CN105821526B - Carbon fibe continuous production retort and its transmission device - Google Patents

Abstract

A kind of Carbon fibe continuous production retort and its transmission device, it is production equipment field to belong to Carbon fibe.Transmission device includes being provided at both ends with the seal air pipe of opening and multiple driving members.Multiple driving member intervals and rotation be arranged in the tube chamber of seal air pipe, and both ends respectively pass through seal air pipe relative left side wall and right side wall.Gas cavity, steam vent and air admission hole are provided with seal air pipe.Carbon fibe continuous production retort includes above-mentioned transmission device and outer framework, body of heater, heating component.Above-mentioned transmission device can keep preferable sealing effectiveness, so as to avoid contact of the Carbon fibe with other impurities gas using the structure design of sealing while transmission is ensured.Make Carbon fibe continuous production retort at work using the transmission device, a relatively clean atmosphere can be provided for Carbon fibe, so as to improve the yield and quality of Carbon fibe.

Description

Carbon fibe continuous production retort and its transmission device

Technical field

The invention belongs to Carbon fibe production equipment field, in particular to a kind of Carbon fibe continuous production retort.

Background technology

Carbon fibe is a kind of new fiber materials of the higher high intensity of phosphorus content, and it has, and density is small, intensity is high, corrosion resistant The characteristics such as erosion, high-modulus, it is widely used in defence and military, civilian aspect field.At present, domestic Carbon fibe is mainly bought certainly Abroad, a small amount of Carbon fibe is carried out by the country by batch furnace.But there is the gas of Carbon fibe production environment in existing batch furnace The problem of body isolation effect is bad, so that Carbon fibe is easily in contact with foreign gas, and then causes yielding poorly for Carbon fibe, Quality is unstable.

The content of the invention

It is an object of the invention to provide can be to realize the transmission device of Carbon fibe production equipment, to ensure just Often while transmission, sealing property can be improved.

Another object of the present invention is to provide a kind of Carbon fibe continuous production retort, filled using having Packed transmission Gas tightness inside retort can be improved by putting, and be asked with reducing in Carbon fibe production process with what other impurities gas contacted The generation of topic, so as to reduce the generation of Carbon fibe side reaction, and then the quality of Carbon fibe is improved, realize the continuous life of Carbon fibe Production, increase yield.

What the present invention was realized in：

Multiple driving member intervals and rotation is arranged in the tube chamber of seal air pipe, and the both ends of multiple driving members are divided equally Not Chuan Guo seal air pipe relative left side wall and right side wall.Be provided with gas cavity in seal air pipe, gas cavity with The tube chamber connection of seal air pipe.The madial wall towards driving member of seal air pipe is provided with multiple to be connected with gas cavity Steam vent, the lateral wall away from driving member of seal air pipe are provided with multiple air admission holes connected with gas cavity.

Preferably, driving member includes roller rod and outer tube.Wherein, roller rod include right side connecting portion, centre transport portion and Left side connecting portion.Outer tube includes left side branch pipe and right side branch pipe, and right side connecting portion passes through right side branch pipe and seal air pipe Right side wall is connected, and left side connecting portion is connected by the left side wall of left side branch pipe and seal air pipe.

A kind of Carbon fibe continuous production retort includes：Outer framework, body of heater, heating component and above-mentioned transmission device, stove Body is arranged in outer framework, and furnace chamber is provided with body of heater, and transmission device is located in furnace chamber, and is connected with body of heater, transmission dress The both ends for the multiple driving members put are arranged in outside outer framework, and heating component is arranged in body of heater.

Preferably, Carbon fibe continuous production retort also includes gas inlet pipe.The tube wall of the gas inlet pipe sets more Individual input pipe stomata, input pipe stomata connect with furnace chamber.

Preferably, heating component includes multiple heaters.Multiple heaters are located at the both sides up and down of multiple driving members respectively. Heater includes inner side ceramic rod, resistance wire and outside ceramic jacket.Outside ceramic jacket is provided with accommodating cavity, inner side ceramic rod set It is arranged in accommodating cavity, resistance wire is located in accommodating cavity and is set around inner side ceramic rod.

Preferably, body of heater is additionally provided with Waste gas outlet, and Waste gas outlet connects with furnace chamber.

Preferably, Carbon fibe continuous production retort also includes：Discharging device for coke.Discharging device for coke include coke discharging connecting tube and Coke discharging tank.Coke discharging tank is arranged at outside outer framework.Body of heater is provided with the coke discharging hole connected with furnace chamber, and one end of coke discharging connecting tube leads to Cross coke discharging hole to be connected with body of heater, the other end of coke discharging connecting tube is connected through outer framework with the charging aperture of coke discharging tank.

Preferably, the height of coke discharging hole in the vertical direction is more than the height of charging aperture in the vertical direction.

Preferably, Carbon fibe continuous production retort also includes：Cooling component, cooling component include cooler bin, cooler bin Heat transferring medium accommodating cavity is provided with, cooler bin is arranged in furnace chamber and neighbouring driving member.

Preferably, cooling component also includes the cooling tube matched with cooler bin, and cooling tube is arranged in accommodating cavity, and heat exchange is situated between Matter is located in cooling tube.

Beneficial effects of the present invention：

Transmission device provided by the invention, driving member is combined with seal air pipe, passes through the gas space of seal air pipe Chamber inputs gas into the tube chamber of seal air pipe, makes to keep an independent gaseous environment in the tube chamber of seal air pipe, from And avoid being mixed into for ambient atmos.Due to being a space relative to driving member independence in the tube chamber of seal air pipe, transmission The normal operation of part will not cause mixing for gas and ambient atmos in seal air pipe, ensure that the anti-of Carbon fibe raw material Answer the stabilization of the atmosphere of environment.Retort uses above-mentioned transmission device, controls the gas in the production process of Carbon fibe It is easier, be advantageous to be carried out continuously the production of Carbon fibe, and the generation of Carbon fibe side reaction is reduced, so as to improve carbon fibre The quality of dimension.In addition, this sealing transmission, which can realize that Carbon fibe rotates from burner, is transported to stove tail, and can realize in stove transmission with The sealing problem being connected outside stove.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below by embodiment it is required use it is attached Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore be not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 is the main structure diagram of transmission device provided in an embodiment of the present invention；

Fig. 2 is the overlooking the structure diagram of transmission device provided in an embodiment of the present invention；

Fig. 3 shows the structural representation of the driving member in the transmission device that Fig. 1 is provided；

Fig. 4 is the Carbon fibe continuous production retort provided in an embodiment of the present invention for being provided with the transmission device shown in Fig. 1 Structural representation；

Fig. 5 shows the main structure diagram of the outer framework in the Carbon fibe continuous production retort that Fig. 4 is provided；

Fig. 6 shows the side structure schematic view of the outer framework in the Carbon fibe continuous production retort that Fig. 4 is provided；

Fig. 7 shows coke discharging tank provided in an embodiment of the present invention and the company in the Carbon fibe continuous production retort in Fig. 4 Connect view；

Fig. 8 shows the structure of the resistance heater in Carbon fibe continuous production retort provided in an embodiment of the present invention Schematic diagram；

Fig. 9 shows the structural representation of the cooling component in the Carbon fibe continuous production retort that Fig. 4 is provided.

Description of reference numerals：

Seal air pipe 101；Air inlet pipe 102；Driving member 103；Opening 104；Steam vent 105；Motor 111；Left side wall 121；Right side wall 122；Air admission hole 123；Centre transports portion 201；Left side connecting portion 202；Right side connecting portion 203；Roller rod 204；Always Into 205；Left side branch pipe 206；Right side branch pipe 207；Outer tube 208；Gas inlet pipe 301；Body of heater 302；Heat-preservation cotton 303；Housing Frame 304；Furnace chamber 305；Heating component 306；Upper framework 401；Underframe 402；I-steel 403；Resistance heater 404；It is interior Side ceramic rod 405；Outside ceramic jacket 406；Resistance wire 407；Cooling component 500；Cooling tube 501；Cooler bin 502；Coke discharging tank 600；Coke discharging connecting tube 601；Inclined plane 602；Discharging device for coke 603.

Embodiment

With reference to specific embodiment, the present invention is further illustrated.

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.The present invention implementation being generally described and illustrated herein in the accompanying drawings The component of example can be configured to arrange and design with a variety of.Therefore, the reality of the invention to providing in the accompanying drawings below The detailed description for applying example is not intended to limit the scope of claimed invention, but is merely representative of the selected implementation of the present invention Example.Based on the embodiment in the present invention, what those of ordinary skill in the art were obtained under the premise of creative work is not made Every other embodiment, belongs to the scope of protection of the invention.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent accompanying drawing in individual accompanying drawing.

In the description of the invention, it is necessary to explanation, term " on ", " under ", "left", "right", " interior ", " outer " Orientation or position relationship Deng instruction are based on orientation shown in the drawings or position relationship, or are used to during the invention product use The orientation or position relationship often put, it is for only for ease of and describes the present invention and simplify description, rather than indicates or imply and be signified Device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to the present invention Limitation.

In the description of the invention, it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " installation ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or integratedly be connected Connect；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, can To be the connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood with concrete condition Concrete meaning in the present invention.

Refering to Fig. 1 and Fig. 2, the gas that a kind of transmission device 100 includes being provided at both ends with opening 104 is present embodiments provided Seal pipe 101 and nine driving members 103.

Nine driving members 103 are spaced and rotated and are arranged in the tube chamber of seal air pipe 101, and multiple driving members 103 Both ends respectively pass through seal air pipe 101 relative left side wall 121 and right side wall 122.In the present embodiment, nine transmissions Part 103 is equidistantly intervally arranged along same straight line defence line, and in other words, nine centerline axis parallels of driving member 103 are coplanar.Gas Gas cavity (not shown) is provided with seal pipe 101, gas cavity connects with the tube chamber of seal air pipe 101.Gas The madial wall towards driving member 103 of seal pipe 101 is provided with multiple steam vents 105 connected with gas cavity, air seal The lateral wall away from driving member 103 of pipe 101 is provided with multiple air admission holes 123 connected with gas cavity.

In the present embodiment, 103 numbers of driving member are nine, it is to be understood that in other embodiments of the invention, are passed The number of moving part 103 can be with unnecessary or less than nine, such as eight, and ten, 11 etc., the present invention is not to driving member The 103 left restriction of specific number, so that Carbon fibe production needs are advisable.Seal air pipe 101 can be used by sheet metal The rectangular tube being made, in order to improve the durability of seal air pipe 101, it can use sheet metal to make.Gas is close The tube wall of tube sealing 101 is shell structure, and is provided with to the steam vent 105 of output gas and the air inlet for inputting gas Hole 123.Seal air pipe 101 is provided with gas cavity, and gas cavity connects with steam vent 105.Air admission hole 123 be connected with into Tracheae 102, to utilize the gas supply pipe system of outside, inject gas into the gas cavity of seal air pipe 101.This implementation In example, the number of air inlet pipe 102 is eight, and respectively positioned at seal air pipe 101 relative to driving member 103 up and down two Side.

Driving member 103 can use various conveyer belts, then drive transmission belt delivering Carbon fibe by rotating shaft.Refering to Fig. 3, sheet Driving member 103 in embodiment includes roller rod 204 and outer tube 208.Roller rod 204 preferably uses ceramic rod 204, its intensity Height, steady chemical structure, heat resistance are good.Roller rod 204 includes right side connecting portion 203, centre transports portion 201 and left side connection Portion 202.Outer tube 208 includes left side branch pipe 206 and right side branch pipe 207.Right side connecting portion 203 passes through left side branch pipe 206 and gas The right side wall 122 of body seal pipe 101 connects, the left side that left side connecting portion 202 passes through right side branch pipe 207 and seal air pipe 101 Wall 121 connects.

It is preferred that left side branch pipe 206 is connected using flange with the left connecting portion of roller rod 204；Correspondingly, right side branch pipe 207 Flange can also be used to be connected with the right connecting portion of roller rod 204.Further, the both ends of roller rod 204 can be with bearing aluminium seat assembly 205 connections, so as to other driving equipments, such as the connection of motor 111 or other mechanism members, while improve roller rod when rotating Air-tightness.

Transmission device 100 makes roller rod 204 be formed with seal air pipe 101 using the cooperation of roller rod 204 and outer tube 208 Firmly and stable sealing, roller rod 204 also have a preferable air-tightness while rotation, draw when avoiding the rotation of roller rod 204 Pollution of the ambient atmos risen to the gas in seal air pipe 101.On the other hand, because seal air pipe 101 is provided with phase Air inlet pipe 102, air admission hole 123, gas cavity and the steam vent 105 mutually coordinated, then using outside feeder to gas Seal pipe 101 supplies.Specifically, extraneous feeder is connected by pipeline with air inlet pipe 102, then via air admission hole 123 to Conveying gas in gas cavity.Gas in gas cavity is scattered in via steam vent 105 in the tube chamber of seal air pipe 101, So that foreign gas is forced out in the tube chamber of seal air pipe 101, the cleaning gas in Carbon fibe reaction environment is kept, with The pollution to Carbon fibe of anti-other impurities gas.

Refering to Fig. 4, the present embodiment additionally provides a kind of Carbon fibe continuous production retort based on above-mentioned transmission device 100 200.Carbon fibe continuous production retort 200 includes：Outer framework 304, body of heater 302, heating component 306 and above-mentioned transmission device 100.Body of heater 302 is arranged in outer framework 304.Furnace chamber 305 is provided with body of heater 302, transmission device 100 is located at furnace chamber In 305, and it is connected with body of heater 302.The both ends of driving member 103 in transmission device 100 are arranged in outside outer framework 304.Heating group Part 306 is arranged in seal air pipe 101.

Refering to Fig. 5, Fig. 6, outer framework 304 is made using materials such as beams of metal, bars, and outer framework 304 is cube shaped Frame structure, and be made in frame structure upper mounted plate material.Needs based on installation and construction, outer framework 304 can It is designed as 402 two parts of framework 401 and underframe.In addition, in the upper framework 401 and underframe 402 two of outer framework 304 / support meanss are set, such as I-steel 403, to be the headspace of transmission device 100.

The generally use of body of heater 302 is made by refractory brick, by setting the structures such as hole, groove on body of heater 302, so as to Various unit installations and connection.Due to the particularity of Carbon fibe production environment, body of heater 302 can preferably use acidproof brick Pile up and form, avoid being corroded in process of production, while prevent the pollution for causing Carbon fibe by corrosion.Based on body of heater 302 The needs of intensity and sealing property, can be using fire resisting, acidproof clay as inserts on the wall of body of heater 302.Clay have fire resisting, Resistant to elevated temperatures feature, and the erosion of vapor can also be prevented.In addition, the use of clay also makes the airtight performance of body of heater 302 More preferably so that inner bag need not be set as sealing device, so as to simplify Carbon fibe continuous production retort 200 in body of heater 302 Structure, be easily installed.Needed based on the insulation in furnace chamber 305, attemperator can also be set outside body of heater 302, for example, Heat-preservation cotton 303 is laid in the outer wall of body of heater 302.

Caused coal tar can pollute the air in body of heater 302 in the production process of Carbon fibe, and body of heater 302 is made Into corrosion.Carbon fibe continuous production retort 200 also includes discharging device for coke 603.Refering to Fig. 7, specifically, discharging device for coke 603 wraps Include coke discharging tank 600 and coke discharging connecting tube 601.Coke discharging tank 600 is arranged at outside outer framework 304.Body of heater 302 is provided with and furnace chamber The coke discharging holes of 305 connections, one end of coke discharging connecting tube 601 is connected by coke discharging hole with body of heater 302, coke discharging connecting tube 601 it is another One end is connected through outer framework 304 with the charging aperture of coke discharging tank 600.

Coke discharging tank 600 can be made as double-decker using stainless steel, to improve its intensity.Further, coke discharging tank 600 Designed using two-part Split type structure up and down, so as to being cleaned inside coke discharging tank 600.In order that tar steam can be suitable Sharply by entering coke discharging tank 600 in body of heater 302, the coke discharging hole in the vertical direction that can make to be arranged on body of heater 302 is more than The charging aperture of coke discharging tube is in the height of vertical direction, and the coke discharging connecting tube 601 for connecting body of heater 302 and coke discharging tank 600 has One inclined plane 602.

Height with respect to the horizontal plane of the inclined plane 602 of connecting pipe adjacent to the side in coke discharging hole is more than inclined plane 602 The height with respect to the horizontal plane of the neighbouring side of coke discharging tank 600.Using the coke discharging connecting tube 601 with inclined plane 602 so that burnt Oil can more swimmingly enter coke discharging tank 600, reduce the situation that tar passes back into body of heater 302 that occurs.Coke discharging tank 600 can both couple cold Condensate, vapours or hot water can be also connected, in order to the collection or discharge of tar.

Furthermore it is also possible to heating tape is connected in the above-mentioned connecting tube with inclined plane 602, to avoid coke discharging connecting tube 601 block.In order to facilitate changing and cleaning coke discharging tank 600, coke discharging tank 600 can be connected using fast acting flange with body of heater 302. When needing to change coke discharging tank 600, flange is dismantled, coke discharging tank 600 is removed, while close coke discharging hole, prevent gas in body of heater 302 Body leaks and keeps ambient atmos environment to isolate with gaseous environment in body of heater 302.Can be by body of heater 302 by discharging device for coke 603 Interior tar steam is extracted out, the then cooling storage in coke discharging tank 600, the environment in body of heater 302 is kept relative cleaning, with Beneficial to the production of Carbon fibe.

Caused coal tar is occurred tar steam and is attached to the interior of body of heater 302 by thermal evaporation in the production process of Carbon fibe The problem of roof.In the present embodiment, the situation of furnace roof is attached to for tar steam, Carbon fibe continuous production retort 200 is set The part in coke discharging hole is equipped with, the top of body of heater 302 is arranged to vault construction.

The design of vault construction, the inner roof wall for making body of heater 302 is arcuate structure, so as to improve tar steam in body of heater The attachment difficulty of 302 inner roof wall so that tar steam is not easy the inner roof wall condensation in body of heater 302.Therefore, using vault construction Design, the top of body of heater 302 is more easily kept cleaning, and vault construction builds that more convenient, firmness is higher by laying bricks or stones.

The problem of for producing waste gas in Carbon fibe production process, the body of heater 302 of Carbon fibe continuous production retort 200 is also Waste gas outlet is provided with, Waste gas outlet connects with furnace chamber 305.Waste gas outlet can pass through pipeline, valve and the external world Air-extractor such as air pump connects, to discharge the waste gas in the furnace chamber 305 of body of heater 302 when necessary.

Refering to Fig. 4, the heating component 306 in the present embodiment includes multiple heaters.Multiple heaters are respectively positioned at multiple The both sides up and down of driving member 103.Due to transporting in driving member 103 more specifically in roller rod for Carbon fibe raw material and product 204 centre transports portion 201, therefore, is heated from the both direction up and down of driving member 103, can make Carbon fibe raw material by Heat is more uniform, is advantageous to improve the quality of product.The selection of heater has a variety of, and heater 404 is used in the present embodiment.Tool Body, refering to Fig. 8, heater 404 includes inner side ceramic rod 405, resistance wire 407 and outside ceramic jacket 406.Outside ceramic jacket 406 are provided with accommodating cavity, and 405 sets of inner side ceramic rod is arranged in accommodating cavity, and resistance wire 407 is located in accommodating cavity and is set around interior Side ceramic rod 405.

The inner side ceramic rod 405 and outside ceramic jacket 406 formed using ceramic material has higher heat resistance, Be not susceptible to deformation, and it is anticorrosive, heat transfer efficiency is high.Using inside and outside ceramic structure Seal resistances silk 407, resistance wire can be avoided 407 are corroded, and improve the service life and heat utilization rate of resistance wire 407.

In order to improve uniformity of the heater 404 to the heat effect of air in body of heater 302, resistance wire 407 is made pottery in inner side Winding method on porcelain rod 405 is preferably：Coiling density of the resistance wire 407 adjacent to the part of the madial wall of body of heater 302 is more than electricity Coiling density of the silk 407 away from the madial wall of body of heater 302 is hindered, i.e. resistance wire 407 takes the mode winding that both sides are close, centre is loose In inner side ceramic rod 405, to cause the temperature of each position in stove more uniform.

Referring to Fig. 4 and Fig. 7, Carbon fibe continuous production retort 200 is additionally provided with gas inlet pipe 301, gas The tube wall of input pipe 301 sets multiple input pipe stomatas, and input pipe stomata is located in body of heater, and connected with furnace chamber 305.Utilize 301 extraneous feeder of gas inlet pipe can be passed through gas into furnace chamber 305, to increase the air in furnace chamber 305 Disturbance, make the temperature in furnace chamber 305 more uniform.On the other hand, can by continuing to input gas into furnace chamber 305 Make the air atmosphere that pressure-fired is kept in furnace chamber 305, so as to avoid the situation that ambient atmos mix into furnace chamber 305.

Secondly, the tube chamber of gas inlet pipe 301 can also connect with the tube chamber of seal air pipe 101.Due to gas inlet pipe 301 tube chamber connects with the tube chamber of seal air pipe 101, so as to utilize the gas injection into gas cavity of gas inlet pipe 301, then Via the gas injection into the tube chamber of seal air pipe 101 of steam vent 105, the laying of the interior conduit of furnace chamber 305 can be thus reduced, Simplify the structure of body of heater 302.

Because high temperature Carbon fibe has higher reactivity, easily with the oxygen reaction in air, therefore, by Carbon fibe Before output, it is cooled down, the quality of Carbon fibe can be effectively improved, and can reduce Carbon fibe transports direction On body of heater 302 size, so as to reduce fiber continuous production retort difficulty of construction and construction cost.

Refering to Fig. 9, the Carbon fibe continuous production retort 200 in the present embodiment also includes：Cooling component 500, cooling group Part 500 includes cooler bin 502, and cooler bin 502 is provided with heat transferring medium accommodating cavity, and cooler bin 502 is arranged in furnace chamber 305 simultaneously Neighbouring driving member 103.

In Carbon fibe production process, heat transferring medium is passed through in cooler bin 502, Carbon fibe contacts with cooler bin 502, passes through heat Exchange and realize the heat transfer of Carbon fibe to heat transferring medium, and then export to outside outer framework 304, complete the drop to Carbon fibe Temperature.Heat transferring medium can be the materials such as water, cryogenic gas or cooling oil.

Consideration based on safety, referring to Fig. 9, cooling component 500 also includes the cooling tube matched with cooler bin 502 501, cooling tube 501 is arranged in accommodating cavity, and heat transferring medium is passed through in cooling tube 501.The use of cooling tube 501 can avoid by Damaged in cooler bin 502 and the problem of heat transferring medium leaks occurs, so as to improve the production of Carbon fibe continuous production retort 200 Security.In order to improve heat exchange efficiency, cooling tube 501 takes snakelike mode to be arranged at accommodating cavity, improve cooling tube 501 with it is cold But the contact area of case 502.

In other embodiments of the invention, the main outer framework of Carbon fibe production continuous production retort, body of heater, heating group Part and the transmission device with sealing function.

Body of heater is located in outer framework.Body of heater includes sealing kiln frame, refractory brick, heat-preservation cotton, and refractory brick or heat-preservation cotton are respectively provided with In sealing kiln frame.The temperature control equipment that heating component includes heater, matched with heater.

Transmission device includes transmission control device, the seal air pipe for being provided at both ends with opening and multiple driving members.It is more Individual transmission device is located in seal air pipe, and transmission control device is connected with driving member.

Body of heater is arranged in outer framework.Body of heater includes kiln hood, kiln interlude and the kiln tail being sequentially connected.The stove of body of heater Intracavitary is provided with kiln tail nitrogen gas seal equipment, kiln interlude nitrogen gas seal equipment and kiln tail portion nitrogen gas seal equipment.Wherein, Kiln hood nitrogen gas seal equipment is located in kiln hood, and kiln interlude nitrogen gas seal equipment is located in kiln interlude, kiln tail portion nitrogen Sealing device is located in kiln tail.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (10)

1. a kind of transmission device, it is characterised in that including the seal air pipe for being provided at both ends with opening and multiple driving members, institute State multiple driving member intervals and rotate and be arranged in the tube chamber of the seal air pipe, and the both ends of the multiple driving member are equal The relative left side wall and right side wall of the seal air pipe is each passed through, gas cavity is provided with the seal air pipe, The gas cavity connects with the tube chamber of the seal air pipe, the seal air pipe towards in the driving member Side wall is provided with multiple steam vents connected with the gas cavity, the seal air pipe away from the outside of the driving member Wall is provided with multiple air admission holes connected with the gas cavity.

2. transmission device according to claim 1, it is characterised in that the driving member includes roller rod and outer tube, described Roller rod includes right side connecting portion, centre transports portion and left side connecting portion, and the outer tube includes left side branch pipe and right side branch pipe, The right side connecting portion is connected by the right side branch pipe with the right side wall of the seal air pipe, and the left side connecting portion passes through The left side branch pipe is connected with the left side wall of the seal air pipe.

A kind of 3. carbon fiber continuous production retort, it is characterised in that including：Outer framework, body of heater, heating component, according to right It is required that the transmission device described in 1 or 2, the body of heater is arranged in the outer framework, and furnace chamber is provided with the body of heater, described Transmission device is located in the furnace chamber, and is connected with the body of heater, the multiple driving member of the transmission device it is described Both ends are arranged in outside the outer framework, and the heating component is arranged in the seal air pipe.

4. carbon fiber continuous production retort according to claim 3, it is characterised in that the carbon fiber continuous production charcoal Changing stove also includes gas inlet pipe, and the tube wall of the gas inlet pipe sets multiple input pipe stomatas, the input pipe stomata position In in the body of heater.

5. carbon fiber continuous production retort according to claim 3, it is characterised in that the heating component includes multiple Heater, the multiple heater are located at the both sides up and down of the multiple driving member respectively, and the heater includes inner side ceramics Rod, resistance wire and outside ceramic jacket, the outside ceramic jacket are provided with accommodating cavity, and the inner side ceramic rod set is arranged at described In accommodating cavity, the resistance wire is located in the accommodating cavity and is set around the inner side ceramic rod.

6. carbon fiber continuous production retort according to claim 3, it is characterised in that the body of heater is additionally provided with waste gas Floss hole, the Waste gas outlet connect with the furnace chamber.

7. carbon fiber continuous production retort according to claim 3, it is characterised in that the carbon fiber continuous production charcoal Changing stove also includes：Discharging device for coke, the discharging device for coke include coke discharging connecting tube and coke discharging tank, and the coke discharging tank is arranged at described Outside outer framework, the body of heater is provided with the coke discharging hole connected with the furnace chamber, and one end of the coke discharging connecting tube passes through described Coke discharging hole is connected with the body of heater, and the other end of the coke discharging connecting tube passes through the charging aperture of the outer framework and the coke discharging tank Connection.

8. carbon fiber continuous production retort according to claim 7, it is characterised in that the coke discharging hole is in vertical direction On height be more than the charging aperture in the vertical direction height.

9. carbon fiber continuous production retort according to claim 3, it is characterised in that the carbon fiber continuous production charcoal Changing stove also includes：Cooling component, the cooling component include cooler bin, and the cooler bin is provided with heat transferring medium accommodating cavity, institute Cooler bin is stated to be arranged in the furnace chamber and adjacent to the driving member.

10. carbon fiber continuous production retort according to claim 9, it is characterised in that the cooling component also includes The cooling tube matched with the cooler bin, the cooling tube are arranged in the accommodating cavity, and the heat transferring medium is positioned at described cold But in pipe.