CN218238355U - But rapid cooling's graphitization furnace for graphitization processing - Google Patents

Abstract

The utility model discloses a graphitization furnace is used in graphitization processing that can rapid cooling, its structure includes guiding mechanism and rabbling mechanism, through having set up guiding mechanism at the graphitization furnace right-hand member, the water conservancy diversion and the control effect through pressure control valve and high-pressure intake pipe are inboard with the leading-in high temperature furnace body of the inside normal atmospheric temperature carbon dioxide gas of gas holder, and carry out water conservancy diversion and detection effect to the air current through thermometer and booster pump, through having set up auxiliary mechanism at the graphitization furnace right-hand member, it is inside with outside air water conservancy diversion entering inlet flow section of thick bamboo to pass through the water conservancy diversion fan, and filter the dust of air current through the filter effect of dirt filtrating net, through having set up rabbling mechanism in high temperature furnace body bottom, drive sealed heat insulating block and drive motor through the electricity regulating rod and carry out the action of adjusting from top to bottom, and stir graphite material through drive motor drive stirring propeller shaft.

Description

But rapid cooling's graphitization furnace for graphitization processing

Technical Field

The utility model relates to a graphitizing furnace technical field, concretely relates to but rapid cooling's graphitizing furnace for graphitization processing.

Background

The graphitization furnace is mainly used for high-temperature treatment of sintering and graphitization of carbon materials, graphitization of PI films, graphitization of heat conduction materials, sintering of carbon fiber ropes, sintering graphitization of carbon fiber filaments, purification of graphite powder, other materials capable of being graphitized in a carbon environment and the like; most of the cooling systems of the graphitization furnace adopt a circulating water cooling mode for cooling.

At present, chinese patent with publication number CN202121854788.4 discloses a graphitization furnace capable of quickly cooling, which comprises a horizontally placed cylindrical graphitization furnace body, wherein heat dissipation fins are uniformly distributed on the outer wall of the graphitization furnace body; the graphitizing furnace is characterized in that a water storage tank is arranged at the bottom of the graphitizing furnace body, and one side of the water storage tank is communicated with a water guide header pipe through a circulating water pump.

The graphite heating furnace in the existing market is difficult to well and quickly cool after the processing is finished, and a large amount of residual heat in the graphite heating furnace is difficult to well recycle, so that the energy is wasted; meanwhile, most of the existing devices adopt modes such as external heat exchange and the like for cooling, and when graphite materials in the device are stacked together after firing is completed, the heat accumulated on the inner side of the graphite stack is difficult to be rapidly cooled.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects of the prior art, a graphitization furnace for graphitization processing capable of quickly cooling is provided, and the problems that a graphite heating furnace in the existing market is difficult to well and quickly cool after processing is completed, and a large amount of residual heat in the graphite heating furnace is difficult to well recycle and reuse, so that energy is wasted are solved; meanwhile, most of the existing devices adopt modes such as external heat exchange and the like for cooling, and when graphite materials in the device are stacked together after firing is completed, the problem that the heat accumulated on the inner side of the graphite stack is cooled rapidly is difficult.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a graphitization furnace for graphitization processing capable of being rapidly cooled, which comprises a graphitization furnace, a feeding pipe, a sealed bin door, a control panel, a flow guide mechanism, a fixed base, a stirring mechanism and a high-temperature furnace body, wherein the top of the graphitization furnace is provided with the feeding pipe, the front end of the graphitization furnace is connected with the sealed bin door through a hinge, the front end of the sealed bin door is connected with the control panel through a bolt, the bottom of the graphitization furnace is connected with the top of the fixed base through a bolt, the inner side of the graphitization furnace is provided with the high-temperature furnace body, a control valve at the inner side of the feeding pipe and the heating element at the inner side of the high-temperature furnace body are both electrically connected with the control panel, the flow guide mechanism is arranged at the right end of the graphitization furnace and comprises a first gas-liquid heat exchanger, an auxiliary mechanism, a second gas-liquid heat exchanger, a thermometer, a supercharging pump, a gas storage tank, a pressure control valve and a high-pressure intake pipe, the utility model discloses a high-pressure gas inlet pipe, including graphitization furnace, first gas-liquid heat exchanger, graphitizing furnace, thermometer, pressure control valve, high-pressure gas inlet pipe, gas receiver, pressure control valve top gas outlet, high-temperature gas inlet pipe, graphitizing furnace right-hand member rear side and first gas-liquid heat exchanger's mount bolted connection, graphitizing furnace right-hand member front side and second gas-liquid heat exchanger's mount bolted connection, second gas-liquid heat exchanger left side air inlet and thermometer pipe connection, thermometer left end air inlet and high-temperature furnace body right-hand member pipe connection, second gas-liquid heat exchanger right side gas outlet and booster pump pipe connection, booster pump right side gas outlet and gas receiver air inlet pipe connection, the gas receiver outside and the mount sliding connection on unable adjustment base top right side, gas receiver top gas outlet and pressure control valve bottom pipe connection, pressure control valve top gas outlet and high-pressure gas inlet pipe air outlet and high-temperature furnace body top pipe connection, thermometer, temperature meter, thermometer, high-temperature gas-liquid heat exchanger, the booster pump and the pressure control valve are both electrically connected with the control panel, and the stirring mechanism is arranged at the bottom of the high-temperature furnace body.

Further, the auxiliary mechanism comprises a flow guide gas hood, an inlet flow cylinder, a flow guide fan, a dust filtering net and a rotating blade curtain, a right end through hole of the graphitization furnace is connected with a pipeline of the flow guide gas hood, a right end gas outlet of the flow guide gas hood is connected with a gas inlet pipeline of the first gas-liquid heat exchanger, a left end through hole of the graphitization furnace is connected with a pipe of the inlet flow cylinder, the right side of the inner side of the inlet flow cylinder is connected with the flow guide fan through a bolt, the inner wall of the inlet flow cylinder is connected with the dust filtering net through a bolt, the left side of the inner wall of the inlet flow cylinder is connected with the rotating blade curtain through a rotation, and the flow guide fan is electrically connected with the control panel.

Further, the stirring mechanism comprises a discharging connecting box, a discharging cylinder, a heat exchange water pipe, a discharging valve, an electric adjusting rod, a sealed heat insulation block, a transmission motor and a stirring paddle shaft, wherein the bottom of the high-temperature furnace body is connected with a pipeline at the top of the discharging connecting box, the discharging connecting box is connected with a through hole at the bottom of the graphitization furnace through a bolt, the left side and the right side of the discharging connecting box are both connected with a pipeline at the top of the discharging cylinder, the outer side wall of the discharging cylinder is in contact with the heat exchange water pipe, a discharging port at the bottom of the discharging cylinder is connected with a pipeline at the top of the discharging valve, the bottom of the discharging connecting box is in bolted connection with a fixing rod of the electric adjusting rod, the top of a piston rod of the electric adjusting rod is in bolted connection with the bottom of the sealed heat insulation block, the middle side of the bottom of the sealed heat insulation block is in bolted connection with the transmission motor, the moving end of the transmission motor coaxially rotates with the stirring paddle shaft, the stirring paddle shaft rotates in connection with the heating cylinder wall at the inner side of the high-temperature furnace body, and the electric adjusting rod and the transmission motor are both electrically connected with the control panel.

Furthermore, the central line of the air guide hood and the central line of the air guide fan are positioned on the same horizontal line, and the rotating angle of the rotating blade curtain is 30 degrees.

Furthermore, the sealing heat insulation block is in the shape of a circular truncated cone with the diameter of 10 centimeters, and two groups of electric adjusting rods are arranged at the bottom in the discharge cylinder.

Furthermore, the sealing heat insulation block is made of a heat insulation material.

Furthermore, the material of the stirring paddle shaft is steel.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) A graphitization furnace for graphitization processing that can rapid cooling, through having set up water conservancy diversion mechanism at the graphitization furnace right-hand member, water conservancy diversion and control effect through pressure control valve and high-pressure intake pipe are inboard with the leading-in high temperature furnace body of the inside normal atmospheric temperature carbon dioxide gas of gas holder to carry out water conservancy diversion and detection effect to the air current through thermometer and booster pump, make it get into the inside heat transfer that carries on of second gas liquid heat exchanger, be favorable to carrying out the rapid cooling effect to high temperature furnace body inside through the air current, and improve the effect of recycling to the energy through heat recovery.

2) A but rapid cooling's graphitization furnace for graphitization processing through having set up complementary unit at the graphitization furnace right-hand member, through inside the water conservancy diversion fan gets into inlet flow section of thick bamboo with the outside air water conservancy diversion to filter the dust of air current through the filter effect of dust screen, then advance the inside heat transfer that carries out of first gas-liquid heat exchanger through the air current water conservancy diversion gas hood with the inside air current water conservancy diversion of graphitization furnace, be favorable to carrying out rapid cooling effect to the high temperature furnace body outside through the air current.

3) A but rapid cooling's graphitization stove for graphitization processing through having set up rabbling mechanism in high temperature furnace body bottom, drives sealed heat insulating block and drive machine through electricity regulating rod and adjusts the action from top to bottom to drive the stirring rake axle through drive machine and mix graphite material, rethread goes out feed cylinder and heat transfer water pipe and carries out guide and secondary heat transfer action to graphite material, is favorable to improving the comprehensive cooling effect to graphite material and high temperature furnace body.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the interior of the graphitizing furnace and a flow guiding mechanism of the present invention;

fig. 3 is a schematic view of a partial three-dimensional structure of the diversion mechanism of the present invention;

fig. 4 is a rear view structural schematic diagram of the auxiliary mechanism of the present invention;

fig. 5 is a schematic structural view of the stirring mechanism of the present invention;

fig. 6 is a schematic view of a three-dimensional structure of the stirring mechanism of the present invention.

In the figure: the device comprises a graphitization furnace-1, a feeding pipe-2, a sealed bin gate-3, a control panel-4, a flow guide mechanism-5, a fixed base-6, a stirring mechanism-7, a high-temperature furnace body-8, a first gas-liquid heat exchanger-51, an auxiliary mechanism-52, a second gas-liquid heat exchanger-53, a thermometer-54, a booster air pump-55, an air storage tank-56, a pressure control valve-57, a high-pressure air inlet pipe-58, a flow guide air hood-521, an air inlet flow cylinder-522, a flow guide fan-523, a dust filter net-524, a rotating blade curtain-525, a blanking connecting box-71, a discharging cylinder-72, a heat exchange water pipe-73, a discharging valve-74, an electric adjusting rod-75, a sealed heat insulation block-76, a transmission motor-77 and a stirring paddle shaft-78.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the present invention provides a graphitization furnace for graphitization with rapid cooling: including graphitizing furnace 1, inlet pipe 2, sealed door 3, control panel 4, water conservancy diversion mechanism 5, unable adjustment base 6, stirring mechanism 7 and high temperature furnace body 8, graphitizing furnace 1 top is equipped with inlet pipe 2, graphitizing furnace 1 front end and sealed door 3 hinged joint, 3 front ends of sealed door and 4 bolted connection of control panel, graphitizing furnace 1 bottom and 6 top bolted connection of unable adjustment base, graphitizing furnace 1 inboard is equipped with high temperature furnace body 8, the inboard heating member of control valve of 2 inboards of inlet pipe and high temperature furnace body 8 all is connected with control panel 4 electricity.

Referring to fig. 2, 3 and 4, the present invention provides a graphitization furnace for graphitization with rapid cooling, the flow guiding mechanism 5 is disposed at the right end of the graphitization furnace 1 to improve flow guiding and cooling effects, the flow guiding mechanism 5 includes a first gas-liquid heat exchanger 51, an auxiliary mechanism 52, a second gas-liquid heat exchanger 53, a thermometer 54, a pressurization air pump 55, an air storage tank 56, a pressure control valve 57 and a high pressure air inlet pipe 58, the rear side of the right end of the graphitization furnace 1 is bolted to a fixing bracket of the first gas-liquid heat exchanger 51 to provide a supporting effect for the first gas-liquid heat exchanger 51, the right end of the graphitization furnace 1 is provided with the auxiliary mechanism 52 to improve flow guiding and cooling effects, the front side of the right end of the graphitization furnace 1 is bolted to a fixing bracket of the second gas-liquid heat exchanger 53 to provide a supporting effect for the second gas-liquid heat exchanger 53, the left side air inlet of the second gas-liquid heat exchanger 53 is connected to the pipeline of the thermometer 54 to improve the temperature detection effect of the flowing gas flowing through the thermometer 54, the left end air inlet of the thermometer 54 is connected to the right end of the high temperature control valve, the high pressure air inlet pipe 57, the high pressure control valve 55, the right side of the air inlet pipe of the high pressure control valve 56 is connected to the high pressure control valve 55, the top of the high pressure control air storage tank 55, the high pressure air inlet pipe 57, the high pressure control valve 55, the high pressure air inlet pipe 56 to improve the top of the high pressure air inlet pipe connection of the high pressure control valve, the high pressure control valve 55, the air outlet of the high-pressure air inlet pipe 58 is connected with the top pipeline of the high-temperature furnace body 8, so that the flow guiding effect of the high-pressure air inlet pipe 58 is improved, the thermometer 54, the booster pump 55 and the pressure control valve 57 are all electrically connected with the control panel 4 to provide electric energy for the thermometer 54, the booster pump 55 and the pressure control valve 57, the stirring mechanism 7 is arranged at the bottom of the high-temperature furnace body 8 to improve the stirring effect on graphite materials, the auxiliary mechanism 52 comprises a flow guiding air hood 521, an air inlet flow cylinder 522, a flow guiding fan 523, a dust filtering net 524 and a rotating blade curtain 525, a through hole at the right end of the graphitization furnace 1 is connected with the flow guiding air hood 521 through a pipeline, so that the flow guiding effect of the flow guiding air hood 521 is improved, the air outlet at the right end of the flow guiding air hood 521 is connected with the air inlet pipeline of the first gas-liquid heat exchanger 51, so that the flow guiding effect of the flow guiding air hood 521 is improved, the left end through hole of the graphitization furnace 1 is connected with the air inlet flow cylinder 522 through a pipeline, so that the flow guiding effect of the air inlet flow cylinder 522 is improved, the right side of the inner side of the air inlet flow cylinder 522 is in bolted connection with the flow guiding fan 523 to provide a supporting effect for the flow guiding fan 523, the inner wall of the air inlet flow cylinder 522 is in bolted connection with the dust filtering net 524 to improve the dust filtering effect of the dust filtering net 524, the left side of the inner wall of the air inlet flow cylinder 522 is rotatably connected with the rotating blade curtain 525 to improve the flow guiding effect of the rotating blade curtain 525, the flow guiding fan 523 is electrically connected with the control panel 4 to provide electric energy for the flow guiding fan 523, the central line of the flow guiding gas hood 521 and the central line of the flow guiding fan 523 are positioned on the same horizontal line, the rotating angle of the rotating blade curtain 525 is 30 degrees, and the flow guiding effect of the flow guiding fan 523 is improved.

Referring to fig. 5 and 6, the utility model provides a graphitization furnace for graphitization process with rapid cooling, the stirring mechanism 7 comprises a blanking connecting box 71, a discharge cylinder 72, a heat exchange water pipe 73, a discharge valve 74, an electric adjusting rod 75, a sealed heat insulation block 76, a transmission motor 77 and a stirring shaft 78, the bottom of a high temperature furnace body 8 is connected with the top pipeline of the blanking connecting box 71 to improve the material guiding effect of the blanking connecting box 71, the blanking connecting box 71 is connected with the bottom of the graphitization furnace 1 through hole bolt to provide a supporting effect for the blanking connecting box 71, the left and right sides of the blanking connecting box 71 are connected with the top pipeline of the discharge cylinder 72 to improve the material guiding effect of the discharge cylinder 72, the outer side wall of the discharge cylinder 72 is contacted with the heat exchange water pipe 73 to improve the secondary heat exchange effect of graphite materials, the discharge port at the bottom of the discharge cylinder 72 is connected with the top pipeline of the discharge valve 74 to control the blanking, the bottom in the blanking connecting box 71 is connected with an electric adjusting rod 75 fixed rod through a bolt, the adjusting effect of the electric adjusting rod 75 is improved, the top of a piston rod of the electric adjusting rod 75 is connected with the bottom of a sealed heat insulation block 76 through a bolt, the adjusting effect of the electric adjusting rod 75 is improved, the middle side of the bottom of the sealed heat insulation block 76 is connected with a transmission motor 77 through a bolt, the sealing effect of the sealed heat insulation block 76 is improved, the shaft moving end of the transmission motor 77 coaxially rotates with a stirring paddle shaft 78, the driving effect of the transmission motor 77 is improved, the stirring paddle shaft 78 is rotatably connected with the heating cylinder wall on the inner side of the high-temperature furnace body 8, the stirring effect of the stirring paddle shaft 78 on graphite is improved, the electric adjusting rod 75 and the transmission motor 77 are electrically connected with a control panel 4, electric energy is provided for the electric adjusting rod 75 and the transmission motor 77, the sealed heat insulation block 76 is in the shape of a circular truncated cone with the diameter of 10 cm, and two groups of electric adjusting rods 75 are arranged at the bottom in the discharging cylinder 72, the sealing effect of the sealing heat insulation block 76 is improved.

The utility model provides a graphitization furnace for graphitization processing, which can be rapidly cooled through improvement, and the working principle is as follows;

firstly, when the equipment is used, the device is firstly placed in a working area, and then the equipment is connected with an external power supply, so that the required electric energy can be provided for the work of the equipment;

secondly, when graphitization is carried out, a worker firstly controls the electric adjusting rod 75 through the control panel 4 to drive the sealed heat insulation block 76 and the transmission motor 77 to carry out upward adjustment action, so that the sealed heat insulation block 76 blocks a discharge hole of the high-temperature furnace body 8, then the worker places a graphite material into the high-temperature furnace body 8 through the feeding pipe 2, the graphite material is limited and heated through a heating part in the high-temperature furnace body 8, and the stirring paddle shaft 78 is driven to stir the graphite through controlling the transmission motor 77, so that the combustion efficiency of the graphite material is improved;

thirdly, after the heating operation is completed, the worker controls the diversion fan 523 and the pressure control valve 57 to work simultaneously, so that the diversion fan 523 guides the external air into the air inlet flow cylinder 522, the dust of the air flow is filtered by the filtering effect of the dust filtering net 524, the air flow inside the extrusion graphitization furnace 1 enters the first gas-liquid heat exchanger 51 through the diversion air hood 521 for heat exchange, the effect of quickly cooling the outside of the high-temperature furnace body 8 through the air flow is facilitated, and the normal-temperature carbon dioxide gas inside the air storage tank 56 is guided into the inner side of the high-temperature furnace body 8 through the guiding and controlling effects of the pressure control valve 57 and the high-pressure air inlet pipe 58;

fourthly, at the moment, due to the limitation of the heating cylinder on the inner side of the high-temperature furnace body 8 and the heat conduction effect of the material, the high-temperature air flow on the inner side of the high-temperature furnace body 8 enters the second gas-liquid heat exchanger 53 through the thermometer 54, and at the moment, the air flow is guided and detected through the thermometer 54 and the booster air pump 55, so that the effect of quickly cooling the inner part of the high-temperature furnace body 8 through the air flow is facilitated, and the recycling effect of energy is improved through heat recovery;

fifthly, the adjusting rod 75 is controlled to drive the sealing heat insulation block 76 and the transmission motor 77 to move downwards, the transmission motor 77 drives the stirring paddle shaft 78 to stir the graphite material, so that the heat accumulated by the graphite material is dissipated inside the high-temperature furnace body 8, and the graphite material is guided and subjected to secondary heat exchange action through the discharge barrel 72 and the heat exchange water pipe 73, so that the comprehensive cooling effect on the graphite material and the high-temperature furnace body 8 is improved.

A graphitization furnace for graphitization processing that can rapid cooling, water conservancy diversion and control effect through pressure control valve 57 and high pressure intake pipe 58 are inboard with leading-in high temperature furnace body 8 of the inside normal atmospheric temperature carbon dioxide gas of gas holder 56, and carry out water conservancy diversion and detection effect to the air current through thermometer 54 and booster pump 55, make it get into the inside heat transfer that carries out of second gas-liquid heat exchanger 53, be favorable to carrying out the rapid cooling effect to high temperature furnace body 8 inside through the air current, and improve the effect of recycling to the energy through heat recovery, it is inside to get into air inlet pipe 522 with outside air water conservancy diversion through guiding fan 523, and filter the dust of air current through the filter effect of dirt screen 524, then the air current water conservancy diversion of graphitizing furnace 1 inside is gone into first gas-liquid heat exchanger 51 inside and is carried out the heat transfer, be favorable to carrying out the rapid cooling effect to high temperature furnace body 8 outside through the air current, drive sealed heat insulating block 76 and drive motor 77 through electricity regulating rod 75 and carry out the up-down regulation action, and drive stirring paddle shaft 78 through drive graphite material and stir graphite material, rethread discharge tube 72 and heat transfer water pipe 73 are favorable to the high temperature furnace body and the comprehensive cooling effect of secondary.

Claims (8)

1. The utility model provides a but rapid cooling's graphitization furnace for graphitization processing, includes graphitization furnace (1) and high temperature furnace body (8), graphitization furnace (1) top is equipped with inlet pipe (2), graphitization furnace (1) front end and sealed door (3) hinged joint, the inboard heating member of control valve of inlet pipe (2) and high temperature furnace body (8) is all connected its characterized in that with control panel (4) electricity: still include water conservancy diversion mechanism (5) and rabbling mechanism (7), graphitizing furnace (1) right-hand member is located in water conservancy diversion mechanism (5), water conservancy diversion mechanism (5) are including first gas-liquid heat exchanger (51), complementary unit (52), second gas-liquid heat exchanger (53), thermometer (54), booster pump (55), gas holder (56), pressure control valve (57) and high-pressure intake pipe (58), graphitizing furnace (1) right-hand member rear side and the mount bolted connection of first gas-liquid heat exchanger (51), graphitizing furnace (1) right-hand member is equipped with complementary unit (52), graphitizing furnace (1) right-hand member front side and the mount bolted connection of second gas-liquid heat exchanger (53), second gas-liquid heat exchanger (53) left side air inlet and thermometer (54) pipe connection, booster pump (55) right side gas outlet and gas holder (56) air inlet pipe connection, pressure control valve (57) top gas outlet and high-pressure intake pipe (58) air inlet pipe connection, high temperature furnace body (8) bottom is located in rabbling mechanism (7).

2. The graphitization furnace capable of rapid temperature reduction according to claim 1, wherein: the auxiliary mechanism (52) comprises a flow guide gas hood (521), an air inlet flow cylinder (522), a flow guide fan (523), a dust filtering net (524) and a rotating blade curtain (525), a through hole at the right end of the graphitization furnace (1) is connected with the flow guide gas hood (521) through a pipeline, an air outlet at the right end of the flow guide gas hood (521) is connected with an air inlet pipeline of a first gas-liquid heat exchanger (51), a through hole at the left end of the graphitization furnace (1) is connected with the air inlet flow cylinder (522) through a pipeline, the right side of the inner side of the air inlet flow cylinder (522) is connected with the flow guide fan (523) through a bolt, the inner wall of the air inlet flow cylinder (522) is connected with the dust filtering net (524) through a bolt, the left side of the inner wall of the air inlet flow cylinder (522) is rotationally connected with the rotating blade curtain (525), and the flow guide fan (523) is electrically connected with the control panel (4).

3. The graphitization furnace capable of rapid temperature reduction according to claim 1, wherein: stirring mechanism (7) are including unloading connecting box (71), play feed cylinder (72), heat transfer water pipe (73), ejection of compact valve (74), electric regulation pole (75), sealed heat insulating block (76), drive motor (77) and stirring propeller shaft (78), high temperature furnace body (8) bottom and unloading connecting box (71) top pipe connection, unloading connecting box (71) and graphitizing furnace (1) bottom through-hole bolted connection, both sides all with play feed cylinder (72) top side pipe connection about unloading connecting box (71), go out feed cylinder (72) lateral wall and contact with heat transfer water pipe (73), go out feed cylinder (72) bottom side discharge gate and ejection of compact valve (74) top side pipe connection, bottom and electric regulation pole (75) dead lever bolted connection in unloading connecting box (71), electric regulation pole (75) and drive motor (77) all are connected with control panel (4) electricity.

4. The graphitization furnace capable of rapid temperature reduction according to claim 1, wherein: the front end of the sealing bin door (3) is connected with the control panel (4) through bolts, the bottom of the graphitization furnace (1) is connected with the top of the fixed base (6) through bolts, and the inner side of the graphitization furnace (1) is provided with a high-temperature furnace body (8).

5. The graphitization furnace capable of rapid temperature reduction according to claim 1, wherein: the left end air inlet of the thermometer (54) is connected with the right end pipeline of the high-temperature furnace body (8), the right side air outlet of the second gas-liquid heat exchanger (53) is connected with the pipeline of the pressurization air pump (55), the outer side of the air storage tank (56) is connected with the fixing frame on the right side of the top of the fixing base (6) in a sliding mode, the top air outlet of the air storage tank (56) is connected with the bottom pipeline of the pressure control valve (57), the air outlet of the high-pressure air inlet pipe (58) is connected with the top pipeline of the high-temperature furnace body (8), and the thermometer (54), the pressurization air pump (55) and the pressure control valve (57) are all electrically connected with the control panel (4).

6. A graphitization furnace capable of rapid temperature reduction for graphitization as claimed in claim 3, wherein: the top of a piston rod of the electric adjusting rod (75) is connected with the bottom of the sealed heat insulation block (76) through a bolt, the middle side of the bottom of the sealed heat insulation block (76) is connected with a transmission motor (77) through a bolt, the shaft moving end of the transmission motor (77) coaxially rotates with a stirring paddle shaft (78), and the stirring paddle shaft (78) is rotationally connected with the wall of the heating cylinder on the inner side of the high-temperature furnace body (8).

7. The graphitization furnace capable of rapidly cooling according to claim 2, wherein the graphitization furnace is characterized in that: the center line of the air guide hood (521) and the center line of the air guide fan (523) are on the same horizontal line, and the rotation angle of the rotating blade curtain (525) is 30 degrees.

8. The graphitization furnace capable of reducing temperature rapidly for graphitization processing as claimed in claim 3, wherein: the sealed heat insulation block (76) is in the shape of a circular truncated cone with the diameter of 10 cm, and two groups of electric adjusting rods (75) are arranged at the bottom in the discharge barrel (72).

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