CN208234942U - A kind of fusion reactor large scale fine grain component - Google Patents
A kind of fusion reactor large scale fine grain component Download PDFInfo
- Publication number
- CN208234942U CN208234942U CN201820262563.1U CN201820262563U CN208234942U CN 208234942 U CN208234942 U CN 208234942U CN 201820262563 U CN201820262563 U CN 201820262563U CN 208234942 U CN208234942 U CN 208234942U
- Authority
- CN
- China
- Prior art keywords
- pipeline
- forging
- lathe
- large scale
- fine grain
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E30/00—Energy generation of nuclear origin
- Y02E30/10—Nuclear fusion reactors
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E30/00—Energy generation of nuclear origin
- Y02E30/30—Nuclear fission reactors
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/25—Process efficiency
Abstract
Originally practical to be related to a kind of fusion reactor large scale fine grain special-shaped component, including pipeline A and pipeline B, the internal diameter of the pipeline A and pipeline B is equal, it is connected between pipeline A and pipeline B by transition region C, the pipeline A is connected with pipeline B by transition region C, the internal diameter of the transition region C is equal with the internal diameter of pipeline A, is equipped with screw thread shape rib in the pipeline A and pipeline B, the rib runs through the inlet and outlet of pipeline A and pipeline B.The thermonuclear fusion heap of this practical production can achieve 4 grades with the grain size of large scale fine grain special-shaped component or more carefully improve mechanical performance.
Description
Technical field
The utility model belongs to forging technology technical field, and in particular to a kind of fusion reactor large scale fine grain component.
Background technique
Fusion reactor is made of the covering/shield member of fusion assay device formed substantially plus heap.It is wrapped in ring
Shape core plasma is crucial nuclear island component;Covering and divertor, they are in ring vaccum room.It covers in vacuum chamber
Outside is multiple toroidal field coils (TFC) for generating toroidal magnetic fields constraint plasmas.It is concentric round several outside TFC
Coil loop, they generate the poloidal magnetic field of constraint plasmas, referred to as poloidal coil (PFC).For the ease of maintenance and more
It changes, what covering and divertor were made of multiple modules.Covering module is passed in and out by the vertical channel of vacuum chamber upper end, divertor
The module then divertor bleed-off passage replacement through lower end.Their ooling channel mainly will also enter from these channels.Magnetic field
Coil uses superconductor, needs enough shieldings to avoid by from the excessive radiation injury of reactor core, is provided with TFC's thus
Shielded layer.Around fusion reactor, Plasma Engineering system is disposed with to maintain lasting fusion reaction.These systems include
Vacuum, plasma heating, electric current driving, fusion fuel addition, the discharge of fuel ash and plasma measurement and control etc..
The fusionplasma experimental provision of today has been provided with these systems, only because the plasma parameter of fusion reactor is higher,
Need more powerful Plasma Engineering system.
2016, company set about promoting 316LN nuclear fusion equipment special steel material forging project, according to the new power pair of Guizhou space flight
Nuclear fusion supports the order of square billet forging to need, and at year ends 2017,316LN nuclear fusion reaction part of appliance first generation forging products are
Research and development and a small amount of production are completed, 4 grades of grain size, reach performance requirement.According to the new power of in January, 2018 Guizhou space flight to the macro order of shaking
New forging, nuclear fusion supports square billet forging and cylindrical body bobbin (2070 internal diameter 1660 of outer diameter long 1170 (mm), outer diameter 1995
Internal diameter 1575 grow 1170 (mm)) grain size need to be up to 4 grades or more;With nuclear fusion tokamak device from experiment to it is commercial not
Disconnected to promote, cryogenic magnetic field further increases under high restriction mode, needs to be optimized the formula of stainless steel material, obtains higher
The 316LN forging of mechanics, mechanical performance.
Utility model content
The purpose of the utility model is to provide a kind of fusion reactor large scale fine grain components, and grain size is tiny, mechanicalness
It can be excellent.
A kind of fusion reactor large scale fine grain component, including pipeline A and pipeline B, the internal diameter of the pipeline A and pipeline B
It is equal, it is connected between pipeline A and pipeline B by transition region, the pipeline A is connected with pipeline B by transition region, the transition region
Internal diameter it is equal with the internal diameter of pipeline A, screw thread shape rib is equipped in the pipeline A and pipeline B, the rib runs through pipeline A
With the inlet and outlet of pipeline B.
Preferably, the transition region with a thickness of 7-16mm.
A kind of fusion reactor large scale fine grain component, it is characterised in that use a kind of fusion reactor large scale fine grain structure
The process units of part produces coarse fodder, and a kind of process units of fusion reactor large scale fine grain component includes bracket, inductor, forging
Press, defectoscope are provided with the inductor on the bracket, are provided with conveyer belt, the inductor above the inductor
Side far from the conveyer belt is provided with heating furnace, is provided with blanking plate on the outside of the heating furnace, the forging and stamping motor spindle is set
It is equipped with forging stage, forging hammer is provided at the top of the forging press, is provided with control on the forging press of forging hammer lower section
Device, the defectoscope are set to inside lathe, and the lathe inner bottom is provided with motor, are provided on the outside of the motor
Chuck, the chuck are provided with lathe tool far from the side of the motor, and the lathe is arranged far from the side of the motor
There is cylinder, is provided with control panel on the outside of the lathe.
It, will when staff needs to carry out the production work of fusion reactor large scale fine grain component in above structure
The cold ingot of 20T is placed on the conveyer belt, and after the inductor senses the cold ingot of 20T, the heating furnace is begun to warm up, and works as 20T
After cold ingot is heated to set temperature, entered inside the forging press by the blanking plate, the controller controls the forging
Hammer work into shape, the cold ingot of 20T is forged into setting state by the forging hammer, and the forging stage provides support, the control for the cold ingot of 20T
Device controls the forging press and completes blocking, jumping-up, pulling, finishing procedure, after workpiece temperature reduction, described in staff's operation
Component is further processed lathe, electric motor operation described in the Lathe control, and the motor drives the chuck
Rotation, the chuck drive the lathe tool rotation, and component is connected to the cylinder close to the side of the lathe tool by staff,
The lathe is completed to modify the size of component, completes the production work of fusion reactor large scale fine grain component.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, the bracket with
The inductor is connected by screw to, and the conveyer belt is connect with the inductor by bearing.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, the heating furnace
It is connected by screw to the inductor, the blanking plate is bolted with the heating furnace.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, the forging press
It is connected by screw to the forging stage, the forging hammer is connect with the forging press by sliding slot.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, the controller
It is bolted with the forging press, the defectoscope is connected by screw to the lathe.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, the motor
It is connected by screw to the lathe, the chuck is connect with the motor by pin shaft.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, the cylinder with
The lathe is bolted, and the control panel is connected by screw to the lathe.
Preferably, manufacturing process after coarse fodder is formed the following steps are included:
A. coarse fodder blank surface rust cleaning by brush: coarse fodder blank is passed through into rust cleaning by brush device online, is carried out at rust cleaning by brush
Reason falls the rusty scale on surface;
B. online induction heating pretreatment: the coarse fodder blank after rust cleaning by brush is passed through into load coil online and is felt
It should heat, the temperature of induction heating is 400-500 degrees Celsius, and the speed passed through online is 1-2m/min;
C. electric pulse is heat-treated: the pretreated coarse fodder blank of induction heating being passed through electrical pulse device online, carries out electric arteries and veins
Punching heat treatment, the temperature of the heating are 1000-1200 degrees Celsius, by size of current be 0.5-1 amperes;
D. heat-treatment furnace is heat-treated comprehensively: being kept the temperature -3.5 hours 3 hours at 1100 DEG C ± 20 DEG C, is guaranteed in coarse fodder blank
Portion, external temperature grill thoroughly, are uniform, after soaking time reaches requirement, are rapidly heated to 1210 ± 20 DEG C, keep the temperature -8 hours 4 hours,
After wherein keeping the temperature -2.5 hours 2 hours, the overturning of coarse fodder blank is primary, guarantees that each face heating temperature of coarse fodder blank is consistent;
E. finished product shaping: forging along radial height direction, and make forging circular cross-section, and deflection exists per pass for control
The 3%-10% of finished size is forged repeatedly until reaching within finished product forging shape and the margin of tolerance;
F. finished product forging heat treatment process: the finished product after forging enters heat-treatment furnace and is heat-treated, and it is fast to enter pond after coming out of the stove
Speed is cooled to room temperature.
Preferably, in stepb, the temperature of induction heating is 450 degrees Celsius, and the speed passed through online is 1.5m/min;
Preferably, in step C, electric pulse heat treatment is carried out, the temperature of the heating is 1100 degrees Celsius, by
Size of current is 0.75 ampere.
Preferably, in step D, 1200 DEG C when keep the temperature 3 hours, guarantee inside coarse fodder blank, external temperature grills thoroughly,
One, it after soaking time reaches requirement, is rapidly heated to 1220 DEG C, keeps the temperature 4 hours, wherein after heat preservation 2 hours, the overturning of coarse fodder blank
Once, guarantee that each face heating temperature of coarse fodder blank is consistent.
Due to the adoption of the above technical scheme, the utility model has the following advantages and beneficial effects:
The fusion reactor of the utility model production can achieve 4 grades or thinner with the grain size of large scale fine grain component, and
Face crack is seldom, even if there is the position of crackle, crack depth is again smaller than 1.5mm, and processing technology step is easy to operate, at electric pulse
Reason, can dredge the tissue inside coarse fodder blank, improve its mechanical performance.
Detailed description of the invention
Fig. 1 is that a kind of overall structure of the process units of fusion reactor large scale fine grain component described in the utility model is shown
It is intended to;
Fig. 2 is that a kind of right segment structure of the process units of fusion reactor large scale fine grain component described in the utility model shows
It is intended to;
Fig. 3 is that a kind of middle section structure of the process units of fusion reactor large scale fine grain component described in the utility model shows
It is intended to.
The reference numerals are as follows:
1, bracket;2, inductor;3, conveyer belt;4, blanking plate;5, heating furnace;6, forging hammer;7, controller;8, it forges and presses
Machine;9, forging stage;10, chuck;11, motor;12, lathe tool;13, defectoscope;14, control panel;15, cylinder;16, lathe.
Attached drawing 4 is the structural schematic diagram of the fusion reactor large scale fine grain component of the utility model.
Wherein, pipeline A, pipeline B, transition region C.
Specific embodiment
In order to illustrate more clearly of the utility model, the utility model is done further below with reference to preferred embodiment
It is bright.It will be appreciated by those skilled in the art that specifically described content is illustrative and be not restrictive below, it should not be with this
Limit the protection scope of the utility model.
In the case of being clear from, explaining to the purpose of this utility model by following embodiment, the group of the material
It point is released using parts by weight as the universal standard bright.In the absence of special instructions, for simplicity, the utility model is implemented
" part " and parts by weight meaning having the same described in example.
A kind of fusion reactor first production dress by a kind of fusion reactor large scale fine grain component of large scale fine grain component
It sets and produces coarse fodder, as shown in Figure 1-Figure 3, a kind of process units of fusion reactor large scale fine grain component, including bracket
1, inductor 2, forging press 8, defectoscope 13 are provided with inductor 2 on bracket 1, and bracket 1 is used to support equipment, and inductor 2 is used
It works in induction control heating furnace 5, conveyer belt 3 is provided with above inductor 2, conveyer belt 3 is for conveying the cold ingot of 20T, inductor 2
Side far from conveyer belt 3 is provided with heating furnace 5, and heating furnace 5 is used to heat for the cold ingot of 20T, be provided with down on the outside of heating furnace 5
Flitch 4, blanking plate 4 is for guiding the cold ingot of 20T to enter forging press 8, and 8 bottom of forging press is provided with forging stage 9, and forging stage 9 is used for
Forging member is provided with forging hammer 6 at the top of forging press 8, and forging hammer 6 is for providing forging pressure, the forging press of 6 lower section of forging hammer
Controller 7 is provided on 8, controller 7 is set to inside lathe 16 for controlling equipment work, defectoscope 13, and lathe 16 is used for
Component is finished, 16 inner bottom of lathe is provided with motor 11, and motor 11 is electronic for driving chuck 10 to rotate
Chuck 10 is provided on the outside of machine 11, chuck 10 is used for clamping lathe tool 12, and chuck 10 is provided with lathe tool far from the side of motor 11
12, for lathe tool 12 for cutting component, lathe 16 is provided with cylinder 15 far from the side of motor 11, and cylinder 15 is used for band
Dynamic component is mobile, control panel 14 is provided on the outside of lathe 16, control panel 14 is for controlling equipment work.
It, will when staff needs to carry out the production work of fusion reactor large scale fine grain component in above structure
The cold ingot of 20T is placed on conveyer belt 3, and after inductor 2 senses the cold ingot of 20T, heating furnace 5 is begun to warm up, when the cold ingot heating of 20T
To after set temperature, entered inside forging press 8 by blanking plate 4,7 controlled forge process of controller hammer, 6 work, forging hammers 6 into shape for 20T
Cold ingot forges into setting state, and forging stage 9 provides support for the cold ingot of 20T, controller 7 control forging press 8 complete blocking, jumping-up,
Pulling, finishing procedure, after workpiece temperature reduction, staff operates lathe 16 and component is further processed, lathe
16 control motor 11 work, and motor 11 drives chuck 10 to rotate, and chuck 10 drives lathe tool 12 to rotate, and staff is by structure
Part is connected to cylinder 15 close to the side of lathe tool 12, and lathe 16 is completed to modify the size of component, completes the big ruler of fusion reactor
The production work of very little fine grain component.
In order to further increase fusion reactor large scale fine grain component process units working efficiency, bracket 1 and sense
Device 2 is answered to be connected by screw to, conveyer belt 3 is connect with inductor 2 by bearing, and heating furnace 5 is connected by screw to inductor 2,
Blanking plate 4 is bolted with heating furnace 5, and forging press 8 is connected by screw to forging stage 9, and forging hammer 6 and forging press 8 are logical
Sliding slot connection is crossed, controller 7 is bolted with forging press 8, and defectoscope 13 is connected by screw to lathe 16, motor 11
It is connected by screw to lathe 16, chuck 10 is connect with motor 11 by pin shaft, and cylinder 15 and lathe 16 are connected by bolt
It connects, control panel 14 is connected by screw to lathe 16.
Embodiment 1
As shown in Figure 1, a kind of fusion reactor large scale fine grain component, including pipeline A and pipeline B, the pipeline A and pipe
The internal diameter of road B is equal, is connected between pipeline A and pipeline B by transition region, and the pipeline A is connected with pipeline B by transition region,
The internal diameter of the transition region is equal with the internal diameter of pipeline A, is equipped with screw thread shape rib, the rib in the pipeline A and pipeline B
Through the inlet and outlet of pipeline A and pipeline B.The transition region with a thickness of 7-16mm.Coarse fodder formed after manufacturing process packet
Include following steps:
A. coarse fodder blank surface rust cleaning by brush: coarse fodder blank is passed through into rust cleaning by brush device online, is carried out at rust cleaning by brush
Reason falls the rusty scale on surface;
B. online induction heating pretreatment: the coarse fodder blank after rust cleaning by brush is passed through into load coil online and is felt
It should heat, the temperature of induction heating is 400 degrees Celsius, and the speed passed through online is 1m/min;
C. electric pulse is heat-treated: the pretreated coarse fodder blank of induction heating being passed through electrical pulse device online, carries out electric arteries and veins
Punching heat treatment, the temperature of the heating are 1000 degrees Celsius, by size of current be 0.5 ampere;
D. heat-treatment furnace is heat-treated comprehensively: being kept the temperature 3 hour hour at 1100 DEG C DEG C, is guaranteed that coarse fodder blank is internal, external temperature
Degree is grilled thoroughly, is uniform, after soaking time reaches requirement, is rapidly heated to 1210 DEG C, keeps the temperature 4 hour hour, wherein heat preservation 2 hours
Afterwards, the overturning of coarse fodder blank is primary, guarantees that each face heating temperature of coarse fodder blank is consistent;
E. finished product shaping: forging along radial height direction, and make forging circular cross-section, and deflection exists per pass for control
The 3%-10% of finished size is forged repeatedly until reaching within finished product forging shape and the margin of tolerance;
F. finished product forging heat treatment process: the finished product after forging enters heat-treatment furnace and is heat-treated, and it is fast to enter pond after coming out of the stove
Speed is cooled to room temperature.
Embodiment 2
A kind of fusion reactor large scale fine grain component, including pipeline A and pipeline B, the internal diameter of the pipeline A and pipeline B
It is equal, it is connected between pipeline A and pipeline B by transition region, the pipeline A is connected with pipeline B by transition region, the transition region
Internal diameter it is equal with the internal diameter of pipeline A, screw thread shape rib is equipped in the pipeline A and pipeline B, the rib runs through pipeline A
With the inlet and outlet of pipeline B.The transition region with a thickness of 7-16mm.Manufacturing process after coarse fodder is formed includes following step
It is rapid:
A. coarse fodder blank surface rust cleaning by brush: coarse fodder blank is passed through into rust cleaning by brush device online, is carried out at rust cleaning by brush
Reason falls the rusty scale on surface;
B. online induction heating pretreatment: the coarse fodder blank after rust cleaning by brush is passed through into load coil online and is felt
It should heat, the temperature of induction heating is 450 degrees Celsius, and the speed passed through online is 1.5m/min;
C. electric pulse is heat-treated: the pretreated coarse fodder blank of induction heating being passed through electrical pulse device online, carries out electric arteries and veins
Punching heat treatment, the temperature of the heating are 1100 degrees Celsius, by size of current be 0.75 ampere;
D. heat-treatment furnace is heat-treated comprehensively: being kept the temperature 3.5 hour hour at 1200 DEG C DEG C, is guaranteed that coarse fodder blank is internal, external
Temperature is grilled thoroughly, is uniform, after soaking time reaches requirement, is rapidly heated to 1220 DEG C, keeps the temperature 4.5 hour hour, wherein heat preservation 2 is small
Shi Hou, the overturning of coarse fodder blank is primary, guarantees that each face heating temperature of coarse fodder blank is consistent;
E. finished product shaping: forging along radial height direction, and make forging circular cross-section, and deflection exists per pass for control
The 3%-10% of finished size is forged repeatedly until reaching within finished product forging shape and the margin of tolerance;
F. finished product forging heat treatment process: the finished product after forging enters heat-treatment furnace and is heat-treated, and it is fast to enter pond after coming out of the stove
Speed is cooled to room temperature.
Embodiment 3
A kind of fusion reactor large scale fine grain component, including pipeline A and pipeline B, the internal diameter of the pipeline A and pipeline B
It is equal, it is connected between pipeline A and pipeline B by transition region, the pipeline A is connected with pipeline B by transition region, the transition region
Internal diameter it is equal with the internal diameter of pipeline A, screw thread shape rib is equipped in the pipeline A and pipeline B, the rib runs through pipeline A
With the inlet and outlet of pipeline B.The transition region with a thickness of 7-16mm.Manufacturing process after coarse fodder is formed includes following step
It is rapid:
A. coarse fodder blank surface rust cleaning by brush: coarse fodder blank is passed through into rust cleaning by brush device online, is carried out at rust cleaning by brush
Reason falls the rusty scale on surface;
B. online induction heating pretreatment: the coarse fodder blank after rust cleaning by brush is passed through into load coil online and is felt
It should heat, the temperature of induction heating is 500 degrees Celsius, and the speed passed through online is 1.5m/min;
C. electric pulse is heat-treated: the pretreated coarse fodder blank of induction heating being passed through electrical pulse device online, carries out electric arteries and veins
Punching heat treatment, the temperature of the heating are 1200 degrees Celsius, by size of current be 1 ampere;
D. heat-treatment furnace is heat-treated comprehensively: being kept the temperature 3.5 hour hour at 1200 DEG C DEG C, is guaranteed that coarse fodder blank is internal, external
Temperature is grilled thoroughly, is uniform, after soaking time reaches requirement, is rapidly heated to 1220 DEG C, keeps the temperature 4.5 hour hour, wherein heat preservation 2 is small
Shi Hou, the overturning of coarse fodder blank is primary, guarantees that each face heating temperature of coarse fodder blank is consistent;
E. finished product shaping: forging along radial height direction, and make forging circular cross-section, and deflection exists per pass for control
The 3%-10% of finished size is forged repeatedly until reaching within finished product forging shape and the margin of tolerance;
F. finished product forging heat treatment process: the finished product after forging enters heat-treatment furnace and is heat-treated, and it is fast to enter pond after coming out of the stove
Speed is cooled to room temperature.
Basic principles, main features, and advantages of the present invention has been shown and described above.Current row
The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments
Only illustrate the principles of the present invention, the utility model can also on the premise of not departing from the spirit and scope of the utility model
There are various changes and modifications, these various changes and improvements fall within the scope of the claimed invention.The utility model is wanted
Protection scope is asked to be defined by appended claims and its equivalent.
Claims (3)
1. a kind of fusion reactor large scale fine grain component, it is characterised in that: including pipeline A and pipeline B, the pipeline A and pipe
The internal diameter of road B is equal, is connected between pipeline A and pipeline B by transition region, and the pipeline A is connected with pipeline B by transition region,
The internal diameter of the transition region is equal with the internal diameter of pipeline A, is equipped with screw thread shape rib, the rib in the pipeline A and pipeline B
Through the inlet and outlet of pipeline A and pipeline B.
2. a kind of fusion reactor according to claim 1 large scale fine grain component, which is characterized in that the transition region
With a thickness of 7-16mm.
3. a kind of fusion reactor according to claim 1 large scale fine grain component, it is characterised in that use a kind of fusion
The process units of heap large scale fine grain component produces coarse fodder, a kind of process units of fusion reactor large scale fine grain component
Including bracket (1), inductor (2), forging press (8), defectoscope (13), the inductor (2) are provided on the bracket (1),
It is provided with conveyer belt (3) above the inductor (2), the inductor (2) is provided with far from the side of the conveyer belt (3) to be added
Hot stove (5), heating furnace (5) outside are provided with blanking plate (4), and forging press (8) bottom is provided with forging stage (9), institute
It states and is provided with forging hammer (6) at the top of forging press (8), be provided with controller on the forging press (8) below the forging hammer (6)
(7), the defectoscope (13) is set to lathe (16) inside, and lathe (16) inner bottom is provided with motor (11), institute
It states and is provided with chuck (10) on the outside of motor (11), the chuck (10) is provided with lathe tool far from the side of the motor (11)
(12), the lathe (16) is provided with cylinder (15) far from the side of the motor (11), setting on the outside of the lathe (16)
There are control panel (14);The bracket (1) is connected by screw to the inductor (2), the conveyer belt (3) and the induction
Device (2) is connected by bearing;The heating furnace (5) is connected by screw to the inductor (2), the blanking plate (4) and institute
Heating furnace (5) is stated to be bolted;The forging press (8) is connected by screw to the forging stage (9), the forging hammer
(6) it is connect with the forging press (8) by sliding slot;The controller (7) is bolted with the forging press (8), described
Defectoscope (13) is connected by screw to the lathe (16);The motor (11) and the lathe (16) are connected by screw
It connects, the chuck (10) is connect with the motor (11) by pin shaft;The cylinder (15) and the lathe (16) pass through spiral shell
It tethers and connects, the control panel (14) is connected by screw to the lathe (16).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820262563.1U CN208234942U (en) | 2018-02-22 | 2018-02-22 | A kind of fusion reactor large scale fine grain component |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820262563.1U CN208234942U (en) | 2018-02-22 | 2018-02-22 | A kind of fusion reactor large scale fine grain component |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208234942U true CN208234942U (en) | 2018-12-14 |
Family
ID=64587828
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820262563.1U Active CN208234942U (en) | 2018-02-22 | 2018-02-22 | A kind of fusion reactor large scale fine grain component |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208234942U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108130404A (en) * | 2018-02-22 | 2018-06-08 | 江阴振宏重型锻造有限公司 | A kind of fusion reactor large scale fine grain special-shaped component and its manufacturing process |
CN111415761A (en) * | 2019-01-07 | 2020-07-14 | 新奥科技发展有限公司 | Plasma-oriented part and fusion device |
-
2018
- 2018-02-22 CN CN201820262563.1U patent/CN208234942U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108130404A (en) * | 2018-02-22 | 2018-06-08 | 江阴振宏重型锻造有限公司 | A kind of fusion reactor large scale fine grain special-shaped component and its manufacturing process |
CN108130404B (en) * | 2018-02-22 | 2024-03-15 | 振宏重工(江苏)股份有限公司 | Large-size fine grain special-shaped component for fusion reactor and manufacturing process thereof |
CN111415761A (en) * | 2019-01-07 | 2020-07-14 | 新奥科技发展有限公司 | Plasma-oriented part and fusion device |
CN111415761B (en) * | 2019-01-07 | 2022-03-11 | 新奥科技发展有限公司 | Plasma-oriented part and fusion device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102806291B (en) | Wind-powered main shaft forging method | |
CN102994710B (en) | Spheroidizing annealing process of superplasticity fastener wire rod | |
CN103894792B (en) | Method for machining forge piece of large-scale single-flange anti-explosion motor main shaft of all-fiber texture | |
CN208234942U (en) | A kind of fusion reactor large scale fine grain component | |
CN104175062B (en) | All-fiber-texture large-size double-flange fan main shaft forging method | |
CN104439933B (en) | Technological method for improving performance of large-diameter carbon steel cast and rolled flange part | |
CN103361570B (en) | Heat treatment technology aartensite stainless steel annular forging | |
CN106670363A (en) | Manufacturing method for high-strength stainless steel forge piece | |
CN107442726A (en) | A kind of full-automatic non-hardened and tempered steel forging production line | |
CN109402541B (en) | Preparation method of particle dispersion strengthened tungsten block material | |
CN109554641B (en) | Aluminum alloy ring forging deformation heat treatment process | |
CN110605353B (en) | Efficient short-flow precision forging and cogging process for titanium and titanium alloy ingots | |
CN100551832C (en) | A kind of preparation high temperature nuclear reactor fuel element UO 2The method of nuclear core | |
CN113547022A (en) | Thermal punching and spinning composite forming process for bottom of rocket fuel storage tank with large diameter-thickness ratio | |
CN210481438U (en) | Horizontal quenching furnace | |
CN106435405A (en) | 42CrMo4 wind power main shaft after-forging heat treatment method of low-wind-speed wind turbine generator | |
CN104878166A (en) | Spheroidized annealing process for shortening annealing cycle of hot rolled wire rods | |
CN202032888U (en) | Novel mesh band quenching furnace | |
CN104226684A (en) | Cold rolling process of Ti2AlNb-based alloy foil with thickness of 0.1 mm | |
CN102728771A (en) | Method for forging nuclear island spindle | |
CN108130404A (en) | A kind of fusion reactor large scale fine grain special-shaped component and its manufacturing process | |
CN206375958U (en) | A kind of aluminium section bar Quick annealing device | |
CN208231261U (en) | A kind of process units of fusion reactor large scale fine grain special-shaped component | |
CN210340996U (en) | Annealing device for nut | |
CN103045924A (en) | Electron beam smelting method for preparing tungsten electrode material |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder | ||
CP01 | Change in the name or title of a patent holder |
Address after: No. 888, east section of Furong Avenue, Jiangyin City, Wuxi City, Jiangsu Province Patentee after: Zhenhong heavy industry (Jiangsu) Co.,Ltd. Address before: No. 888, east section of Furong Avenue, Jiangyin City, Wuxi City, Jiangsu Province Patentee before: JIANGYIN ZENKUNG FORGING Co.,Ltd. |