * | 2017-09-13 | 2019-03-14 | Eisenmann Se | Apparatus and method for thermal or thermo-chemical treatment of material |
US11938473B2 (en) | 2017-09-13 | 2024-03-26 | Onejoon Gmbh | Device and method for thermal or thermo-chemical treatment of material |
CN109231198A (en) * | 2018-11-27 | 2019-01-18 | 湖南顶立科技有限公司 | A kind of material equipment for purifying |
CN114923304A (en) * | 2022-06-17 | 2022-08-19 | 中南大学 | System and method for cooling high-temperature graphite through non-contact radiation |
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Application publication date: 20140423 |