CN114686667A

CN114686667A - A intelligent thermal treatment production line for metal can production

Info

Publication number: CN114686667A
Application number: CN202210205031.5A
Authority: CN
Inventors: 麦文华
Original assignee: Shenzhen Meixinlong Can Co ltd
Current assignee: Shenzhen Meixinlong Can Co ltd
Priority date: 2022-03-02
Filing date: 2022-03-02
Publication date: 2022-07-01
Anticipated expiration: 2042-03-02
Also published as: CN114686667B

Abstract

The invention discloses an intelligent heat treatment production line for metal can production, and relates to the technical field of heat treatment. This an intelligent heat treatment production line for metal can production, the electric putter design that is provided with through external support frame outside can drive anchor clamps and carry out the removal of position, can carry out automatic last unloading processing to placing the metal can that the required position that carries on that places board and fixed placing plate surface removed simultaneously, need not user manual operation, can be according to the required automatic operation of user, and heat treatment cavity utilizes the design of heating baffle, be favorable to the user to classify according to the model size of metal can and place.

Description

A intelligent thermal treatment production line for metal can production

Technical Field

The invention relates to the technical field of intelligent heat treatment production lines, in particular to an intelligent heat treatment production line for metal can production.

Background

That is, the heat treatment is to heat a metal material to a certain temperature, keep the temperature for a certain time, and then cool the metal material to room temperature or lower at a certain rate, so as to improve the texture of the material and obtain a material with excellent properties.

The existing metal can heat treatment has the problems that the redundant heat emitted out cannot be collected in the using process, the metal can cannot be cooled in an auxiliary mode, and a user cannot take and place metal pipes conveniently.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent heat treatment production line for metal can production, which solves the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: an intelligent heat treatment production line for metal can production comprises a middle-placed heat insulation cover and a second barrier piece, wherein an auxiliary cavity is arranged outside the middle-placed heat insulation cover, a first connecting pipe is arranged inside the auxiliary cavity, a water pump is arranged at one end outside the first connecting pipe, a second connecting pipe is arranged at one end, away from the first connecting pipe, of the water pump, a fastening cover is arranged on the inner thread of the second connecting pipe, an external support frame is arranged outside the rear end of the auxiliary cavity, an internal disk body is rotatably arranged inside the external support frame, a placing groove is arranged inside the internal disk body, a placing plate is arranged inside the placing groove, an electric push rod is connected to the outer surface of the external support frame, a clamp is arranged at the tail end of the electric push rod, a heat insulation cavity is arranged at one end, away from the electric push rod, of the surface of the external support frame, and the first barrier piece is annularly arranged inside the heat insulation cavity, the heating device is characterized in that a heating column is mounted on the outer portion of the rear end of the middle heat insulation cover, a heating partition plate is connected to the outer surface of the heating column, a heat treatment cavity is formed in the outer portion of the heating partition plate, and the second blocking piece is annularly arranged inside the heat treatment cavity.

Furthermore, the inside of second separation spare is provided with the auxiliary assembly who is used for carrying out control to heat treatment chamber open state, and auxiliary assembly includes first hydraulic pressure gas pole, switching piece, first baffler board and second baffler board, the end connection of first hydraulic pressure gas pole has the switching piece, and the bottom of switching piece is provided with first baffler board, second baffler board is installed to the rear end of first baffler board.

Further, be parallel to each other between second separation board and the first separation board, and the vertical axis of first separation board and first hydraulic pressure gas pole coincides mutually to first hydraulic pressure gas pole is provided with two.

Furthermore, the auxiliary assembly is annularly distributed about the center of the heating column, and the heating column and the heating partition plate are of an integrated structure.

Furthermore, the shape of the built-in tray body and the heat preservation cavity are both circular structures, and the diameter of the built-in tray body is larger than that of the heat preservation cavity.

Furthermore, the placing grooves and the placing plates are distributed in a one-to-one correspondence mode, and the fixed placing plates are arranged on the built-in disc body at intervals relative to the center of the placing plates.

Further, the bottom surface of placing the board is provided with the adjustment subassembly that is used for carrying out height adjustment, and the adjustment subassembly includes set board, dead lever, second hydraulic pressure pneumatic pole and links up the bottom plate, the dead lever is installed to the lower extreme of set board, and the bottom of dead lever is provided with second hydraulic pressure pneumatic pole, the terminal surface mounting of second hydraulic pressure pneumatic pole has the linking bottom plate.

Further, place for the one-to-one distribution between board and dead lever and the second hydraulic pressure pneumatic rod, and second hydraulic pressure pneumatic rod and link up mutually perpendicular between the bottom plate.

Furthermore, the bottom of the connecting bottom plate is provided with a connecting shaft, and the lower end of the connecting shaft is provided with a servo motor.

Furthermore, the interior of the auxiliary cavity is of a hollow structure, and the auxiliary cavity and the middle heat insulation cover are located at different height levels.

The invention provides an intelligent heat treatment production line for metal can production, which has the following beneficial effects:

can automatically carry out feeding and discharging treatment on the metal cans when the metal cans are subjected to heat treatment, the whole heat treatment production line adopts a partition surrounding type design, a heat treatment heating area is positioned in the middle of the whole heat treatment, and a heat preservation area and a cooling area are designed in an outward diffusion type mode, thereby protecting the heat treatment heating area and simultaneously performing heat insulation protection, avoiding the user from contacting the heat treatment area of the metal can, reducing the potential safety hazard, facilitating the heat treatment operation, the automatic feeding and discharging device can automatically feed and discharge metal cans, can continuously provide a placing plane for the metal cans, is convenient for independently feeding and discharging the single metal can, can independently and integrally control the metal cans according to the use requirement, and when the metal tank is subjected to heat treatment, the temperature can be reduced or the heat preservation treatment can be performed according to the design of using water in the auxiliary cavity.

1. According to the intelligent heat treatment production line for metal can production, the whole heat treatment production line is designed in a partitioned surrounding mode through the built-in disc body, the heat preservation cavity, the position of the heat treatment cavity and the shape distribution, the heat treatment heating region is located in the middle of the whole heat treatment, and the heat preservation region and the cooling region are designed in an external diffusion mode, so that the heat treatment heating region can be protected and protected at the same time, a user is prevented from contacting the heat treatment region of the metal can, potential safety hazards are reduced, heat treatment operation is facilitated, and the proper heat treatment region can be selected conveniently according to the heat treatment temperature;

2. the intelligent heat treatment production line for metal can production is characterized in that the interior of an auxiliary cavity is hollow and is stored with cooling water, meanwhile, the height of the auxiliary cavity rises towards the center of a middle-arranged heat insulation cover and is connected with a water pump through a first connecting pipe, so that when the whole heat treatment production line needs to be cooled, water can be filled into the interior of the whole auxiliary cavity by using the first connecting pipe and the water pump, the heat generated by the heat treatment production line can be collected by absorbing heat with water, when the built-in disc body and the heat insulation cavity need to be locally insulated and radiated, the interior of the auxiliary cavity can be locally injected with water, the heat insulation area and the cooling area of the metal can are ensured to be adapted under the working state without influencing the heat treatment cavity, and the heat treatment of the metal can is facilitated;

3. the intelligent heat treatment production line for metal can production has the advantages that the internal structures of the first barrier piece and the second barrier piece are consistent, so that when the metal can is charged and discharged, the first barrier plate can be driven to move up and down by the aid of the design of the first hydraulic air rod, the metal can be moved, the first barrier plate and the second barrier plate can be independently controlled by the design of the number of the first hydraulic air rods, the second barrier plate can be closed by the design of the first hydraulic air rod when the metal can is taken out of a heat treatment cavity, the metal can is located between the two barrier plates at the moment, heat loss in the heat treatment cavity is reduced, and stability during heat treatment of the metal can is guaranteed;

4. according to the intelligent heat treatment production line for metal can production, the placing plate on the outer surface of the assembling plate can be driven to move up and down in the placing groove through the design of the second hydraulic air rod, a user can place a metal can to be subjected to heat treatment in the placing plate conveniently, the assembling plate connected with the placing plate can rotate through the interaction of the connecting shaft and the servo motor, so that the placing plate inserted into the placing groove can drive the built-in disc body to rotate in the external support frame, the positions between the placing plate and the fixed placing plate can be adjusted, a placing plane for the metal can be provided uninterruptedly, feeding and discharging of the single metal can be conveniently and independently performed, and selective control can be performed independently and integrally according to use requirements;

5. this an intelligence thermal treatment production line for metal can production, the electric putter design that is provided with through external support frame outside can drive anchor clamps and carry out the removal of position, can carry out automatic last unloading processing to placing the metal can that the required position that carries on that places board and fixed placing plate surface removed simultaneously, need not user manual operation, can be according to the required automatic operation of user, and the design of thermal treatment chamber utilization heating baffle, be favorable to the user to classify according to the model size of metal can and place.

Drawings

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

FIG. 2 is a schematic top view of a partial internal structure of the present invention;

FIG. 3 is a schematic view of a front view of a second barrier according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

fig. 5 is a schematic view of the connection structure of the placement board of the present invention.

In the figure: 1. a heat insulation cover is arranged in the middle; 2. an auxiliary chamber; 3. a first connecting pipe; 4. a water pump; 5. a second connecting pipe; 6. a fastening cover; 7. an external support frame; 8. a disc body is arranged inside; 9. a heat preservation cavity; 10. a first barrier; 11. a second barrier; 12. a thermal processing chamber; 13. heating the column; 14. heating the partition plate; 15. an auxiliary component; 1501. a first hydraulic gas lever; 1502. a transfer block; 1503. a first barrier plate; 1504. a second barrier panel; 16. an electric push rod; 17. a clamp; 18. a placement groove; 19. placing the plate; 20. an adjustment assembly; 2001. a collection plate; 2002. fixing the rod; 2003. a second hydraulic gas lever; 2004. connecting the bottom plates; 21. a connecting shaft; 22. a servo motor; 23. and fixing the placing plate.

Detailed Description

Referring to fig. 1 to 5, the present invention provides a technical solution: an intelligent heat treatment production line for metal can production comprises a middle-placed heat insulation cover 1, an auxiliary cavity 2, a first connecting pipe 3, a water pump 4, a second connecting pipe 5, a fastening cover 6, an external support frame 7, an internal disc body 8, a heat preservation cavity 9, a first blocking part 10, a second blocking part 11, a heat treatment cavity 12, a heating column 13, a heating partition plate 14, an auxiliary component 15, a first hydraulic gas rod 1501, a switching block 1502, a first blocking plate 1503, a second blocking plate 1504, an electric push rod 16, a clamp 17, a placing groove 18, a placing plate 19, an adjusting component 20, an assembling plate 2001, a fixing rod 2002, a second hydraulic gas rod 2003, a linking bottom plate 2004, a connecting shaft 21, a servo motor 22 and a fixed placing plate 23, wherein the auxiliary cavity 2 is arranged outside the middle-placed heat insulation cover 1, the first connecting pipe 3 is arranged inside the auxiliary cavity 2, the auxiliary cavity 2 is of a hollow structure, and the auxiliary cavity 2 and the middle-placed heat insulation cover 1 are located on horizontal planes with different heights, a water pump 4 is arranged at one end of the outer part of the first connecting pipe 3, a second connecting pipe 5 is arranged at one end of the water pump 4 far away from the first connecting pipe 3, a fastening cover 6 is arranged on the inner thread of the second connecting pipe 5, an external support frame 7 is arranged on the outer part of the rear end of the auxiliary cavity 2, an internal disk body 8 is rotatably arranged in the external support frame 7, a placing groove 18 is arranged in the internal disk body 8, a placing plate 19 is arranged in the placing groove 18, an electric push rod 16 is connected to the outer surface of the external support frame 7, a clamp 17 is arranged at the tail end of the electric push rod 16, a heat preservation cavity 9 is arranged at one end of the surface of the external support frame 7 far away from the electric push rod 16, a first barrier 10 is annularly arranged in the heat preservation cavity 9, a heating column 13 is arranged at the outer part of the rear end of the heat insulation cover 1, a heating partition plate 14 is connected to the outer surface of the heating column 13, a heat treatment cavity 12 is arranged outside the heating partition plate 14, the second barrier 11 is annularly arranged inside the heat treatment cavity 12;

specific operation is as follows, the inside cavity in supplementary chamber 2 and deposited the cooling water, supplementary chamber 2 highly to the center of putting in separating heat exchanger 1 simultaneously risees, and be connected with water pump 4 through first connecting pipe 3, thereby can be when needing to cool down to whole heat treatment line, usable first connecting pipe 3 makes water sufficient to whole supplementary chamber 2 inside with water pump 4, with this can protect the heat treatment line in, can utilize the water heat absorption to collect the heat that gives off, can keep warm and when dispelling the heat to built-in disk body 8 and heat preservation chamber 9 in need part, can carry out local water injection to the inside in supplementary chamber 2 and handle, guarantee to carry out the assistance that adapts to the heat preservation region and the cooling region of metal can under the operating condition that does not influence heat treatment chamber 12, be favorable to carrying out thermal treatment to the metal can.

As shown in fig. 2 and 3, an auxiliary assembly 15 for controlling the opening state of the thermal processing chamber 12 is disposed inside the second blocking member 11, and the auxiliary assembly 15 includes a first hydraulic air rod 1501, a transfer block 1502, a first blocking plate 1503 and a second blocking plate 1504, the transfer block 1502 is connected to the end of the first hydraulic air rod 1501, the first blocking plate 1503 is disposed at the bottom of the transfer block 1502, the second blocking plate 1504 is mounted at the rear end of the first blocking plate 1503, the second blocking plate 1504 and the first blocking plate 1503 are parallel to each other, the first blocking plate 1503 and the vertical central axis of the first hydraulic air rod 1501 coincide, and two first hydraulic air rods 1501 are disposed;

first barrier 10 is unanimous with the inner structure of second barrier 11, thereby can be when going on unloading to the metal can, the design of usable first hydraulic pressure gas pole 1501 drives first barrier plate 1503 and carries out the removal of position from top to bottom, thereby can make the metal can remove, and the design of first hydraulic pressure gas pole 1501 quantity can carry out independent control to first barrier plate 1503 and second barrier plate 1504, thereby can be when taking out the metal can from heat treatment chamber 12 is inside, usable first hydraulic pressure gas pole 1501's design is closed second barrier plate 1504, the metal can is located between above-mentioned two barrier plates this moment, the inside thermal loss in heat treatment chamber 12 has been reduced, guarantee the stability when carrying out heat treatment to the metal can.

As shown in fig. 2, the auxiliary assemblies 15 are distributed annularly about the center of the heating column 13, and the heating column 13 and the heating partition 14 are of an integrated structure;

the electric push rod 16 design that is provided with through external support frame 7 outside can drive anchor clamps 17 and carry out the removal of position, can carry out automatic last unloading to placing the metal can that the required position that carries on that places board 19 and fixed 23 surfaces removed simultaneously and handle, need not user manual operation, can be according to the required automatic operation of user, and heat treatment chamber 12 utilizes the design of heating baffle 14, is favorable to the user to classify according to the model size of metal can and places.

As shown in fig. 1 and 2, the built-in tray body 8 and the heat preservation cavity 9 are both in a circular ring structure, and the diameter of the built-in tray body 8 is larger than that of the heat preservation cavity 9;

through the design that built-in disk body 8 and heat preservation chamber 9 and heat treatment chamber 12 position and shape distribute, make whole heat treatment production line adopt the design of subregion surrounding type, the heat treatment heating region is located the middle part of whole heat treatment, with this to outside diffusion formula design has heat preservation region and cooling area, thereby can carry out the protection of insulating against heat when protecting the heat treatment heating region, avoid the user to contact metal can heat treatment region, reduce the potential safety hazard, be convenient for carry out the heat treatment operation, be convenient for select suitable heat treatment region according to heat treatment temperature needs.

As shown in fig. 2 and 5, the placing grooves 18 and the placing plates 19 are distributed in a one-to-one correspondence manner, the built-in tray body 8 is provided with fixed placing plates 23 at intervals about the center of the placing plates 19, the bottom surface of the placing plates 19 is provided with an adjusting assembly 20 for height adjustment, the adjusting assembly 20 comprises a collecting plate 2001, a fixing rod 2002, a second hydraulic air rod 2003 and a connecting bottom plate 2004, the fixing rod 2002 is mounted at the lower end of the collecting plate 2001, the second hydraulic air rod 2003 is arranged at the bottom of the fixing rod 2002, the connecting bottom plate 2004 is mounted at the end surface of the second hydraulic air rod 2003, the placing plates 19 and the fixing rod 2002 and the second hydraulic air rod 2003 are distributed in a one-to-one correspondence manner, the second hydraulic air rod 2003 is perpendicular to the connecting bottom plate 2004, the connecting shaft 21 is arranged at the bottom of the connecting bottom plate 2004, and the servo motor 22 is mounted at the lower end of the connecting shaft 21;

the placing plate 19 on the outer surface of the assembling plate 2001 can be driven to move up and down in the placing groove 18 through the design of the second hydraulic air rod 2003, a user can place metal cans needing to be subjected to heat treatment in the placing plate 19 conveniently, the assembling plate 2001 connected with the placing plate 19 can rotate through the interaction of the connecting shaft 21 and the servo motor 22, the placing plate 19 inserted into the placing groove 18 can drive the built-in disc body 8 to rotate in the external supporting frame 7, the positions between the placing plate 19 and the fixed placing plate 23 can be adjusted, the placing plane of the metal cans can be provided uninterruptedly, loading and unloading processing can be performed on the single metal can conveniently and independently, and selective control can be performed independently and integrally according to use requirements.

In conclusion, when the intelligent heat treatment production line for metal can production is used, the placing plate 19 on the outer surface of the assembling plate 2001 can be driven to move up and down in the placing groove 18 through the design of the second hydraulic air rod 2003, a user can conveniently place a metal can to be subjected to heat treatment in the placing plate 19, the assembling plate 2001 connected with the placing plate 19 can rotate through the interaction of the connecting shaft 21 and the servo motor 22, so that the placing plate 19 inserted into the placing groove 18 can drive the built-in disc body 8 to rotate in the external support frame 7, the position between the placing plate 19 and the fixed placing plate 23 can be adjusted, the placing plane of the metal can be provided uninterruptedly, the loading and unloading treatment of a single metal can be conveniently and independently carried out, and the independent and integral can be selectively controlled according to use requirements, then, the electric push rod 16 arranged outside the external support frame 7 is designed to drive the clamp 17 to move, meanwhile, the metal cans which are placed on the surfaces of the placing plate 19 and the fixed placing plate 23 and need to move can be automatically loaded and unloaded, manual operation of a user is not needed, the metal cans can automatically run according to the needs of the user, the heat treatment cavity 12 is designed by the heating partition plate 14, the classification placement of the user according to the sizes of the metal cans is facilitated, when the metal cans move, the internal structures of the first barrier piece 10 and the second barrier piece 11 are consistent, so that when the metal cans are loaded and unloaded, the first barrier plate 1503 can be driven to move up and down by the design of the first hydraulic air rod 1501, the metal cans can move, and the first barrier plate 1503 and the second barrier plate 1504 can be independently controlled by the design of the number of the first hydraulic air rods 1501, therefore, when the metal can is taken out from the heat treatment cavity 12, the second baffle plate 1504 can be closed by the design of the first hydraulic air rod 1501, the metal can is positioned between the two baffle plates, the loss of heat in the heat treatment cavity 12 is reduced, then the metal can be moved to the inside of the placing plate 19, then the placing plate 19 on the outer surface of the assembling plate 2001 can be driven by the design of the second hydraulic air rod 2003 to move up and down in the placing groove 18, so that the metal can be conveniently loaded and unloaded, then the inside of the auxiliary cavity 2 is hollow and is stored with cooling water, meanwhile, the height of the auxiliary middle cavity 2 is increased towards the center of the heat insulation cover 1 and is connected with the water pump 4 through the first connecting pipe 3, so that when the whole heat treatment production line is required to be cooled, the water can be filled into the whole auxiliary cavity 2 through the first connecting pipe 3 and the water pump 4, when can protect with this to the heat treatment production line, can utilize the water heat absorption to collect the heat that gives off, can keep warm and when dispelling the heat to built-in disk body 8 and heat preservation chamber 9 in the local of needs, can carry out local water injection to the inside in supplementary chamber 2 and handle, guarantee to carry out the assistance that adapts to the heat preservation region and the cooling region of metal can under the operating condition that does not influence heat treatment chamber 12, be favorable to carrying out heat treatment to the metal can, design through built-in disk body 8 and heat preservation chamber 9 and heat treatment chamber 12 position and shape distribution at last, make whole heat treatment production line adopt subregion surrounding type design, the heat treatment heating region is located the middle part of whole heat treatment, with this to the regional and cooling region of outside diffusion type design, thereby can carry out the heat preservation protection when protecting the heat treatment heating region.

Claims

1. An intelligent heat treatment production line for metal can production is characterized by comprising a middle-placed heat insulation cover (1) and a second barrier (11), wherein an auxiliary cavity (2) is arranged outside the middle-placed heat insulation cover (1), a first connecting pipe (3) is arranged inside the auxiliary cavity (2), a water pump (4) is arranged at one end of the outer portion of the first connecting pipe (3), a second connecting pipe (5) is arranged at one end, far away from the first connecting pipe (3), of the water pump (4), a fastening cover (6) is arranged on the inner thread of the second connecting pipe (5), an external support frame (7) is arranged outside the rear end of the auxiliary cavity (2), a built-in disc body (8) is rotatably arranged inside the external support frame (7), a placement groove (18) is arranged inside the built-in disc body (8), and a placement plate (19) is arranged inside the placement groove (18), the utility model discloses a heat treatment device, including external support frame (7), electric putter (16), and the end of electric putter (16) is provided with anchor clamps (17), the one end that electric putter (16) were kept away from on external support frame (7) surface installs heat preservation chamber (9), and the inside annular in heat preservation chamber (9) is provided with first separation spare (10), in put the rear end externally mounted who separates temperature cover (1) have heating post (13), and the outside surface of heating post (13) is connected with heating baffle (14), the outside of heating baffle (14) is provided with thermal treatment chamber (12), second separation spare (11) annular sets up in the inside in thermal treatment chamber (12).

2. An intelligent heat treatment production line for metal can production according to claim 1, wherein the inside of the second barrier (11) is provided with an auxiliary assembly (15) for controlling the opening state of the heat treatment cavity (12), and the auxiliary assembly (15) comprises a first hydraulic gas rod (1501), a switching block (1502), a first barrier plate (1503) and a second barrier plate (1504), the end of the first hydraulic gas rod (1501) is connected with the switching block (1502), the bottom of the switching block (1502) is provided with the first barrier plate (1503), and the rear end of the first barrier plate (1503) is provided with the second barrier plate (1504).

3. An intelligent thermal treatment line for metal can production according to claim 2, characterized in that the second barrier plate (1504) and the first barrier plate (1503) are parallel to each other, and the first barrier plate (1503) coincides with the vertical mid-axis of the first hydro-pneumatic bar (1501), and two of the first hydro-pneumatic bars (1501) are provided.

4. An intelligent thermal treatment line for metal can production according to claim 1, wherein the auxiliary components (15) are distributed annularly about the center of the heating column (13), and the heating column (13) and the heating partition (14) are of an integrated structure.

5. The intelligent heat treatment production line for metal can production according to claim 1, wherein the built-in tray body (8) and the heat preservation cavity (9) are both in the shape of a circular ring structure, and the diameter of the built-in tray body (8) is larger than that of the heat preservation cavity (9).

6. An intelligent heat treatment production line for metal can production according to claim 1, characterized in that the placing slots (18) and the placing plates (19) are distributed in a one-to-one correspondence, and the built-in tray body (8) is provided with fixed placing plates (23) with respect to the center interval of the placing plates (19).

7. The intelligent heat treatment production line for metal can production according to claim 1, wherein the bottom surface of the placing plate (19) is provided with an adjusting assembly (20) for height adjustment, and the adjusting assembly (20) comprises an aggregation plate (2001), a fixing rod (2002), a second hydraulic air rod (2003) and a joining bottom plate (2004), the fixing rod (2002) is installed at the lower end of the aggregation plate (2001), the second hydraulic air rod (2003) is arranged at the bottom of the fixing rod (2002), and the joining bottom plate (2004) is installed at the end surface of the second hydraulic air rod (2003).

8. The intelligent thermal treatment line for metal can production according to claim 7, wherein the placing plates (19) are distributed in one-to-one correspondence with the fixing bars (2002) and the second hydraulic air bars (2003), and the second hydraulic air bars (2003) are perpendicular to the joining bottom plate (2004).

9. An intelligent heat treatment production line for metal can production according to claim 7, wherein the bottom of the joining bottom plate (2004) is provided with a connecting shaft (21), and the lower end of the connecting shaft (21) is provided with a servo motor (22).

10. An intelligent thermal treatment line for metal can production according to claim 1, characterized in that the interior of the auxiliary chamber (2) is a hollow structure, and the auxiliary chamber (2) and the middle thermal shield (1) are located at different height levels.