CN105157417B - Furnace lining structure of high-temperature vacuum sintering furnace - Google Patents
Furnace lining structure of high-temperature vacuum sintering furnace Download PDFInfo
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- CN105157417B CN105157417B CN201510590706.2A CN201510590706A CN105157417B CN 105157417 B CN105157417 B CN 105157417B CN 201510590706 A CN201510590706 A CN 201510590706A CN 105157417 B CN105157417 B CN 105157417B
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Abstract
The invention relates to a furnace lining structure of a high-temperature vacuum sintering furnace, belonging to the technical field of high-temperature sintering furnaces. The high-temperature vacuum sintering furnace comprises a furnace shell, a furnace tube, a protective gas introduction mechanism and a furnace tube heating mechanism, wherein the furnace shell is provided with a furnace shell cooling mechanism; a furnace bed is arranged in the furnace tube cavity; the protective gas introduction mechanism is connected with a protective gas supply source through a pipeline; and the furnace tube heating mechanism is connected with a feed mechanism. The furnace lining structure comprises a furnace cylinder and a furnace cylinder inner sleeve, wherein a furnace cylinder door cover ring is respectively embedded in the left end and right end ports; the furnace cylinder inner sleeve is arranged in the furnace cylinder cavity and contacts the wall of the furnace cylinder cavity; a space is kept between the outer wall of the furnace tube and the furnace cylinder inner sleeve; the furnace cylinder is composed of a set of furnace cylinder sections; the furnace cylinder inner sleeve is a carbon fiber bushing; the furnace tube is prepared from graphitic carbon fibers; the inner wall of each furnace cylinder door cover ring is composed of a conical surface; one side of each furnace cylinder door cover ring is provided with a furnace cylinder embedding cavity; one side of the furnace cylinder door cover against the furnace cylinder is provided with a graphite ring caulking groove; a graphite ring is arranged in each graphite ring caulking groove; and the circumferential surface of the furnace cylinder door cover is matched with the conical surface. The furnace lining structure improves the sintering temperature uniformity of the product in the furnace tube cavity and ensures the sintering quality.
Description
Technical field
The invention belongs to high temperature sintering furnace technical field, and in particular to a kind of furnace lining structure of high-temperature vacuum sintering furnace.
Background technology
Above mentioned high-temperature vacuum sintering furnace is born under the background of " work is intended to its kind must first sharpen his tools ", to belong to
The aluminium nitride of diamond like carbon nitride category(ALN)As a example by substrate, as which has the strong point for being not limited to following aspects:Heat
Conductance is high, and about 20W/mk is close to BeO and SiC, and is Al2O3More than five times;Thermal coefficient of expansion is little, 4.5 × 10-6DEG C, with Si(3.5~4 × 10-6℃)And GaAs(6×10-6℃)Quite;Electrical performance characteristics are excellent, and specifically, dielectric is normal
Number, dielectric loss, body resistivity and dielectric strength are very excellent;Mechanical performance is preferable, and rupture strength is higher than Al2O3Make pottery with BeO
Porcelain;It is good and nontoxic that purity is high, light propagates holding property;Etc., thus thought highly of by people.But, due to the sintering temperature of aluminium nitride
Degree is higher, about at 2000 DEG C or so, thus whether furnace binding or heater and the auxiliary equipment related to body of heater
It is respectively provided with harsh requirement, that is to say, that conventional high temperature sintering furnace cannot be competent at the high temperature to aluminium nitride or similar material and burn
Knot.
The technical information with regard to high-temperature vacuum sintering furnace, such as patent of invention Shen can be seen in disclosed Chinese patent literature
Please publication No. CN102331175A(High-temperature vacuum sintering furnace)、CN1352375A(Electric resistor heating type super high temperature vacuum sintering furnace)、
CN104776714A(High-temperature vacuum sintering furnace infrared temperature measurement apparatus and high-temperature vacuum sintering furnace)、CN104792151A(Using
The high-temperature vacuum sintering furnace of hydraulic lift)And CN104236314A(A kind of high temperature sintering furnace for nitrogenizing aluminum sinter adds
Hot systems), etc..
It is not limited to patent application scheme exemplified above and does not refer to furnace lining structure as core component, but such as industry
Known to boundary, the whether reasonable of furnace lining structure is directly connected to the uniform of sintering temperature, and then is related to the sintering quality to product.
In this regard, the applicant has made positive exploration and design repeatedly, technical scheme described below is defined finally, and
The experiment proved that it is practicable in the case where secrecy provision is taken.
The content of the invention
The task of the present invention is that offer is a kind of to be contributed to significantly improving the equal of the sintering temperature to the intraluminal product of stove
Even property and use the furnace lining structure for ensureing the high-temperature vacuum sintering furnace to the sintering quality of product.
What the task of the present invention was performed by, a kind of furnace lining structure of high-temperature vacuum sintering furnace, including a furnace shell, should
Furnace shell has a furnace shell cooling body and on furnace shell with being connected to boiler tube evacuation interface, furnace tube evacuation interface, shielding gas
Body interface and electrode interface, respectively expand at the position of the left end port and right-hand member port of the length direction of furnace shell and are provided with a furnace shell flange
Side, and a furnace shell end cap is equipped at the position corresponding to the furnace shell flange;One boiler tube, the boiler tube are arranged on the furnace shell
It is interior, and positioned at the center of furnace shell, in the boiler tube intracavity of the boiler tube being parallel to the length direction in boiler tube chamber and be located at
The bottom in boiler tube chamber is provided with a siege, and the boiler tube evacuation interface is communicated with the boiler tube chamber of the boiler tube;One protective gas
Retraction mechanism, the protective gas retraction mechanism are arranged on the boiler tube intracavity, and corresponding to the protective gas interface
Position is stretched over outside furnace shell and is connected with protective gas supply source pipeline;One boiler tube heating arrangements, the boiler tube heating arrangements are arranged on
Outside the boiler tube, and it is stretched over outside furnace shell and feeding mechanism electrical connection in the position corresponding to the electrode interface, it is described
Furnace lining structure include:One furnace tube, the furnace tube is with the state that is placed on outside the boiler tube and while to be parallel to the furnace shell
The state of length direction be arranged on the furnace shell intracavity of furnace shell, and between the furnace shell cavity wall of the furnace tube outer wall and furnace shell of the furnace tube
Space is maintained, is configured to furnace shell chamber ventilating duct, the furnace tube evacuation interface and the furnace shell chamber ventilating duct phase by the space
It is logical, a furnace tube door closure circle, the furnace tube door closure are respectively equipped with the position of the left end port and right-hand member port of the length direction of furnace tube
Circle is concordant with described furnace shell flange;One furnace tube inner sleeve, is set on the furnace tube intracavity and and furnace tube of furnace tube in the furnace tube
The cavity wall patch in chamber is touched;Space is maintained between the outer wall of the boiler tube and the furnace tube inner sleeve, is configured to boiler tube by the space
Heating arrangements chamber, the boiler tube heating arrangements are arranged on the boiler tube heating arrangements intracavity;Described furnace tube is by one group of furnace tube sections
Composition, scarf each other between adjacent furnace tube sections, and arrange in the position of the middle section corresponding to the furnace tube door closure circle
There are the furnace tube door closure for the furnace tube chamber closing to furnace tube, one group of described furnace tube sections and furnace tube door closure to be made by graphite;
Described furnace tube inner sleeve is carbon fiber bushing;Described boiler tube is made up of celion;The inwall structure of the furnace tube door closure circle
Become taper surface, and have a furnace tube embedding chamber towards the side composition of the furnace tube in furnace tube door closure circle, and carry on the back in furnace tube door closure
Edge to the side of the furnace tube and circumferencial direction around furnace tube door closure circle offers a graphite annulus caulking groove, in the graphite
A graphite annulus is embedded with ring caulking groove, the periphery of described furnace tube door closure is engaged with the taper surface.
In a specific embodiment of the present invention, the boiler tube chamber phase with the boiler tube is provided with described furnace shell
Logical pressure detector mounting interface, temperature measuring device mounting interface, the installation of TC interface and infrared detector are installed and are connect
Mouthful, and the heating arrangements chamber temperature detector communicated with the boiler tube heating arrangements chamber is additionally provided with furnace shell installs and connect
Mouthful;Each two adjacent furnace tube sections in one group of described furnace tube sections pass through the mutual scarf of sections caulking groove for compensating each other.
The present invention another specific embodiment in, described furnace shell cooling body include a furnace shell cooling spacer,
One group of cooling medium introduces interface and one group of thermal medium draws interface, and furnace shell cooling spacer is formed on the furnace shell, and one group cold
But medium introduce interface corresponding to furnace shell length direction bottom position be formed on furnace shell with space state and by
Cooling medium introduction pipeline is connected with cooling medium supply source, and this group of cooling medium introduces interface and cool down spacer phase with furnace shell
Logical, one group of thermal medium is drawn interface and is formed on furnace shell with space state in the position on the top of the length direction corresponding to furnace shell
And it is connected with the cooling medium supply source by thermal medium extraction pipeline and forms cooling medium closed circuit, this group of thermal medium
Draw interface to communicate with furnace shell cooling spacer.
The present invention another specific embodiment in, the length direction of the furnace shell left end and right-hand member and
Corresponding to the furnace shell flange back to the side of the furnace shell end cap the circumferencial direction for being positioned around furnace shell with space state
Axis pin base is fixed with, is had a tie down screw by hinge on axis pin base, and is equipped with the end of the tie down screw
One handwheel, described furnace shell end cap towards the side of furnace shell and corresponding to furnace shell flange position expand be provided with a furnace shell
End cap flange, the furnace shell end cap flange back to furnace shell flange side and the circumference around furnace shell end cap flange
Direction is fixed with the end caps pawl that quantity is equal with the quantity of the axis pin base and position is corresponding with space state, by
The tie down screw probes into or exits the lock pawl groove of end caps pawl and makees behaviour clockwise or counterclockwise to the handwheel
Make and furnace shell end cap is made to the port closed of furnace shell or release closing, on the furnace shell and with the axis pin base
Position is further fixed on a pair of furnace shell hinge seats, and on described furnace shell end cap and in the position corresponding to a pair of furnace shell hinge seats
Put and be fixed with a pair of furnace shell end cap chain connection heads, this pair of furnace shell end cap chain connection head respectively passes through union joint bearing pin and a pair of stoves
Shell hinge seat is hinged;Constituting on furnace shell end cap has end cap cooling medium spacer, and the end cap cooling medium spacer is by being formed in
End cap cooling medium on furnace shell end cap and communicating with end cap cooling medium spacer introduces interface and end cap thermal medium is drawn
Interface forms circulation cooling circuit with cooling medium supply source, and one is additionally provided with furnace shell end cap for the boiler tube
Boiler tube chamber accent and to the closing of the accent in the boiler tube heating arrangements chamber or release the end cap seal mechanism of closing, in institute
Furnace shell chamber ventilating duct is parallel in the furnace shell chamber ventilating duct stated the furnace tube for positioning to the furnace tube is provided with space state
Cushion block.
The present invention another specific embodiment in, described end cap seal mechanism include moving-coil driving effect cylinder,
Moving-coil support connection seat, moving-coil, cover plate mounting, spring bearer plate, back shroud, furnace tube closing cap, boiler tube lid and guard ring, moving-coil drive
Acting cylinder is fixed on the furnace shell end cap back to the side of the furnace shell with horizontal boom state, and positioned at the side of furnace shell end cap
Edge position, the moving-coil driving effect cylinder post of the moving-coil driving effect cylinder are stretched over the furnace shell end cap intracavity of furnace shell end cap, moving-coil
Hold connecting seat to fix with furnace shell end cap in furnace shell end cap intracavity, guard ring passes through one group of guard ring fixed seat to soar in furnace shell end cap chamber
The state of bottom of chamber wall fix with bottom of chamber wall, and offer a guard ring air vent in the middle position of the bottom of the guard ring, and
A pair of cover plate mounting bearing pin adjusting holes are offered on the side wall of guard ring, this pair of cover plate mounting bearing pin adjusting hole is around the side of guard ring
The circumferencial direction of wall is separated by 180 ° and is in the state in the face of facing each other, on the diapire of guard ring and corresponding to described
The position of moving-coil driving effect cylinder post offers an acting cylinder post resigning hole, and moving-coil is arranged in the position in the outside corresponding to guard ring
In furnace shell end cap intracavity, and a moving-coil support connection seat attachment screw is provided with the moving-coil and an acting cylinder post is fixed
Seat, is equipped with an acting cylinder post in the acting cylinder post fixed seat and is fixedly connected screw, moving-coil support connection seat attachment screw with
Described moving-coil support connection seat connection, and acting cylinder post is fixedly connected in the distal end faces of screw and moving-coil driving effect cylinder post
The connection of acting cylinder styletable face screw, and a pair of moving-coil pin shaft holes are offered on moving-coil, this pair of moving-coil pin shaft hole is around dynamic
The circumferencial direction of circle is separated by 180 ° and, cover plate mounting correspondence corresponding with a pair of described cover plate mounting bearing pin adjusting holes
In moving-coil, and the cover plate mounting is visited after through a pair of described moving-coil pin shaft holes by a pair of cover plate mounting bearing pin screws
Enter in a pair of described cover plate mounting bearing pin adjusting holes and be connected with guard ring, one group of cover plate seat is further fixed on cover plate mounting
Circle, and cover plate mounting screw rod is fixed with the middle position of cover plate mounting, spring bearer plate is with cover plate mounting back to back shroud
Side is fixed, and while fix with the base portion of cover plate mounting screw rod, back shroud is shelved on one group of described cover plate seat ring, and
And a back shroud screw hole is offered in the middle position of the back shroud, the back shroud screw hole is nested with cover plate mounting screw rod
On, furnace tube closing cap corresponding to back shroud back to the side of cover plate mounting position by being opened in the furnace tube of its middle position
Closing cap screw hole is arranged on cover plate mounting screw rod, and is fixed with a guarantor towards the side of boiler tube lid in the furnace tube closing cap
The heat-insulated cover plate of temperature, offers a boiler tube lid swivel nut hole in the middle position of boiler tube lid, is provided with one in the boiler tube lid swivel nut hole
Boiler tube lid swivel nut, the central authorities of the boiler tube lid swivel nut are constituted a swivel nut internal thread hole, the swivel nut internal thread hole and cover plate mounting spiral shell
The swivel nut connection screw thread head thread of the end of bar connects, and the position screw thread for leaning out boiler tube lid swivel nut hole in boiler tube lid swivel nut is matched somebody with somebody
One is provided with for the boiler tube box nut seized on both sides by the arms to boiler tube lid, the nut bore of the boiler tube box nut is equally connected spiral shell with described swivel nut
Stricture of vagina head thread connects;A fan coolling mechanism is provided with the furnace shell end cap corresponding to the right-hand member of the furnace shell.
In an also specific embodiment of the present invention, described fan coolling mechanism includes motor, motor water cooling
But cover and fan, motor is fixed with the horizontally-arranged state of level by motor fixing seat in the middle position corresponding to the furnace shell end cap
On furnace shell end cap, the motor shaft of the motor is stretched over the furnace shell end cap intracavity, and motor water cooling is but covered and arranged with sealing state
On motor, water inlet interface and water outlet mouthpiece are provided with the motor water cooling but covers, water outlet mouthpiece is by communicating pipe and composition
Motor bearing seat water inlet connection on the motor bearing seat of motor, constituting on motor bearing seat has a motor bearing seat to go out
The mouth of a river, water inlet interface and motor bearing seat outlet are respectively connected with water circulation cooling device pipeline by pipeline, and fan is in correspondence
Fix with motor shaft in the position of the guard ring air vent.
In the present invention more and in a specific embodiment, on described boiler tube and corresponding to the shielding gas
The position of body interface is fixed with a nut connector by nut, and described protective gas retraction mechanism includes that a protective gas is introduced
Pipe and one group of protective gas escape pipe, protective gas introduce one end of pipe in the position insertion protection corresponding to protective gas interface
It is connected with the nut connector screw thread in gas interface and after through the furnace tube, the other end leans out protective gas and connects
Mouth is connected with the protective gas supply source pipeline, and one group of protective gas escape pipe passes through protective gas communicating pipe in end each other
It is connected in series, and this group of protective gas escape pipe is respectively by the boiler tube in the outlet drop tee T that is spaced apart and the boiler tube chamber of boiler tube
Chamber cavity wall is fixed, and respectively offers protective gas fairlead with space state in the length direction of this group of protective gas escape pipe,
The middle position of the length direction positioned at a middle protective gas escape pipe in one group of protective gas escape pipe is equipped
One three way cock, the three way cock are equally connected with the nut connector screw thread and the tube chamber of pipe are introduced with protective gas
Communicate, described one group of protective gas escape pipe, protective gas communicating pipe, outlet drop tee T and three way cock are fine by graphitic carbon
Dimension is made.
The present invention's and then in a specific embodiment, the electrode interface is located at the length direction of the furnace shell
The quantity of middle part and the electrode interface has a group that the circumferencial direction around furnace shell is distributed with equidistant intervals state;Described
The quantity graphite electrode equal with the quantity of electrode interface is offered in furnace tube and in the position corresponding to the electrode interface
Post holes;The quantity of the feeding mechanism is equal with the quantity of electrode interface and is fixedly connected with electrode interface;The boiler tube adds
Heat engine structure includes the quantity one group graphite heating unit equal with the quantity of the feeding mechanism and one group of graphite electrode columns, one group
Graphite heating unit is arranged on the boiler tube heating arrangements intracavity with equidistant intervals state around the circumferencial direction of the boiler tube,
And this group of graphite heating unit is respectively made up of one group of graphite heating rod and a pair of graphite connection straps, one group of graphite heating rod
Not only it had been spaced but also had mutually kept parallel in length direction, wherein one piece graphite connection in a pair of graphite connection straps
Bar is connected with one end end of one group of graphite heating rod, and another piece of graphite connection strap in a pair of graphite connection straps
It is connected with the other end end of one group of graphite heating rod, the bottom of one group of graphite electrode columns is respectively constituted a graphite rod connecting seat,
The graphite rod connecting seat graphite heating unit connection adjacent with two in one group of described graphite heating unit, and one group of graphite
The top of electrode column is connected with described feeding mechanism in the position corresponding to the graphite electrode post holes, and in this group of graphite
On the outer wall on the top of electrode column, each composition has graphite electrode columns external screw thread, on the graphite electrode columns external screw thread is equipped with a stone
Electrode ink post limits nut, offers an electrode connection screw thread hole in the middle position on the top of graphite electrode columns, and the electrode connects
Screwed hole is connect for blind hole.
The present invention's and more and in a specific embodiment, described feeding mechanism includes upper and lower insulation sleeve, insulation
Pad, fixed plate, electrode connection plate and electrode, the middle part of lower insulation sleeve are located in the graphite electrode post holes, lower insulation sleeve it is upper
End leans out graphite electrode post holes and insulation sleeve is provided with the outer wall of the upper end and connects external screw thread, and the lower end of lower insulation sleeve
Equally lean out graphite electrode post holes and be insinuated into described boiler tube heating arrangements intracavity, in the outer wall of the lower end of the lower insulation sleeve
It is provided with lower insulation sleeve and limits nut screw connection external screw thread, is equipped with lower insulation sleeve restriction nut screw connection external screw thread exhausted
Edge set limits nut, limits nut by the lower insulation sleeve and lower insulation sleeve is limited in described furnace tube, in lower insulation sleeve
Length direction middle position constitute have a graphite heating rod hole, in the cavity wall of the bottom of the upper insulation mantle cavity of upper insulation sleeve
Composition has upper insulation sleeve to connect female thread, and on this, insulation sleeve connects female thread and connects external screw thread screw thread with the upper insulation sleeve and matches somebody with somebody
Close, the top of upper insulation sleeve is insinuated in the electrode interface, the top of described graphite electrode columns is by way of graphite heating rod hole
Insulation sleeve intracavity being insinuated into, and nut restriction being limited by described graphite electrode columns, felt pad is arranged on the electrode and connects
On mouth, offer a felt pad electrode resigning hole in the middle position of the felt pad, the felt pad electrode resigning hole with it is described on
Insulation mantle cavity is corresponding, and fixed plate is stacked on felt pad, and the fixed plate passes through one group of fixation plate bolt together with felt pad
Fix with electrode interface, in fixed plate and fixed plate electrode is offered in the position corresponding to felt pad electrode resigning hole and allowed
Position hole, electrode connection plate are fixed on electrode, and the electrode connection plate is electrically connected with external power source circuit, and under electrode
End has been constituted an electrode thread union joint with narrow contracting state, and the electrode thread union joint is coordinated with the electrode connection screw thread hole and connected
Connect, constituting in the middle position of electrode upper has a cooling of electrode chamber.
Of the invention again and then in a specific embodiment, constituting on described graphite rod connecting seat has a pair of stones
Black connection screw thread hole, this pair of graphite rod connection screw thread hole respectively with two adjacent graphite in one group of described graphite heating unit
Heating unit connects;Wherein one piece graphite connection strap in a pair of described graphite connection straps by graphite nut with
One end end of one group of described graphite heating rod is fixedly connected, and another piece of graphite in a pair of graphite connection straps
Connection strap is fixedly connected with the other end end of one group of graphite heating rod again by graphite nut.
The technical scheme that the present invention is provided has technical effect that:As furnace lining structure is employed by made by graphite material
Furnace tube, by made by carbon fiber furnace tube inner sleeve, and employ the boiler tube by made by celion, thus can significantly improve it is right
The uniformity of the sintering temperature of the intraluminal product of stove and use and ensure sintering quality to product.
Description of the drawings
Fig. 1 is embodiments of the invention structure chart.
Sectional views of the Fig. 2 for Fig. 1.
Fig. 3 is the structure chart of the furnace shell end cap shown in Fig. 1 and the end cap seal mechanism being arranged on furnace shell end cap.
Fig. 4 is the detailed structure view of the boiler tube heating arrangements and feeding mechanism shown in Fig. 1.
Sectional views of the Fig. 5 for Fig. 4.
Fig. 6 is the detailed structure view of the furnace tube shown in Fig. 1.
Fig. 7 is the detailed structure view of the protective gas retraction mechanism shown in Fig. 1.
Cross-sectional views of the Fig. 8 for Fig. 1.
Specific embodiment
In order that the auditor of Patent Office especially the public can be more clearly understood from the present invention technical spirit and have
Beneficial effect, applicant are elaborated below by way of example, but the description to embodiment is not to this
The restriction of bright scheme, any only pro forma rather than substantial equivalent transformation according to done by present inventive concept are all answered
It is considered as technical scheme category.
Fig. 1 and Fig. 2 is referred to, a furnace shell 1 of the structural system for belonging to high-temperature vacuum sintering furnace is given, the furnace shell 1 exists
By the furnace shell fulcrum bearing 18 of its bottom under use state(Furnace shell supporting leg can also be claimed)It is in the state of terrace and same to soar
When be arranged on the terrace for using with the horizontally-arranged state of level, show in figure positioned at furnace shell 1 left end and right-hand member bottom each one
To furnace shell fulcrum bearing 18, the furnace shell 1 have a furnace shell cooling body 11, and on furnace shell 1 with being connected to boiler tube evacuation interface
12a, furnace tube evacuation interface 12b, protective gas interface 12c and electrode interface 13, in the left end port of the length direction of furnace shell 1
With right-hand member port(By taking location status shown in Fig. 1 as an example)Position respectively expand and be provided with a furnace shell flange 14, and corresponding to should
The position of furnace shell flange 14 is equipped with a furnace shell end cap 15.Aforesaid boiler tube evacuation interface 12a is located at the bottom of furnace shell 1,
Boiler tube evacuation interface 12a is connected with vacuum extractor such as vacuum pumping pump by vacuum-pumping pipeline in a state of use, due to
Boiler tube evacuation interface 12a is communicated with the boiler tube chamber 41 of the boiler tube 4 that will be detailed below referring to, thus can play and boiler tube chamber 41 is taken out
The effect of vacuum.Positions of the aforesaid furnace tube evacuation interface 12b on furnace shell 1 is located at the rear side side on the upper side of furnace shell 1, is using
It is connected with vacuum extractor such as vacuum pumping pump again by vacuum-pumping pipeline under state, as furnace tube evacuation interface 12b exists
It is insinuated into after furnace shell 1 in the ventilating duct 12d of furnace shell chamber, thus the evacuation to furnace shell chamber ventilating duct 12d can be played a part of.
A furnace tube 2 of the structural system of the furnace lining structure for belonging to the present invention is given, the furnace tube 2 is being placed on outside boiler tube 4
State and while the state of length direction to be parallel to aforementioned furnace shell 1 is arranged on the furnace shell intracavity of furnace shell 1, and the stove
Space is maintained between 2 furnace tube outer wall of cylinder and the furnace shell cavity wall of furnace shell 1, is configured to aforesaid furnace shell chamber ventilation by the space
Road 12d, aforesaid protective gas introduce the bottom of interface tube 12c and are insinuated in furnace shell ventilating duct 12d, aforesaid electrode interface
13 same examples.As shown in Figure 1, a furnace tube door is respectively equipped with the left end port of length direction and the position of right-hand member port of furnace tube 2
Decorative cover 21, the surface of the furnace tube door closure circle 21 are concordant with aforesaid furnace shell flange 14.Give a furnace tube inner sleeve 3, the furnace tube
Inner sleeve 3 can also be called furnace tube bushing, be arranged on the furnace tube intracavity of furnace tube 2 and touch with the cavity wall patch in furnace tube chamber.It follows that
The furnace lining of high-temperature vacuum sintering furnace is constituted by furnace tube 2 and furnace tube inner sleeve 3.
The boiler tube 4 in the structural system for belonging to high-temperature vacuum sintering furnace having already mentioned above is given, the boiler tube 4 is arranged
Space is maintained between the furnace tube intracavity of aforementioned furnace tube 2, and the outer wall of the boiler tube 4 and aforementioned furnace tube inner sleeve 3, by the sky
Between be configured to boiler tube heating arrangements chamber 42, being parallel to length direction and the position in boiler tube chamber 41 in the boiler tube chamber 41 of boiler tube 4
The bottom in boiler tube chamber 41 is provided with a siege 411, the detailed construction of siege 411 can be found in Fig. 8, for sintering product for example
Aluminium nitride chip similar is placed on siege 411 by carrier such as saggar or similar container such as crucible in piece.It follows that stove
Cylinder 2 is placed on outside boiler tube 4 together with furnace tube bushing 3, and boiler tube 4 is then positioned at the center of furnace shell 1.
Give a protective gas retraction mechanism 5 of the structural system for also belonging to high-temperature vacuum sintering furnace, the shielding gas
Body retraction mechanism 5 is arranged in aforementioned boiler tube chamber 41, and is stretched over stove in the position corresponding to aforementioned protective gas interface 12c
Shell 1 is outer to be connected with protective gas supply source pipeline, refers both to nitrogen including the protective gas being mentioned below here, and protective gas is supplied
Give source such as nitrogen pot.
A boiler tube heating arrangements 6 of the structural system of high-temperature vacuum sintering furnace are given, the boiler tube heating arrangements 6 are arranged on
In aforementioned boiler tube heating arrangements chamber 42, i.e., outside boiler tube 4, and stove is stretched in the position corresponding to former electrodes interface 13
Shell 1 is outer to be electrically connected with feeding mechanism 7,41 phase of boiler tube chamber of above mentioned boiler tube evacuation interface 12a and aforementioned boiler tube 4
Logical, the furnace tube evacuation interface 12b being equally mentioned above is communicated with furnace shell chamber ventilating duct 12d.
Continue to see Fig. 1, the pressure detector communicated with the boiler tube chamber 41 of aforementioned boiler tube 4 is provided with aforesaid furnace shell 1
Mounting interface 12c, temperature measuring device mounting interface 12f, the installation of TC interface 12g and infrared detector mounting interface 12h,
And the heating arrangements chamber temperature detector mounting interface communicated with aforementioned boiler tube heating arrangements chamber 42 is additionally provided with furnace shell 1
12i.Pressure detector such as pressure transducer is arranged on pressure detector mounting interface 12e, can be predicted in boiler tube chamber 41
Pressure;Temperature measuring device such as temperature sensor is arranged on temperature measuring device mounting interface 12f, can be determined in boiler tube chamber 41
Sintering temperature;The installation of TC interface 12g has two, and two thermocouples are respectively arranged in the installation of TC interface 12g, can
Play a part of to control the temperature in boiler tube chamber 41;Infrared detector is installed on infrared detector mounting interface 12h,
Can be appreciated that the intraluminal required state of arts of stove.
Continue to see Fig. 1 and Fig. 2, the structure that is preferred rather than being definitely limited to of above mentioned furnace shell cooling body 11 is as follows:
Interface 112 is introduced including furnace shell cooling 111, one group of cooling medium of spacer and one group of thermal medium draws interface 113, furnace shell cooling
Spacer 111 is formed on aforementioned furnace shell 1, and one group of cooling medium introduces interface 112 in the bottom of the length direction corresponding to furnace shell 1
Position be formed on furnace shell 1 with space state and be connected with cooling medium supply source by cooling medium introduction pipeline, the group
Cooling medium is introduced interface 112 and is communicated with furnace shell cooling spacer 111, and one group of thermal medium draws interface 113 corresponding to furnace shell 1
Length direction top position be formed on furnace shell 1 with space state and by thermal medium draw pipeline and it is described cooling be situated between
Matter supply source connects and forms cooling medium closed circuit, and this group of thermal medium is drawn interface 113 and cool down 111 phase of spacer with furnace shell
It is logical.Aforesaid cooling medium be water, aforesaid cooling medium supply source be such as configured at cyclic water tank or circulating water pool on circulation
Water pump.Due to one group of cooling medium, to introduce interface 112 as the aforementioned with cooling medium supply source by cooling medium introduction pipeline
The outlet connection of water circulating pump, thus interface 112 is introduced by cooling medium by one group of cooling medium(Water)Introduce furnace shell cooling
Spacer 111, cools down the thermal medium after in spacer 111 and intensification into furnace shell(Water)Mono- group of thermal medium of Jing draws interface 113
Aforesaid cyclic water tank or circulating water pool are entered by thermal medium fairlead pass, so that the water inlet of water circulating pump is extracted, so
Circulate and play the Physical temperature-lowering to furnace shell 1 and act on(Water cooling cooling effect), it is to avoid the temperature rise of furnace shell 1 is beyond rationally permission
Degree.
Continue to see Fig. 1, the length direction of aforementioned furnace shell 11 left end and right-hand member and corresponding to aforementioned furnace shell flange
Side 14 is fixed with axis pin base with space state back to the circumferencial direction for being positioned around furnace shell 1 of the side of aforementioned furnace shell end cap 15
16, a tie down screw 161 is hinged with by bearing pin 1611 on axis pin base 16, and is arranged in the end of the tie down screw 161
There is a handwheel 1612.In aforesaid furnace shell end cap 15 towards the side of furnace shell 1 and in the position corresponding to furnace shell flange 14
Expansion is provided with a furnace shell end cap flange 151, the furnace shell end cap flange 151 is back to the side of furnace shell flange 14 and surrounds
The circumferencial direction of furnace shell end cap flange 151 is fixed with space state that quantity is equal with the quantity of aforementioned axis pin base 16 and position
Corresponding end caps pawl 1511 is put, the lock pawl of end caps pawl 1511 is probeed into or exited by aforementioned tie down screw 161
Groove 15111 and operation clockwise or counterclockwise is made to handwheel 1612 and make furnace shell end cap 15 to the port closed of furnace shell 1 or
Release closing.Additionally, on aforementioned furnace shell 1 and being further fixed on a pair of furnace shell hinge seats with the position of axis pin base 16
17, and a pair of furnace shell end cap hinges companies are fixed with furnace shell end cap 15 and in the position corresponding to a pair of furnace shell hinge seats 17
Joint 156, this pair of furnace shell end cap chain connection head 156 are respectively hinged with a pair of furnace shell hinge seats 17 by union joint bearing pin 1561.
Preferably, in aforementioned furnace shell flange 14 towards furnace shell end cap 15 i.e. towards the side of furnace shell end cap flange 151
A furnace shell flange sealing ring 141 is embedded with, and is being sealed on furnace shell end cap flange 151 and corresponding to furnace shell flange
The position of circle 141 is embedded with a pair of furnace shell end cap flange sealing rings 1512(Fig. 3 shows).
Fig. 3 is referred to, constituting on aforesaid furnace shell end cap 15 has end cap cooling medium spacer 152, the end cap cooling is situated between
Matter spacer 152 is by being formed in end cap cooling medium that is on furnace shell end cap 15 and communicating with end cap cooling medium spacer 152
Introduce interface 153 and end cap thermal medium is drawn interface 154 and circulation cooling circuit formed with cooling medium supply source, and in furnace shell
One is additionally provided with end cap 15 for the accent in the boiler tube chamber 41 to aforementioned boiler tube 4 and to aforementioned boiler tube heating arrangements chamber 42
Accent is closed or releases the end cap seal mechanism 8 of closing.Furnace shell chamber ventilating duct is parallel in aforesaid furnace shell chamber ventilating duct 12d
12d is provided with the furnace tube cushion block 22 for positioning to the furnace tube 2 with space state(Fig. 1 shows).
As aforesaid end cap cooling medium spacer 152, end cap cooling medium introducing interface 153 and end cap thermal medium draw
Outgoing interface 154 to circulation cooling circuit and the mechanism of action of furnace shell end cap 15 etc. with 11 phase thunder of aforesaid furnace shell cooling body
Together, thus applicant repeats no more.
Please emphasis see Fig. 3, the structure that is preferred rather than being definitely limited to of aforesaid end cap seal mechanism 8 is as follows:Including moving-coil
Driving effect cylinder 81, moving-coil support connection seat 82, moving-coil 83, cover plate mounting 84, spring bearer plate 85, the closing of back shroud 86, furnace tube
Lid 87, boiler tube lid 88 and guard ring 89, moving-coil driving effect cylinder 81 with horizontal boom state be fixed on aforementioned furnace shell end cap 15 back to
The side of aforementioned furnace shell 1, and positioned at the edge of furnace shell end cap 15, as preferred scheme, in moving-coil driving effect cylinder
81 positions mutually fixed with furnace shell end cap 15 are provided with an acting cylinder seal receptacle 812, and the moving-coil of the moving-coil driving effect cylinder 81 drives
Dynamic acting cylinder post 811 is stretched in the furnace shell end cap chamber 155 of furnace shell end cap 15, and moving-coil support connection seat 82 is in furnace shell end cap chamber
Fix with furnace shell end cap 15 in 155 and be welded and fixed with the cavity wall in furnace shell end cap chamber 155, guard ring 89 passes through one group of guard ring fixed seat
891 are fixed with bottom of chamber wall with the state soared in the bottom of chamber wall in furnace shell end cap chamber 155, and in the central authorities of the bottom of the guard ring 89
Position offers a guard ring air vent 892, and a pair of cover plate mounting bearing pin adjusting holes 893 are offered on the side wall of guard ring 89,
This pair of cover plate mounting bearing pin adjusting hole 893 is separated by 180 ° and is in and faces each other around the circumferencial direction of the side wall of guard ring 89
The state in face, offers an acting cylinder on the diapire of guard ring 89 and in the position corresponding to moving-coil driving effect cylinder post 811
Post resigning hole 894, moving-coil 83 are arranged in furnace shell end cap chamber 155 in the position in the outside corresponding to guard ring 89, and dynamic at this
A moving-coil support connection seat attachment screw 831 and an acting cylinder post fixed seat 832 are provided with circle 83, are fixed in the acting cylinder post
An acting cylinder post is equipped on seat 832 and is fixedly connected screw 8321, moving-coil support connection seat attachment screw 831 and aforesaid moving-coil
Support connection seat 82 connects, specifically:As a moving-coil support connection seat screw hole is offered on moving-coil support connection seat 82
821, thus moving-coil support connection seat attachment screw 831 is inserted and through moving-coil support connection seat screw hole 821, then in moving-coil
The end of support connection seat attachment screw 831 arranges an attachment screw stop nut 8311(A pair), so as to moving-coil supporting is connected
Joint chair attachment screw 831 is movably attached to moving-coil on connecting seat 82.Aforementioned acting cylinder post be fixedly connected screw 8321 with
Acting cylinder styletable face screw 8111 in the distal end faces of moving-coil driving effect cylinder post 811 connects, and opens up on moving-coil 83
There are a pair of moving-coil pin shaft holes 833, this pair of moving-coil pin shaft hole 833 is separated by 180 ° and formation face around the circumferencial direction of moving-coil 83
The position relationship on opposite, and this pair of moving-coil pin shaft hole 833 is corresponding with aforesaid a pair of cover plates mounting bearing pin adjusting hole 893.
Cover plate mounting 84 corresponding in moving-coil 83, and the cover plate mounting 84 by a pair of cover plate mounting bearing pin screws 841 through front
It is insinuated into after a pair of the moving-coil pin shaft holes 833 stated in aforesaid a pair of cover plates mounting bearing pin adjusting hole 893, so as to realize and guard ring
89 connections, the position of the end for leaning out cover plate mounting bearing pin adjusting hole 893 in a pair of cover plate mounting bearing pin screws 841 is respectively equipped
One bearing pin screw limits nut 8411.One group of cover plate seat ring 842 is further fixed on cover plate mounting 84, and in cover plate mounting 84
Middle position be fixed with cover plate mounting screw rod 843, spring bearer plate 85 is fixed back to the side of back shroud 86 with cover plate mounting 84,
And while fixing with the base portion of cover plate mounting screw rod 843, back shroud 86 is shelved on aforesaid one group of cover plate seat ring 842, and
And a back shroud screw hole 861 is offered in the middle position of the back shroud 86, the back shroud screw hole 861 is nested with cover plate seat
On frame screw rod 843, furnace tube closing cap 87 is corresponding to side of the back shroud 86 back to cover plate mounting 84(Left side shown in Fig. 3)'s
Position is arranged on cover plate mounting screw rod 843, and at this by being opened in the furnace tube closing cap screw hole 871 of its middle position
Furnace tube closing cap 87 is fixed with a thermal insulation separation by one group of insulation cover plate fixing screws 8721 towards the side of boiler tube lid 88
Hot cover plate 872, offers a boiler tube lid swivel nut hole 881 in the middle position of boiler tube lid 88, sets in the boiler tube lid swivel nut hole 881
A boiler tube lid swivel nut 8811 is equipped with, the central authorities of the boiler tube lid swivel nut 8811 are constituted a swivel nut internal thread hole, the swivel nut female thread
Hole is threadedly coupled with the swivel nut connection screw thread 8431 of the end for being formed in cover plate mounting screw rod 843, and in boiler tube lid swivel nut
The 8811 position screw threads for leaning out boiler tube lid swivel nut hole 881 are equipped with one for the boiler tube box nut 882 seized on both sides by the arms to boiler tube lid 88, should
The nut bore 8821 of boiler tube box nut 882 is equally threadedly coupled with aforesaid swivel nut connection screw thread 8431.As preferred side
Case, can be arranged a spacer ring 88111 on aforesaid boiler tube lid swivel nut 8811.
In the present embodiment, aforesaid moving-coil driving effect cylinder 81 is selected and uses cylinder, but if for evade the present invention
Purpose uses moving-coil driving effect cylinder 81 instead oil cylinder, then should be considered as equivalent substitution.
In the case where furnace shell end cap 15 is closed, i.e., by aforesaid tie down screw 161 in end caps pawl 1511
In the state of locking, reliably seal in order to ensure the accent to boiler tube chamber 41 and to the accent in boiler tube heating arrangements chamber 42.Cause
And can be realized by aforesaid end cap seal mechanism 8.It is specific as follows:Moving-coil driving effect cylinder 81 works, moving-coil driving effect cylinder
Post 811 is stretched to outside cylinder body, due to the acting cylinder styletable face screw 8111 in the distal end faces of moving-coil driving effect cylinder post 811 with
The acting cylinder post fixed seat 832 of moving-coil 83(As acting cylinder post connecting seat)Connection, thus pushed away by moving-coil driving effect cylinder post 811
Moving-coil 83, drives cover plate mounting 84 by moving-coil 83, drives back shroud 86, furnace tube closing cap 87 and boiler tube by cover plate mounting 84
Lid 88, makes boiler tube lid 88 and furnace tube closing cap 87 be respectively at the accent to boiler tube chamber 41 and the chamber to boiler tube heating arrangements 42
The reliable closed state of mouth, vice versa.
As preferred scheme, a fan coolling can be set on the furnace shell end cap 15 corresponding to the right-hand member of aforementioned furnace shell 1
Mechanism 9, even being respectively provided with fan coolling mechanism 9 on two furnace shell end caps 15 certainly.
Continue to see Fig. 3, aforesaid fan coolling mechanism 9 includes that motor 91, motor water cooling but covers 92 and fan 93, motor 91
Furnace shell end cap is fixed on the horizontally-arranged state of level by motor fixing seat 912 in the middle position corresponding to the furnace shell end cap 15
On 15, the motor shaft 911 of the motor 91 is stretched in aforementioned furnace shell end cap chamber 155, and motor water cooling is but covered 92 and set with sealing state
Put on motor 91, but cover in the motor water cooling and on 92, be provided with water inlet interface 921 and water outlet mouthpiece 922, water outlet mouthpiece 922 leads to
The motor bearing seat spent communicating pipe 9221 and be formed in motor 91(Motor bearing seat is constituted water cooling spacer)On motor shaft
Bearing water inlet 913 connects, and constituting on motor bearing seat has a motor bearing seat outlet 914, water inlet interface 921 and motor
Bearing block outlet 914 is respectively connected with water circulation cooling device pipeline by pipeline, and fan 93 is being divulged information corresponding to aforementioned guard ring
The position in hole 892 is fixed with motor shaft 911 by fan fixing nut 931.Also show for by aforesaid motor in figure 3
The motor fixing seat screw 9121 that fixed seat 912 is fixed with furnace shell end cap 15.
Refer to Fig. 6 and combine Fig. 1, aforesaid furnace tube 2 is made up of one group of furnace tube sections 23, adjacent furnace tube sections 23 it
Between scarf each other, and be equipped with for the stove to furnace tube 2 in the position of the middle section corresponding to aforementioned furnace tube door closure circle 21
The furnace tube door closure 211 of barrel chamber closing, aforesaid one group of furnace tube sections 23 and furnace tube door closure 211 are made by graphite;Aforesaid stove
Cylinder inner sleeve 3(Fig. 1 shows)For carbon fiber bushing;Aforesaid boiler tube 4(Fig. 1 shows)It is made up of celion.By celion system
Into boiler tube 4 and furnace tube inner sleeve 3 can make uniformity of temperature profile, with the error of the temperature of technique initialization only in positive and negative 5 DEG C of journey
Degree.
Refer to Fig. 7 and combine Fig. 1, on aforesaid boiler tube 4 and corresponding to the protective gas interface 12c's
Position is fixed with a nut connector 43 by nut 431(Fig. 7 shows).Aforesaid protective gas retraction mechanism 5 includes a shielding gas
Body introduces pipe 51 and one group of protective gas escape pipe 52, and protective gas introduces one end of pipe 51 corresponding to protective gas interface
Coordinate in the position insertion protective gas interface 12c of 12c and with 43 screw thread of aforementioned nut joint after through aforementioned furnace tube 2 and connect
Connect(Fig. 7 illustrates), the other end leant out protective gas interface 12c and is connected with the protective gas supply source pipeline, one group of shielding gas
Body escape pipe 52 is each other in end by being connected in series protective gas communicating pipe 53, and this group of protective gas escape pipe 52 is each logical
The outlet drop tee T 521 of super-interval distribution is fixed with the boiler tube chamber cavity wall in the boiler tube chamber 41 of boiler tube 4, in this group of protective gas outlet
The length direction of pipe 52 respectively offers protective gas fairlead 522 with space state, in one group of protective gas escape pipe 52
Middle position positioned at the length direction of a middle protective gas escape pipe is equipped with a three way cock 523, and this three connects
523 tube chambers for being equally connected with 43 screw thread of aforementioned nut joint and introducing pipe 51 with protective gas are communicated.In this reality
Apply in example, aforesaid one group of protective gas escape pipe 52, protective gas communicating pipe 53, outlet drop tee T 521 and three way cock 523
Made by celion.
As shown in Figure 7, a connecting pipe transit joint 531 is respectively connected with the two ends of aforementioned protective gas communicating pipe 53, two
The end of the protective gas escape pipe 52 adjacent with two respectively of individual communicating pipe transit joint 531 is fixedly connected;It is aforesaid go out
Constituting on trachea hanger 521 has a hanger stud 5211, and the cavity wall in hanger stud 5211 and the boiler tube chamber 41 of boiler tube 4 is fixed, so as to
Make one group of protective gas escape pipe 52 and be located in boiler tube chamber 41 and positioned at the top in boiler tube chamber 41 with the state of hanging.In order to avoid
One group of protective gas escape pipe 52 produces amount of deflection situation because tediously long, therefore can protect each of one group of protective gas escape pipe 52
Shield gas escape pipe is divided into two or more sections, realizes connection by pipe joint 524 between adjacent segment.Shown in figure, one
Group protective gas escape pipe 52 realizes head and the tail phase by means of communicating pipe transit joint 531 by aforesaid protective gas communicating pipe 53
Even, and by first of one group of protective gas escape pipe 52 and each end plug of piece protective gas escape pipe in end
525 closure.
Refer to Fig. 4 and Fig. 5 and with reference to Fig. 1 and Fig. 2, former electrodes interface 13 is located at the length side of aforementioned furnace shell 1
To middle part and the electrode interface 13 quantity have that the circumferencial direction around furnace shell 1 is distributed with equidistant intervals state one
Group;It is equal with the quantity of electrode interface 13 in aforementioned furnace tube 2 and quantity to be offered in the position corresponding to electrode interface 13
Graphite electrode post holes 24(Fig. 5 shows);The quantity of aforementioned feeding mechanism 7 is equal with the quantity of electrode interface 13 and connects with electrode
Mouth 13 is fixedly connected.
Please emphasis see Fig. 4 and Fig. 5, aforementioned boiler tube heating arrangements 6 include that quantity is equal with the quantity of aforementioned feeding mechanism 7
One group of graphite heating unit 61 and one group of graphite electrode columns 62, one group of graphite heating unit 61 is around the circumference side of aforementioned boiler tube 4
To being arranged in aforementioned boiler tube heating arrangements chamber 42 with equidistant intervals state, and this group of graphite heating unit 61 is each by one group
Graphite heating rod 611 and a pair of graphite connection straps 612 are constituted, and one group of graphite heating rod 611 had not only been spaced but also had mutually existed
Length direction keeps parallel, and wherein one piece graphite connection strap in a pair of graphite connection straps 612 is added with one group of graphite
One end end connection of hot pin 611, and another piece of graphite connection strap and one group of stone in a pair of graphite connection straps 612
The other end end connection of black heating rod 61, the bottom of one group of graphite electrode columns 62 is respectively constituted a graphite rod connecting seat 621, should
The graphite heating unit connection adjacent with two in one group of graphite heating unit 61 of graphite rod connecting seat 621, and one group of graphite electricity
The top of pole 62 is connected with aforesaid feeding mechanism 7 in the position corresponding to the graphite electrode post holes 24, and in the group
On the outer wall on the top of graphite electrode columns 62, each composition has graphite electrode columns external screw thread 622, in the graphite electrode columns external screw thread 622
On be equipped with a graphite electrode columns limit nut 6221, the middle position on the top of graphite electrode columns 62 offer an electrode company
Screwed hole 623 is connect, the electrode connection screw thread hole 623 is blind hole.
Still see Fig. 4 and Fig. 5, aforesaid feeding mechanism 7 includes upper and lower insulation sleeve 71,72, felt pad 73, fixed plate 74, electricity
Pole patch panel 75 and electrode 76, the middle part of lower insulation sleeve 72 are located in the graphite electrode post holes 24, the upper end of lower insulation sleeve 72
Lean out graphite electrode post holes 24 and insulation sleeve is provided with the outer wall of the upper end and connect external screw thread 721, and lower insulation sleeve 72
For ceramic jacket, the lower end of the lower insulation sleeve 72 equally leans out graphite electrode post holes 24 and is insinuated into aforesaid boiler tube heating arrangements
In chamber 42, lower insulation sleeve is provided with the outer wall of the lower end of the lower insulation sleeve 72 and limits nut screw connection external screw thread 722, it is lower absolutely at this
Edge set limits and the nut 7221 of insulation sleeve restriction is equipped on nut screw connection external screw thread 722, limits spiral shell by the lower insulation sleeve
Female 7221 and lower insulation sleeve 72 is limited in aforesaid furnace tube 2, constitute in the middle position of the length direction of lower insulation sleeve 72
There is a graphite heating rod hole 723, upper insulation sleeve 71 is ceramic jacket, at this in the bottom of the upper insulation mantle cavity 711 of upper insulation sleeve 71
Cavity wall on constitute have upper insulation sleeve to connect female thread 7111, on this, insulation sleeve is connected female thread 7111 and is matched somebody with somebody with aforementioned upper insulation sleeve
The cooperation of 721 screw thread of external screw thread is connect, the top of upper insulation sleeve 71 is insinuated in former electrodes interface 13, aforesaid graphite electrode columns 62
Top be insinuated in upper insulation mantle cavity 711 by way of graphite heating rod hole 723, and limit nut by aforesaid graphite electrode columns
6221 limit, and felt pad 73 is arranged on former electrodes interface 13, offers a felt pad in the middle position of the felt pad 73
Electrode resigning hole 731, the felt pad electrode resigning hole 731 are corresponding with aforesaid upper insulation mantle cavity 711, and fixed plate 74 is stacked in
On felt pad 73, and the fixed plate 74 is fixed with electrode interface 13 together with felt pad 73 by one group of fixation plate bolt 741,
Fixed plate electrode resigning hole 742, electrode are offered in fixed plate 74 and in the position corresponding to felt pad electrode resigning hole 731
Patch panel 75 is fixed on electrode 76, and the electrode connection plate 75 and external power source circuit electrical connection, and under electrode 76
End has been constituted an electrode thread union joint 761 with narrow contracting state, the electrode thread union joint 761 and the electrode connection screw thread hole
623 are connected, and constituting in the middle position on 76 top of electrode has a cooling of electrode chamber 762.
By shown in Fig. 4 and Fig. 5, in the edge of fixed plate 74 and around fixed plate 74 circumferencial direction being spaced shape
State offers one group of fixed plate screw 743, in this group of fixed plate screw 743 is each provided with a screw insulation sleeve 7431, aforementioned
Fixed plate bolt 741 plus screw insulating washer 7411 after sequentially pass through screw insulation sleeve 7431 and be preset on felt pad 73
Felt pad screw after be screwed in the electrode interface screw hole 133 defaulted on electrode interface 13, so as to fixed plate 74 is connected
It is fixed on electrode interface 13 with felt pad.
Fig. 6 is asked for an interview, used as preferred scheme, the inwall of aforementioned furnace tube door closure circle 21 is configured to taper surface 212(Fig. 1 marks
Show), and have a furnace tube embedding chamber 213 towards the side composition of aforementioned furnace tube 2 in furnace tube door closure circle 21, and in furnace tube door closure 211
Edge back to the side of the furnace tube 2 and circumferencial direction around furnace tube door closure circle 21 offers a graphite annulus caulking groove 214,
A graphite annulus 2141 is embedded with the graphite annulus caulking groove 214.The periphery of aforesaid furnace tube door closure 211 is equally constituted as furnace tube
Door closure taper surface and it is engaged with aforementioned taper surface 212.
As shown in Figure 6, each two adjacent furnace tube sections in aforesaid one group of furnace tube sections 23 pass through the section for compensating each other
Section 231 mutual scarf of caulking groove.
As shown in Figure 4, constituting on aforesaid graphite rod connecting seat 621 has a pair of joining of graphite screwed holes 6211, this pair
The graphite heating unit adjacent with two in one group of described graphite heating unit 61 respectively of graphite rod connection screw thread hole 6211 connects
Connect.Such as the description to aforesaid one group of protective gas escape pipe 52, in order to avoid one group of graphite heating rod 611 is because excessively tediously long
And there is amount of deflection, therefore each graphite heating rod of this group of graphite heating rod 611 can be divided into two sections, and corresponding to
The position of graphite heating rod connecting seat 621 is connected with aforesaid graphite rod connection screw thread hole 6211.And then as shown in Figure 4, a pair
Wherein one piece graphite connection strap in graphite connection strap 612 passes through graphite nut 6121 and one group of graphite heating rod
611 one end end is fixedly connected, and another piece of graphite connection strap in a pair of graphite connection straps 612 again by
Graphite nut 6121 is fixedly connected with the other end end of one group of graphite heating rod 611.
In the present embodiment, the quantity of aforesaid electrode interface 13 has six, aforesaid one group of graphite heating unit 61,
The quantity of group graphite electrode columns 62 and described feeding mechanism 7 respectively has six, and by six feeding mechanisms 7 and external power source
Circuit forms the electric connecting relation of three phase mains.In the present embodiment, six graphite heating units 61 respectively have two graphite heatings
Rod 611.
Please continue to refer to Fig. 4, on aforesaid electrode interface 13 and around the electrode interface through hole 131 of electrode interface 13
Surrounding constitutes the electrode interface spacer 132 for having a surface for being raised in electrode interface 13, embedding in the bottom of aforesaid felt pad 73
A felt pad bottom sealing ring 732 is provided with, the upper surface of the felt pad bottom sealing ring 732 and electrode interface 13, front
Circumferencial direction on the hole wall of the felt pad electrode resigning hole 731 stated and around hole wall is embedded with a hole wall sealing ring 7311,
The wall contacts of the hole wall sealing ring 7311 and the electrode interface spacer 132.
As shown in Figure 4, opening up at the middle part of aforesaid electrode connection plate 75 and corresponding to the position of the electrode 76
There are a patch panel electrode fixing holes 751, and external power cord connecting hole 752 is respectively offered at the two ends of electrode connection plate 75, connect
Line plate electrode fixing hole 751 is fixed on electrode 76.
Preferably, a clamping slot is offered on former electrodes patch panel 75 and positioned at one end of electrode connection plate 75
753, one end of the clamping slot 753 is communicated with former electrodes plate electrode fixing hole 751, and the other end is communicated with the external world, in electrode
One end of patch panel 75 and one is provided with for making that clamping slot 753 is closed and using makes in the position corresponding to clamping slot 753
Patch panel electrode fixing holes 751 are reliably clamped in the clamping slot closure screws 754 on electrode 76, and close in the clamping slot
The end of screw 754 is equipped with a binding nut 7541, when being operated to the binding nut 7541 clockwise, clamping slot 753
Groove gap is tapered into, that is, formed closure trend so that patch panel electrode fixing holes 751 just as bind round effect tie tight in(Clamp
In)On electrode 76, on the contrary same example.
Preferably, a positioning supporting screw 755, the positioning support screw are equipped with aforesaid electrode connection plate 75
755 are bearing in aforesaid fixed plate 74.
Still see Fig. 4 and Fig. 5, used as preferred scheme, aforesaid feeding mechanism 7 can also include cooling of electrode dress
Put 77, the electrode cooling device 77 includes warter connection 771 and a cooling water pipe 772, the lower end of warter connection 771 with it is front
The top threaded connection of electrode 76 is stated, specifically, in the cavity wall in the cooling of electrode chamber 762 of electrode 76 and positioned at top structure
Into there is a cooling of electrode intracavity screw thread 7621, and constituting in the bottom of warter connection 771 has external screw thread 7714, this is outer be 7714 with
Cooling of electrode intracavity screw thread 7621 is threadedly coupled, and the upper end of warter connection 771 is configured to inlet pipeline with interface 7711, and
The sidepiece of warter connection 771 is extended with a water return pipeline with interface 7712, and cooling water pipe 772 matches somebody with somebody interface 7711 from inlet pipeline
Introduce and be stretched over from the bottom in warter connection chamber 7713 after by way of the warter connection chamber 7713 of warter connection 771
In cooling of electrode chamber 762.It follows that water return pipeline is communicated with warter connection chamber 7713 with interface 7712, and cooling water connects
Head cavity 7713 is communicated with cooling of electrode chamber 762.Due to the cooling principle and aforementioned furnace shell cooling body 11 of electrode cooling device 77
It is similar, thus applicant repeats no more.
Fig. 8 is referred to, Fig. 8 clearly show that furnace shell evacuation interface 12a is communicated with boiler tube chamber 41, and furnace tube evacuation
The situation that interface 12b is communicated with furnace shell chamber ventilating duct 12d.And also siege 411 is have clearly revealed by 4111, siege support
Hold the bottom of the length direction in boiler tube chamber 41.Further it is shown that six feeding mechanisms 7, by known electric connecting mode
The electric connecting relation of three-phase and four-line is formed with external power source circuit.
When sintering to product such as aluminium nitride chip, the furnace shell end of the left port and/or right output port positioned at furnace shell 1 is opened
Lid 15, the container for filling product for example aforesaid saggar or crucible are placed on siege 411, furnace shell end cap 15 is then switched off, and
And aforesaid end cap seal mechanism 8 is enabled, lead to accent, the accent in boiler tube heating arrangements chamber 42 and the furnace shell chamber in boiler tube chamber 41
The port in air channel is in reliable closed state.Then nitrogen shielding gas is introduced from protective gas retraction mechanism 5 to boiler tube chamber 41
Body, then passes through boiler tube evacuation interface 12a to 41 evacuation of boiler tube chamber, after protective gas introducing terminates while passing through stove
To furnace shell chamber ventilating duct 12d evacuation, vacuum is by taking out with boiler tube evacuation interface 12a and furnace tube for cylinder evacuation interface 12b
Vacuum meter in the vacuum-pumping pipeline that vacuum interface 12b is connected is illustrated.Followed by being heated by boiler tube heating arrangements 6, to siege
Product sintering on 411, about 2000 DEG C of sintering temperature enable furnace shell cooling body 11 during sintering simultaneously, and
End cap cooling medium spacer 152 is made to be in water circulation cooling for reflux state.After sintering being completed by the technological requirement of regulation, make stove
Pipe heating arrangements 6 are in out-of-work state, and furnace shell cooling body 11 and end cap cooling medium spacer 152 are still in water
Circulating cooling reflux state.Treat that the temperature in boiler tube chamber 41 is down to less than 1200 DEG C(By being disposed in the temperature inspection of heating arrangements chamber
The temperature monitor surveyed on device mounting interface 12i is disclosed)When, make fan coolling mechanism 9 work, fan 93 driven by motor 91,
Interior circulation is forced by fan 93 and accelerates cooling, when temperature is down to 300 DEG C or so, is opened furnace shell end cap 15, then treat that nature is cold
But the product of sintering is taken out from siege 411 to room temperature.
In sum, the technical scheme that the present invention is provided compensate for the shortcoming in prior art, favorably accomplish invention
Task, the technique effect referred in faithfully having cashed the superincumbent technique effect hurdle of applicant, it is one ultimate attainment that can yet be regarded as
Technical scheme.
Claims (10)
1. a kind of furnace lining structure of high-temperature vacuum sintering furnace, an including furnace shell (1), the furnace shell (1) is with a furnace shell cooling body
(11) connect with being connected to boiler tube evacuation interface (12a), furnace tube evacuation interface (12b), protective gas, and on furnace shell (1)
Mouth (12c) and electrode interface (13), respectively expand at the position of the left end port and right-hand member port of the length direction of furnace shell (1) and are provided with one
Furnace shell flange (14), and a furnace shell end cap (15) is equipped at the position corresponding to the furnace shell flange (14);One boiler tube
(4), the boiler tube (4) is arranged in the furnace shell (1), and is located at the center of furnace shell (1), in the boiler tube of the boiler tube (4)
With the length direction for being parallel to boiler tube chamber (41) and the bottom that is located at boiler tube chamber (41) is provided with a siege in chamber (41)
(411), the boiler tube evacuation interface (12a) is communicated with the boiler tube chamber (41) of the boiler tube (4);One protective gas retraction mechanism
(5), the protective gas retraction mechanism (5) is arranged in the boiler tube chamber (41), and corresponding to the protective gas interface
(12c) position is stretched over furnace shell (1) and is connected with protective gas supply source pipeline outward;One boiler tube heating arrangements (6), the boiler tube add
Heat engine structure (6) is arranged on the boiler tube (4) outward, and is stretched over furnace shell (1) in the position corresponding to the electrode interface (13)
It is electrically connected with feeding mechanism (7) outward, it is characterised in that described furnace lining structure includes:One furnace tube (2), the furnace tube (2) is with set
It is placed in the outer state of the boiler tube (4) and while the state of length direction to be parallel to the furnace shell (1) is arranged on furnace shell
(1) space is maintained between furnace shell intracavity, and the furnace shell cavity wall of the furnace tube outer wall and furnace shell (1) of the furnace tube (2), by this
Space is configured to furnace shell chamber ventilating duct (12d), the furnace tube evacuation interface (12b) and furnace shell chamber ventilating duct (12d) phase
It is logical, furnace tube door closure circle (21), the stove are respectively equipped with the position of the left end port and right-hand member port of the length direction of furnace tube (2)
Cylinder door closure circle (21) is concordant with described furnace shell flange (14);One furnace tube inner sleeve (3), the furnace tube inner sleeve (3) are arranged on furnace tube
(2) furnace tube intracavity and touch with the cavity wall patch in furnace tube chamber;Protect between the outer wall of the boiler tube (4) and the furnace tube inner sleeve (3)
Hold space, be configured to boiler tube heating arrangements chamber (42) by the space, the boiler tube heating arrangements (6) are arranged on the boiler tube and add
In heat engine structure chamber (42);Described furnace tube (2) is made up of one group of furnace tube sections (23), embedding each other between adjacent furnace tube sections (23)
Match somebody with somebody, and be equipped with for the furnace tube chamber to furnace tube (2) in the position of the middle section corresponding to the furnace tube door closure circle (21)
The furnace tube door closure (211) of closing, one group of described furnace tube sections (23) and furnace tube door closure (211) are made by graphite;Described
Furnace tube inner sleeve (3) is carbon fiber bushing;Described boiler tube (4) is made up of celion;The furnace tube door closure circle (21) it is interior
Wall is configured to taper surface (212), and has a furnace tube embedding chamber towards the side composition of the furnace tube (2) in furnace tube door closure circle (21)
(213), and in furnace tube door closure (211) back to the edge of the side of furnace tube (2) and around the circle of furnace tube door closure circle (21)
Circumferential direction offers a graphite annulus caulking groove (214), in the graphite annulus caulking groove (214) is embedded with a graphite annulus (2141), described
The periphery of furnace tube door closure (211) be engaged with the taper surface (212).
2. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 1, it is characterised in that on described furnace shell (1)
Be provided with communicate with the boiler tube chamber (41) of the boiler tube (4) pressure detector mounting interface (12c), temperature measuring device install connect
Mouth (12f), the installation of TC interface (12g) and infrared detector mounting interface (12h), and also set up on furnace shell (1)
There is heating arrangements chamber temperature detector mounting interface (12i) communicated with the boiler tube heating arrangements chamber (42);Described one group
Each two adjacent furnace tube sections in furnace tube sections (23) are by the mutual scarf of the sections caulking groove (231) for compensating each other.
3. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 1, it is characterised in that described furnace shell cooler
Structure (11) is including furnace shell cooling spacer (111), one group of cooling medium introduces interface (112) and one group of thermal medium draws interface
(113), furnace shell cooling spacer (111) is formed on the furnace shell (1), and one group of cooling medium introduces interface (112) and corresponding to
The position of the bottom of the length direction of furnace shell (1) is formed on furnace shell (1) and by cooling medium introduction pipeline with space state
It is connected with cooling medium supply source, this group of cooling medium is introduced interface (112) and communicated with furnace shell cooling spacer (111), one group
Thermal medium is drawn interface (113) and is formed in furnace shell with space state in the position on the top of the length direction corresponding to furnace shell (1)
(1) on and draw pipeline by thermal medium to be connected with the cooling medium supply source and form cooling medium closed circuit, the group
Thermal medium is drawn interface (113) and is communicated with furnace shell cooling spacer (111).
4. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 1, it is characterised in that in the length of the furnace shell (1)
Spend the left end and right-hand member in direction and the furnace shell flange (14) is being corresponded to back to the side of the furnace shell end cap (15)
The circumferencial direction for being positioned around furnace shell (1) is fixed with axis pin base (16) with space state, passes through bearing pin on axis pin base (16)
(1611) tie down screw (161) is hinged with, and a handwheel (1612) is equipped with the end of the tie down screw (161),
Described furnace shell end cap (15) towards furnace shell (1) side and corresponding to furnace shell flange (14) position expand be provided with a stove
Shell end cap flange (151), in furnace shell end cap flange (151) back to the side of furnace shell flange (14) and around furnace shell
The circumferencial direction of end cap flange (151) is fixed with space state that quantity is equal with the quantity of the axis pin base (16) and position
Corresponding end caps pawl (1511) is put, and end caps pawl (1511) is probeed into or exit by the tie down screw (161)
Lock pawl groove (15111) and operation clockwise or counterclockwise is made to the handwheel (1612) and furnace shell end cap (15) is made to stove
The port closed of shell (1) releases closing, on the furnace shell (1) and also solid in the position with the axis pin base (16)
Surely there are a pair of furnace shell hinge seats (17), and on described furnace shell end cap (15) and corresponding to a pair of furnace shell hinge seats (17)
Position be fixed with a pair of furnace shells end cap chain connection head (156), this pair of furnace shell end cap chain connection head (156) is respectively by connection
Head bearing pin (1561) is hinged with a pair of furnace shell hinge seats (17);Constituting on furnace shell end cap (15) has end cap cooling medium spacer
(152), end cap cooling medium spacer (152) by be formed in it is on furnace shell end cap (15) and with end cap cooling medium spacer
(152) the end cap cooling medium for communicating introduces interface (153) and end cap thermal medium draws interface (154) and cooling medium supply source
Circulation cooling circuit is formed, and one is additionally provided with furnace shell end cap (15) for the boiler tube chamber (41) to the boiler tube (4)
Accent and to the closing of the accent of the boiler tube heating arrangements chamber (42) or release the end cap seal mechanism (8) of closing, in institute
Furnace shell chamber ventilating duct (12d) is parallel in furnace shell chamber ventilating duct (12d) stated to be provided with for the furnace tube with space state
(2) the furnace tube cushion block (22) for positioning.
5. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 4, it is characterised in that described end cap seal machine
Structure (8) includes moving-coil driving effect cylinder (81), moving-coil support connection seat (82), moving-coil (83), cover plate mounting (84), spring bearer plate
(85), back shroud (86), furnace tube closing cap (87), boiler tube lid (88) and guard ring (89), moving-coil driving effect cylinder (81) is with level
Cantilever position is fixed on the furnace shell end cap (15) back to the side of the furnace shell (1), and is located at the side of furnace shell end cap (15)
Edge position, moving-coil driving effect cylinder post (811) of moving-coil driving effect cylinder (81) are stretched over the furnace shell end of furnace shell end cap (15)
In lid chamber (155), moving-coil support connection seat (82) is fixed with furnace shell end cap (15) in furnace shell end cap chamber (155), guard ring (89)
Fixed with bottom of chamber wall with the state soared in the bottom of chamber wall in furnace shell end cap chamber (155) by one group of guard ring fixed seat (891), and
A guard ring air vent (892) is offered in the middle position of the bottom of the guard ring (89), and is opened up on the side wall of guard ring (89)
There are a pair of cover plates mounting bearing pin adjusting hole (893), this pair of cover plate mounting bearing pin adjusting hole (893) is around the side wall of guard ring (89)
Circumferencial direction is separated by 180 ° and is in the state in the face of facing each other, on the diapire of guard ring (89) and corresponding to described
The position of moving-coil driving effect cylinder post (811) offers acting cylinder post resigning hole (894), and moving-coil (83) is corresponding to guard ring
(89) position in outside is arranged in furnace shell end cap chamber (155), and moving-coil supporting company is provided with the moving-coil (83)
Joint chair attachment screw (831) and acting cylinder post fixed seat (832), are equipped with a work on acting cylinder post fixed seat (832)
Screw (8321), moving-coil support connection seat attachment screw (831) and described moving-coil support connection seat are fixedly connected with cylinder post
(82) connect, and acting cylinder post is fixedly connected the work in the distal end faces of screw (8321) and moving-coil driving effect cylinder post (811)
Connected with cylinder styletable face screw (8111), and a pair of moving-coil pin shaft holes (833), this pair of moving-coil pin are offered on moving-coil (83)
Axis hole (833) around moving-coil (83) circumferencial direction be separated by 180 ° and with a pair of described cover plate mounting bearing pin adjusting holes
(893) corresponding, cover plate mounting (84) is interior corresponding to moving-coil (83), and the cover plate mounting (84) is by a pair of cover plate mounting pins
Axle screw (841) is insinuated into a pair of described cover plate mounting bearing pin adjustment after through a pair of described moving-coil pin shaft holes (833)
It is connected with guard ring (89) in hole (893), one group of cover plate seat ring (842) is further fixed on cover plate mounting (84), and in cover plate
The middle position of mounting (84) is fixed with cover plate mounting screw rod (843), and spring bearer plate (85) is with cover plate mounting (84) back to bonnet
The side of plate (86) is fixed, and while fixes with the base portion of cover plate mounting screw rod (843), back shroud (86) is shelved on described
On one group of cover plate seat ring (842), and a back shroud screw hole (861) is offered in the middle position of the back shroud (86), should
Back shroud screw hole (861) is nested with cover plate mounting screw rod (843), and furnace tube closing cap (87) is being carried on the back corresponding to back shroud (86)
Lid is arranged on by furnace tube closing cap screw hole (871) for being opened in its middle position to the position of the side of cover plate mounting (84)
On panel seat frame screw rod (843), and an insulation is fixed with towards the side of boiler tube lid (88) in the furnace tube closing cap (87)
Cover plate (872), offers boiler tube lid swivel nut hole (881) in the middle position of boiler tube lid (88), in the boiler tube lid swivel nut hole
(881) boiler tube lid swivel nut (8811) is provided with, the central authorities of boiler tube lid swivel nut (8811) are constituted a swivel nut internal thread hole,
The swivel nut internal thread hole is threadedly coupled with swivel nut connection screw thread head (8431) of the end of cover plate mounting screw rod (843), and
Boiler tube lid swivel nut (8811) leans out the position screw thread of boiler tube lid swivel nut hole (881) and is equipped with one for seizing on both sides by the arms to boiler tube lid (88)
Boiler tube box nut (882), the nut bore (8821) of the boiler tube box nut (882) equally with described swivel nut connection screw thread head
(8431) it is threadedly coupled;A fan coolling is provided with the furnace shell end cap (15) corresponding to the right-hand member of the furnace shell (1)
Mechanism (9).
6. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 5, it is characterised in that described fan cooling mechanical
Structure (9) but covers (92) and fan (93) including motor (91), motor water cooling, and motor (91) is corresponding to the furnace shell end cap (15)
Middle position be fixed on furnace shell end cap (15) with the horizontally-arranged state of level by motor fixing seat (912), the motor (91)
Motor shaft (911) is stretched in the furnace shell end cap chamber (155), and motor water cooling but covers (92) and is arranged on motor with sealing state
(91), on, but cover in the motor water cooling and on (92), be provided with water inlet interface (921) and water outlet mouthpiece (922), water outlet mouthpiece (922)
It is connected with the motor bearing seat water inlet (913) being formed on the motor bearing seat of motor (91) by communicating pipe (9221),
Constituting on motor bearing seat has a motor bearing seat outlet (914), water inlet interface (921) and motor bearing seat outlet
(914) respectively it is connected with water circulation cooling device pipeline by pipeline, fan (93) is corresponding to the guard ring air vent (892)
Position is fixed with motor shaft (911).
7. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 1, it is characterised in that on described boiler tube (4)
And one nut connector (43) is fixed with by nut (431) in the position corresponding to the protective gas interface (12c), it is described
Protective gas retraction mechanism (5) introduce pipe (51) and one group of protective gas escape pipe (52), shielding gas including a protective gas
Body introduce one end of pipe (51) in position insertion protective gas interface (12c) corresponding to protective gas interface (12c) and
It is connected with the nut connector (43) screw thread after through the furnace tube (2), the other end leans out protective gas interface (12c)
It is connected with the protective gas supply source pipeline, one group of protective gas escape pipe (52) is connected by protective gas in end each other
Pipe (53) is connected in series, and this group of protective gas escape pipe (52) is respectively by the outlet drop tee T (521) that is spaced apart and stove
The boiler tube chamber cavity wall in boiler tube chamber (41) of pipe (4) is fixed, this group of protective gas escape pipe (52) length direction respectively being spaced
State offers protective gas fairlead (522), protecting positioned at middle in one group of protective gas escape pipe (52)
The middle position of the length direction of gas escape pipe is equipped with a three way cock (523), the three way cock (523) equally with it is described
The tube chamber that nut connector (43) screw thread is connected and introduces pipe (51) with protective gas is communicated, one group of described protective gas
Escape pipe (52), protective gas communicating pipe (53), outlet drop tee T (521) and three way cock (523) are by celion system
Into.
8. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 1, it is characterised in that the electrode interface (13)
Positioned at the middle part of the length direction of the furnace shell (1) and the quantity of the electrode interface (13) has the circumference side around furnace shell (1)
To one group be distributed with equidistant intervals state;In the furnace tube (2) and in the position corresponding to the electrode interface (13)
Put and offer the quantity graphite electrode post holes (24) equal with the quantity of electrode interface (13);The quantity of the feeding mechanism (7)
It is equal with the quantity of electrode interface (13) and be fixedly connected with electrode interface (13);The boiler tube heating arrangements (6) are including number
The amount one group graphite heating unit (61) equal with the quantity of the feeding mechanism (7) and one group of graphite electrode columns (62), one group
Graphite heating unit (61) is arranged on the boiler tube heater with equidistant intervals state around the circumferencial direction of the boiler tube (4)
In structure chamber (42), and this group of graphite heating unit (61) is respectively by one group of graphite heating rod (611) and a pair of graphites connections
Bar (612) is constituted, and one group of graphite heating rod (611) had not only been spaced but also had mutually kept parallel in length direction, a pair of graphite guides
Wherein one piece graphite connection strap in the narrow bars that are electrically connected (612) is connected with one end end of one group of graphite heating rod (611), and
The other end end of another piece of graphite connection strap and one group of graphite heating rod (61) in a pair of graphite connection straps (612)
Portion connects, and the bottom of one group of graphite electrode columns (62) is respectively constituted a graphite rod connecting seat (621), the graphite rod connecting seat
(621) adjacent with two in one group of described graphite heating unit (61) graphite heating unit connection, and one group of graphite electrode
The top of post (62) is connected with described feeding mechanism (7) in the position corresponding to the graphite electrode post holes (24), and
On the outer wall on the top of this group of graphite electrode columns (62), each composition has graphite electrode columns external screw thread (622), in the graphite electrode columns
A graphite electrode columns are equipped on external screw thread (622) and limit nut (6221), in the central position on the top of graphite electrode columns (62)
Put and offer an electrode connection screw thread hole (623), the electrode connection screw thread hole (623) is blind hole.
9. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 8, it is characterised in that described feeding mechanism (7)
Including upper and lower insulation sleeve (71,72), felt pad (73), fixed plate (74), electrode connection plate (75) and electrode (76), lower insulation
The middle part of set (72) is located in the graphite electrode post holes (24), and the upper end of lower insulation sleeve (72) leans out graphite electrode post holes (24)
And insulation sleeve is provided with the outer wall of the upper end and connects external screw thread (721), and the lower end of lower insulation sleeve (72) equally leans out
Graphite electrode post holes (24) and it is insinuated in described boiler tube heating arrangements chamber (42), in the lower end of the lower insulation sleeve (72)
Outer wall is provided with lower insulation sleeve and limits nut screw connection external screw thread (722), limits nut screw connection external screw thread (722) in the lower insulation sleeve
On be equipped with insulation sleeve and limit nut (7221), by the lower insulation sleeve limit nut (7221) and by lower insulation sleeve (72)
It is limited in described furnace tube (2), constituting in the middle position of the length direction of lower insulation sleeve (72) has a graphite heating rod hole
(723), constituting in the cavity wall of the bottom of the upper insulation mantle cavity (711) of upper insulation sleeve (71) has upper insulation sleeve to connect female thread
(7111), on this, insulation sleeve connects female thread (7111) and connects the cooperation of external screw thread (721) screw thread, upper insulation with the upper insulation sleeve
The top of set (71) is insinuated in the electrode interface (13), and the top of described graphite electrode columns (62) is by way of graphite heating rod
Hole (723) is insinuated in insulation mantle cavity (711), and limits nut (6221) restriction, insulation by described graphite electrode columns
Pad (73) is arranged on the electrode interface (13), offers felt pad electrode resigning in the middle position of the felt pad (73)
Hole (731), felt pad electrode resigning hole (731) are corresponding with upper insulation mantle cavity (711), and fixed plate (74) is stacked in absolutely
On edge pad (73), and the fixed plate (74) by one group of fixation plate bolt (741) together with felt pad (73) and electrode interface
(13) it is fixed, fixed plate electricity is offered in fixed plate (74) and in the position corresponding to felt pad electrode resigning hole (731)
Pole resigning hole (742), electrode connection plate (75) are fixed on electrode (76), and the electrode connection plate (75) and external power source electricity
Road is electrically connected, and the lower end of electrode (76) has been constituted an electrode thread union joint (761) with narrow contracting state, and the electrode thread connects
Joint (761) is connected with the electrode connection screw thread hole (623), and constituting in the middle position on electrode (76) top has one electric
Pole cooling chamber (762).
10. the furnace lining structure of high-temperature vacuum sintering furnace according to claim 8, it is characterised in that connect in described graphite rod
Constituting on joint chair (621) has a pair of joining of graphite screwed holes (6211), this pair of graphite rod connection screw thread hole (6211) respectively with institute
Two adjacent graphite heating unit connections in the one group of graphite heating unit (61) stated;A pair of described graphite connection straps
(612) wherein one piece graphite connection strap in passes through graphite nut (6121) and one group of described graphite heating rod (611)
One end end be fixedly connected, and another piece of graphite connection strap in a pair of graphite connection straps (612) again by
Graphite nut (6121) is fixedly connected with the other end end of one group of graphite heating rod (611).
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CN201510590706.2A CN105157417B (en) | 2015-09-16 | 2015-09-16 | Furnace lining structure of high-temperature vacuum sintering furnace |
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DE3205501A1 (en) * | 1982-02-16 | 1983-08-25 | Degussa Ag, 6000 Frankfurt | Vacuum furnace for dewaxing and sintering hard metals |
JPH10318676A (en) * | 1997-05-19 | 1998-12-04 | Shimazu Mekutemu Kk | Heat treatment furnace |
JP2000111261A (en) * | 1998-10-02 | 2000-04-18 | Daido Steel Co Ltd | Heat treating furnace |
KR200382720Y1 (en) * | 2005-02-02 | 2005-04-22 | 김교성 | Cooling device for vacuum sintering furnace |
JP5265475B2 (en) * | 2009-07-17 | 2013-08-14 | 株式会社トウネツ | One-chamber vacuum furnace |
CN204963540U (en) * | 2015-09-16 | 2016-01-13 | 苏州汇科机电设备有限公司 | High temperature vacuum sintering furnace's furnace lining structure |
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Address after: 215562 Xinzhuang Industrial Development Zone (Yangyuan), Changshu City, Suzhou City, Jiangsu Province Patentee after: Suzhou Huike Technology Co.,Ltd. Address before: 215562 Xinzhuang Industrial Development Zone (Yangyuan), Changshu City, Suzhou City, Jiangsu Province Patentee before: SUZHOU HUIKE EQUIPMENT Co.,Ltd. |
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