CN114823331A - Nitrogen-hydrogen annealing equipment for manufacturing triode device and process thereof - Google Patents

Abstract

The invention discloses nitrogen-hydrogen annealing equipment for manufacturing triode devices and a process thereof, and the nitrogen-hydrogen annealing equipment comprises an installation platform, a control box and a mobile station, wherein the control box is installed at the top of the installation platform, the installation box is installed at the top of the installation platform and is positioned on one side of the control box, an annealing box is installed inside the installation box, sliding grooves are symmetrically formed in the inner wall of the bottom of the annealing box, the mobile station is installed on the inner wall of the bottom of the annealing box through the sliding grooves, a first installation plate is installed at the top of the mobile station, a fixing groove is formed in the top of the first installation plate, a rotating shaft is installed on the inner wall of the fixing groove, a support plate is installed at the top of the rotating shaft, and a ventilation box is installed on the inner wall of the annealing box. According to the invention, one end of the triode to be annealed is placed in the fixed groove, and the other end of the triode to be annealed leans against the supporting plate and is limited by the limiting plate, so that the triode is more stable in moving.

Description

Nitrogen-hydrogen annealing equipment for manufacturing triode device and process thereof

Technical Field

The invention relates to the technical field of triode device manufacturing, in particular to nitrogen-hydrogen annealing equipment and a process for manufacturing a triode device.

Background

The amplification factor and the storage time are one of the most important parameters of the triode, and the amplification factor should be as high as possible so as to obtain the maximum working current with the minimum base current and give the lowest possible saturation voltage, which simultaneously reduces the loss in the output and drive circuits, but the amplification factor must be limited in consideration of the switching speed and the current tolerance, so that the amplification factor must be strictly controlled in the daily production process.

The defects of the existing nitrogen-hydrogen annealing equipment and the process thereof are as follows:

1. patent document CN215725065U discloses a box annealing stove, "including box annealing stove body, be equipped with the base on box annealing stove body, top one side of base is equipped with the control by temperature change box, the inner wall equidistance of control by temperature change box is equipped with the control by temperature change pipe, the one end port of control by temperature change box is equipped with the chamber door, a side surface that links up with the control by temperature change box of chamber door is equipped with linking plate, be equipped with hydraulic drive hydro-cylinder between linking plate below and the control by temperature change box top, the top opposite side symmetry of base is equipped with the removal slide rail, it carries the thing groove to remove the slide rail top, be equipped with the threaded rod in the anticreep head that carries thing groove bottom, the one end of threaded rod is equipped with hydraulic drive motor, the business turn over of hydraulic drive motor drive year thing groove, this box annealing stove can be applicable to the annealing processing of different spare parts, realize automatic feeding, automatic material returned, annealing treatment is effectual. However, in this annealing furnace, when the part is processed, the part is moved without installing a stopper, and the processing of the part is affected.

2. Patent document CN205740735U discloses a box annealing furnace with high uniformity, belonging to the technical field of optical material heat treatment. The method mainly solves the problem of poor annealing uniformity in the prior annealing technology. It is mainly characterized in that: the box-type annealing furnace is a cubic box-type annealing furnace with a square horizontal section; heating elements are arranged on all the walls of the hearth of the box-type annealing furnace along the periphery, and heat conducting plates are arranged outside the heating elements; the middle part of the box-type annealing furnace hearth is provided with a three-dimensional heating column which is fixed on a rotating shaft passing through the top, and the rotating shaft is connected with a transmission device outside the furnace. The uniformity of the temperature field of the annealing furnace is greatly improved, the temperature of the product can be rapidly kept consistent with the temperature field during temperature rising and temperature lowering, and the temperature of the center and the surface of the product is more consistent. Use the utility model discloses the product of annealing, not only individual homogeneity is good, and whole stove goods all have high uniformity, are fit for being used for the annealing of high-end optical equipment's goods. However, the annealing furnace cannot be added with nitrogen-hydrogen gas, thereby influencing the annealing effect of parts.

3. Patent document CN210367787U discloses a box annealing furnace, "including the inner shell that has furnace, the work or material rest of setting in furnace, and diversion system, diversion system is including setting up at the furnace top and along the guide plate that induced drafts of vertical direction extension, be located the centrifugal fan that induced drafts the honeycomb duct top, the cover is established at the outside diversion system of centrifugal fan week side, diversion system is including the upper cover plate and the lower apron that set up for the level, be provided with the water conservancy diversion baffle that a plurality of relative centrifugal fans are the vortex form between upper cover plate and the lower apron, the upper cover plate, the lower cover plate, the water conservancy diversion baffle encloses into a plurality of horizontal water conservancy diversion passageways, diversion system is still including setting up the vertical water conservancy diversion passageway of furnace week side, be provided with heating device in the vertical water conservancy diversion passageway, furnace's inner wall still is provided with a plurality of injection pipes that extend along the horizontal direction. The box-type annealing furnace can ensure that air flow enters the hearth according to uniform flow and flow velocity, the temperature in the furnace is uniform, the heat transfer efficiency is improved, and the annealing treatment time is shortened. However, the annealing furnace cannot be suitable for various annealing parts, and the application range is low.

4. Patent document CN212725240U discloses a control by temperature change box annealing stove, "including annealing stove body, voltmeter and heat dissipation fan, the downside of annealing stove body is fixed with first rubber pad, and the outside of first rubber pad is provided with the callus on the sole, the second rubber pad is installed in the outside of annealing stove body, and the place ahead left side rotation of annealing stove body is connected with the furnace gate, the voltmeter is installed on the annealing stove body, the rear side welding of annealing stove body has the fixed plate, and the rear side integration of fixed plate is provided with the dead lever, the heat dissipation fan is fixed on the fixed plate, the inside of installing frame closely laminates there is the installation piece, the outside welding of clamping ring has the heat radiation frame. This box annealing stove of control by temperature change facilitates the transport and removes, can effectively protect the lifting point, avoids causing the injury to the annealing stove, and can effectively avoid the mechanism that dispels the heat to go up the ash that falls, and the installation and the dismantlement of being convenient for, the radiating effect can be guaranteed to convenient clearance. However, the annealing furnace is not provided with a quick exhaust pipe, and the air inside cannot be quickly exhausted after the processing is finished.

Disclosure of Invention

The present invention is directed to a nitrogen-hydrogen annealing apparatus for manufacturing triode devices and a process thereof, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a nitrogen-hydrogen annealing device for manufacturing triode devices comprises an installation platform, a control box and a mobile station, wherein the control box is installed at the top of the installation platform, the installation box is installed at the top of the installation platform and is positioned on one side of the control box, an annealing box is installed inside the installation box, sliding grooves are symmetrically formed in the inner wall of the bottom of the annealing box, and the mobile station is installed on the inner wall of the bottom of the annealing box through the sliding grooves;

a first mounting plate is mounted at the top of the mobile station, a fixing groove is formed in the top of the first mounting plate, a rotating shaft is mounted on the inner wall of the fixing groove, and a supporting plate is mounted at the top of the rotating shaft;

install the box of ventilating on the inner wall of annealing case, sealing door is installed in the front of annealing case, the internally mounted of install bin has fixed case.

Preferably, the bottom of the mounting table is symmetrically provided with supporting legs.

Preferably, a heat dissipation window is installed on one side of the control box, and a control panel is installed on the front face of the control box.

Preferably, the warning light is installed at the top of install bin, and the top of install bin is run through and is installed the blast pipe, and the outside of blast pipe is run through and is installed first solenoid valve, and the gas outlet is installed on the top of blast pipe.

Preferably, the installed part is installed to the front symmetry of annealing case, and the outside of installed part is connected with the outside of sealing door through the moving part, has seted up the mounting groove on the both sides inner wall of annealing case, and the internally mounted of mounting groove has a plurality of heating rods, and the connecting piece is installed in the front of annealing case.

Preferably, the bottom of the mobile station is symmetrically provided with sliding blocks, the sliding blocks are embedded with the inner sides of the sliding grooves, and the front surface of the mobile station is provided with a moving-out handle.

Preferably, the limiting plate is symmetrically installed on the front face of the supporting plate, the connecting rod is installed at the top of the first installing plate, and the second installing plate is installed at the top end of the connecting rod.

Preferably, the both sides through mounting of box of ventilating have the connector, and the inboard through mounting of box of ventilating has the installation shell, and the front through mounting of installation shell has a plurality of to go out the gas head.

Preferably, sealed piece is installed to one side of sealing door, and sealed piece and the inboard looks gomphosis of the feed inlet of annealing case, and the fixed plate is installed in the front of sealing door, and the threaded rod is installed through the screw thread through the one side of fixed plate, and the rolling disc is installed to the one end of the positive screw thread mouth looks gomphosis threaded rod of one end of threaded rod and connecting piece.

Preferably, the front of fixed case is installed through the bolt and is dismantled the door, install nitrogen gas transmission mechanism through the bolt on the bottom inner wall of fixed case, nitrogen gas transmission pipe is installed to nitrogen gas transmission mechanism's output, the second solenoid valve is installed in the outside of nitrogen gas transmission pipe, the one end of nitrogen gas transmission pipe is connected with the one end of connector, install hydrogen transmission mechanism on the bottom inner wall of fixed case, and hydrogen transmission mechanism is located one side of nitrogen gas transmission mechanism, hydrogen transmission pipe is installed to hydrogen transmission mechanism's output, and the one end of hydrogen transmission pipe is connected with the one end of another connector, the outside through mounting of hydrogen transmission pipe has the third solenoid valve.

Preferably, the nitrogen-hydrogen annealing equipment comprises the following processes:

s1, checking whether a position influencing use appears by workers, rotating the threaded rod by rotating the rotating disc, and opening the sealing door by outwards exerting force, wherein one end of the threaded rod leaves the connecting piece when the threaded rod rotates;

s2, after the sealing door is opened, the mobile station is moved by the moving-out handle, so as to drive the first mounting plate at the top to move out, the top of the first mounting plate and the second mounting plate are both provided with fixed grooves, the inside of the fixed grooves is provided with a support plate through a rotating shaft, the front of the support plate is symmetrically provided with limit plates, the support plate can rotate under the drive of the rotating shaft, when the support plate needs to be used, an included angle of ninety degrees is formed between the support plate and the fixed grooves through rotation, then one end of a triode needing annealing is placed in the fixed grooves, the other end of the triode needing annealing is leaned on the support plate and is limited through the limit plates, so that the triode can be more stable when moving, meanwhile, when the triode does not need to be used, the support plate can be rotated into the fixed grooves to be folded, other parts needing annealing can be used, and after the placement is finished, the triode is pushed into the annealing box, the annealing box is closed through a sealing door;

s3, controlling the annealing equipment through the control panel to enable the annealing equipment to start to operate, enabling a warning lamp at the top of the installation box to be lightened to indicate that the annealing equipment is operating, enabling a heating rod in the installation groove to be electrified, converting electric energy into heat energy through the heating rod after the heating rod is electrified, heating the inside of the annealing box, and controlling the annealing time and temperature through the control panel;

s4, before heating, a worker opens the second electromagnetic valve by using the control panel, the nitrogen transmission mechanism can transmit nitrogen, the nitrogen can enter the ventilation box through the nitrogen transmission pipe, the ventilation box is connected with the installation shell, the nitrogen can enter the installation shell, the front surface of the installation shell is provided with a plurality of gas outlet heads, the nitrogen can be discharged into the annealing box from the gas outlet heads, so that air in the annealing box is discharged, the triode can be better processed, then the third electromagnetic valve is opened, the hydrogen transmission mechanism can enter the hydrogen into the ventilation box through the hydrogen transmission pipe, and finally the hydrogen is sprayed out from the gas outlet heads, the permeability of the hydrogen is strong, the heat transmission efficiency can be improved, and the hydrogen can be quickly and uniformly contacted with the triode through being sprayed out of the plurality of gas outlet heads, so that the efficiency can be improved;

s5, after the heating of the triode is finished, the first electromagnetic valve is opened, redundant gas in the first electromagnetic valve is discharged, after the cooling of the interior of the annealing box is finished, the sealing door is opened, and the sealing door is pulled out through the moving-out handle to discharge the materials.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the first mounting plate is mounted at the top of the mobile station, the fixing groove is formed in the top of the first mounting plate, the supporting plate is mounted inside the fixing groove through the rotating shaft, the limiting plates are symmetrically mounted on the front surface of the supporting plate, the supporting plate can rotate under the driving of the rotating shaft, when the supporting plate needs to be used, an included angle of ninety degrees is formed between the supporting plate and the fixing groove through rotation, then one end of a triode needing annealing is placed in the fixing groove, and the other end of the triode needing annealing is abutted to the supporting plate and is limited through the limiting plate, so that the triode is more stable in moving.

2. According to the invention, the nitrogen transmission mechanism and the hydrogen transmission mechanism are arranged in the fixed box, the nitrogen transmission mechanism is used for transmitting nitrogen, the hydrogen transmission mechanism is used for transmitting hydrogen, and the nitrogen and the hydrogen are transmitted into the annealing box, so that the triode in the annealing box can be better processed, the transmission efficiency can be improved, and the air in the annealing box can be exhausted.

3. The support plate is movably arranged in the fixed groove through the rotating shaft, and meanwhile, when the annealing device is not required to be used, the support plate can be rotated into the fixed groove to be folded, so that other parts needing annealing can be used, the annealing device can be suitable for processing more parts, and meanwhile, the connecting rod can be disassembled, so that the second mounting plate can be taken down, and a space is provided for processing other parts.

4. According to the invention, the exhaust pipe penetrates through the top of the installation box, the first electromagnetic valve is installed on the outer side of the exhaust pipe, the exhaust pipe can be opened through the first electromagnetic valve, and the bottom end of the exhaust pipe penetrates through the inner wall of the top of the annealing box, so that gas and heat in the annealing box can be rapidly exhausted.

Drawings

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

FIG. 2 is a schematic view of the control box of the present invention;

FIG. 3 is a schematic view of an exhaust pipe structure according to the present invention;

FIG. 4 is a schematic view of the internal structure of the first mounting plate of the present invention;

FIG. 5 is a schematic view of the structure at position A of the present invention;

FIG. 6 is a schematic view of the construction of the venting box of the present invention;

FIG. 7 is a schematic view of the sealing door of the present invention;

fig. 8 is a schematic structural view of the fixing box of the present invention.

In the figure: 1. an installation table; 101. supporting legs; 2. a control box; 201. a heat dissipation window; 202. a control panel; 3. installing a box; 301. a warning light; 302. an exhaust pipe; 303. a first solenoid valve; 304. an air outlet; 4. an annealing box; 401. a mounting member; 402. mounting grooves; 403. a heating rod; 404. a chute; 405. a connecting member; 5. a mobile station; 501. a slider; 502. removing the handle; 6. a first mounting plate; 601. fixing grooves; 602. a rotating shaft; 603. a support plate; 604. a limiting plate; 605. a connecting rod; 606. a second mounting plate; 7. a ventilation box; 701. a connecting port; 702. mounting a shell; 703. an air outlet head; 8. a sealing door; 801. a sealing block; 802. a fixing plate; 803. a threaded rod; 804. rotating the disc; 9. a fixed box; 901. disassembling the door; 902. a nitrogen gas transmission mechanism; 903. a nitrogen conveying pipe; 904. a second solenoid valve; 905. a hydrogen gas transmission mechanism; 906. a hydrogen gas transmission pipe; 907. and a third solenoid valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be a fixed connection or a movable connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-4, an embodiment of the present invention is provided: a nitrogen-hydrogen annealing apparatus for triode device fabrication;

the device comprises an installation platform 1, a control box 2, an installation box 3, an annealing box 4 and a mobile station 5, wherein the control box 2 is installed at the top of the installation platform 1, supporting legs 101 are symmetrically installed at the bottom of the installation platform 1, a heat dissipation window 201 is installed at one side of the control box 2, a control panel 202 is installed on the front surface of the control box 2, the installation box 3 is installed at the top of the installation platform 1, the installation box 3 is located at one side of the control box 2, a warning lamp 301 is installed at the top of the installation box 3, an exhaust pipe 302 is installed at the top of the installation box 3 in a penetrating mode, a first electromagnetic valve 303 is installed at the outer side of the exhaust pipe 302 in a penetrating mode, an air outlet 304 is installed at the top end of the exhaust pipe 302, the installation platform 1 provides installation positions for the installation box 3 and the control box 2 at the top to enable the installation to be installed, the supporting legs 101 play a supporting role and are used for improving the height of the device, the control box 2 provides installation positions for control elements, the annealing device can be installed, the heat dissipation window 201 plays a role in heat dissipation, heat which can be generated behind the control box 2 can be dissipated, the control panel 202 is used for controlling the annealing device and is convenient for workers to operate, the installation box 3 provides installation positions for the annealing box 4 and the fixed box 9 and enables the annealing device to be installed and to start to operate, the warning lamp 301 at the top of the installation box 3 is lightened to indicate that the annealing device is operating, the exhaust pipe 302 provides a space for heat and gas in the annealing box 4 to be exhausted, the first electromagnetic valve 303 plays a role in controlling the opening and closing of the exhaust pipe 302, the gas outlet 304 enables gas to be exhausted, the annealing box 4 is installed inside the installation box 3, the inner wall at the bottom of the annealing box 4 is symmetrically provided with sliding grooves 404, the installation pieces 401 are symmetrically installed on the front side of the annealing box 4, and the outer side of the installation pieces 401 is connected with the outer side of the sealing door 8 through a moving piece, the inner walls of two sides of the annealing box 4 are provided with mounting grooves 402, a plurality of heating rods 403 are mounted inside the mounting grooves 402, a connecting piece 405 is mounted on the front surface of the annealing box 4, a moving platform 5 is mounted on the inner wall of the bottom of the annealing box 4 through a sliding groove 404, sliding blocks 501 are symmetrically mounted at the bottom of the moving platform 5, the sliding blocks 501 are embedded with the inner side of the sliding groove 404, a moving-out handle 502 is mounted on the front surface of the moving platform 5, the annealing box 4 provides a space for annealing of the triode and also provides a mounting position for an annealing structure, the mounting piece 401 provides a position for movable mounting of the sealing door 8, the mounting grooves 402 provide a space for mounting of the heating rods 403, the heating rods 403 can convert electric energy into kinetic energy after being electrified, so that the internal temperature of the annealing box 4 is increased, the triode is annealed, the sliding grooves 404 provide a space for sliding of the sliding blocks 501, and also have a guiding function, the connecting piece 405 provides a position for fixing the threaded rod 803, the mobile station 5 provides a mounting position for the first mounting plate 6, so that the mobile station can be mounted, the sliding block 501 is embedded with the inside of the sliding groove 404, so that the mobile station 5 moves more stably, and the moving-out handle 502 provides a position for moving out the mobile station 5, so that a worker can pull out or push the mobile station 5 conveniently.

Referring to fig. 4 and 5, an embodiment of the present invention: a nitrogen-hydrogen annealing apparatus for triode device fabrication;

the device comprises a first mounting plate 6, a first mounting plate 6 is mounted at the top of a mobile station 5, a fixing groove 601 is formed in the top of the first mounting plate 6, a rotating shaft 602 is mounted on the inner wall of the fixing groove 601, a supporting plate 603 is mounted at the top of the rotating shaft 602, a limiting plate 604 is symmetrically mounted on the front surface of the supporting plate 603, a connecting rod 605 is mounted at the top of the first mounting plate 6, a second mounting plate 606 is mounted at the top end of the connecting rod 605, the first mounting plate 6 is a position where the fixing groove 601 is formed, a triode is placed in the fixing groove 601, the supporting plate 603 can rotate under the driving of the rotating shaft 602, when the supporting plate 603 needs to be used, an included angle of ninety degrees is formed between the rotating plate and the fixing groove 601, then one end of the triode to be annealed is placed in the fixing groove 601, one end of the triode leans against the supporting plate 603 and is limited through the limiting plate 604, and therefore the triode is more stable when moving, meanwhile, when the triode is not required to be used, the supporting plate 603 can be rotated into the fixing groove 601 for being folded, so that other parts needing annealing can be used, and the top of the second mounting plate 606 is also provided with a supporting device of the triode and can also support the triode.

Referring to fig. 6-8, an embodiment of the present invention is provided: a nitrogen-hydrogen annealing apparatus for triode device fabrication;

the device comprises an air ventilation box 7, a sealing door 8 and a fixed box 9, wherein the air ventilation box 7 is installed on the inner wall of an annealing box 4, connecting ports 701 are installed on two sides of the air ventilation box 7 in a penetrating manner, an installation shell 702 is installed on the inner side of the air ventilation box 7 in a penetrating manner, a plurality of air outlet heads 703 are installed on the front surface of the installation shell 702 in a penetrating manner, the sealing door 8 is installed on the front surface of the annealing box 4, a sealing block 801 is installed on one side of the sealing door 8, the sealing block 801 is embedded with the inner side of a feed port of the annealing box 4, a fixed plate 802 is installed on the front surface of the sealing door 8, a threaded rod 803 is installed on one side of the fixed plate 802 in a penetrating manner through threads, a rotating disc 804 is installed at one end of the threaded rod 803 and one end of the threaded rod 803 embedded with the front surface thread port of a connecting piece 405, the air ventilation box 7 is connected with the installation shell 702, nitrogen can enter the installation shell 702, a plurality of air outlet heads 703 are installed on the front surface of the installation shell 702, and can be discharged into the annealing box 4 from the air outlet heads 703, thereby the air in the annealing box 4 is discharged, the sealing door 8 is used for sealing the annealing box 4, so that the air can not enter the annealing box 4, the sealing block 801 plays a sealing role, the fixing plate 802 provides a position for installing the threaded rod 803, the threaded rod 803 is rotated by rotating the rotating disc 804, when the threaded rod 803 is rotated, one end of the threaded rod 803 leaves the connecting piece 405, the rotating disc 804 provides a position for the worker to rotate the threaded rod 803, so that the worker can more conveniently rotate, the fixed box 9 is installed inside the installation box 3, the front surface of the fixed box 9 is provided with the detaching door 901 by bolts, the inner wall of the bottom of the fixed box 9 is provided with the nitrogen transmission mechanism 902 by bolts, the output end of the nitrogen transmission mechanism 902 is provided with the nitrogen transmission pipe 903, the outer side of the nitrogen transmission pipe 903 is provided with the second electromagnetic valve 904, one end of the nitrogen transmission pipe 903 is connected with one end of the connecting port 701, the inner wall of the bottom of the fixed box 9 is provided with a hydrogen transmission mechanism 905, the hydrogen transmission mechanism 905 is positioned on one side of the nitrogen transmission mechanism 902, the output end of the hydrogen transmission mechanism 905 is provided with a hydrogen transmission pipe 906, one end of the hydrogen transmission pipe 906 is connected with one end of the other connector 701, the outer side of the hydrogen transmission pipe 906 is provided with a third electromagnetic valve 907 in a penetrating way, the fixed box 9 provides installation positions for the nitrogen transmission mechanism 902 and the hydrogen transmission mechanism 905 to enable the nitrogen transmission mechanism 902 and the hydrogen transmission mechanism to be installed, the nitrogen transmission mechanism 902 can transmit nitrogen by opening the second electromagnetic valve 904, the nitrogen can enter the nitrogen transmission pipe 903, the nitrogen transmission pipe 903 provides a space for transmitting the nitrogen, so that the nitrogen can enter the ventilation box 7, the dismounting door 901 can be dismounted, a worker can conveniently maintain internal equipment, and the hydrogen transmission mechanism 905 can transmit the hydrogen, the third solenoid valve 907 may open the hydrogen delivery tube 906, hydrogen may be delivered, and the hydrogen delivery tube 906 provides a space for the delivery of hydrogen to enter the aeration cartridge 7.

The nitrogen-hydrogen annealing equipment comprises the following processes:

s1, firstly, checking whether the annealing equipment has a position influencing use by workers, rotating the threaded rod 803 by rotating the rotating disc 804, and when the threaded rod 803 rotates, one end of the threaded rod 803 leaves the connecting piece 405 to open the sealing door 8 by outwards exerting force;

s2, after the sealing door 8 is opened, the mobile station 5 is moved by the moving-out handle 502, so as to drive the first mounting plate 6 at the top to move out, the top of the first mounting plate 6 and the second mounting plate 606 are both provided with fixing grooves 601, the inside of the fixing grooves 601 is provided with a supporting plate 603 through a rotating shaft 602, the front surface of the supporting plate 603 is symmetrically provided with limiting plates 604, the supporting plate 603 can rotate under the drive of the rotating shaft 602, when the supporting plate 603 needs to be used, an included angle of ninety degrees is formed between the supporting plate and the fixing grooves 601 through rotation, then one end of the triode needing to be annealed is placed in the fixing grooves 601, one end of the triode leans against the supporting plate 603 and is limited through the limiting plates 604, so that the triode is more stable when moving, meanwhile, when the supporting plate 603 can be rotated to the fixing grooves 601 to be retracted, so that other parts needing annealing can also be used, after the placement is completed, it is pushed into the annealing box 4, and the annealing box 4 is closed by the sealing door 8;

s3, controlling the annealing equipment through the control panel 202 to start the operation of the annealing equipment, lighting the warning light 301 on the top of the installation box 3 to indicate that the annealing equipment is operating, energizing the heating rod 403 in the installation groove 402, converting the electric energy into heat energy by the heating rod 403 after energizing, heating the inside of the annealing box 4, and controlling the annealing time and temperature through the control panel 202;

s4, before starting heating, the worker opens the second solenoid valve 904 by using the control panel 202, so that the nitrogen gas transmission mechanism 902 transmits the nitrogen gas, the nitrogen gas is introduced into the ventilation box 7 through the nitrogen gas transmission pipe 903, the venting box 7 is interconnected with the mounting housing 702, allowing nitrogen gas to enter the mounting housing 702, a plurality of gas outlets 703 are installed on the front surface of the installation case 702, nitrogen gas is discharged from the gas outlets 703 to the annealing chamber 4, thereby exhausting the air in the annealing box 4, leading the triode to be processed better, then the third electromagnetic valve 907 is opened, so that the hydrogen transmission mechanism 905 can make the hydrogen enter into the ventilation box 7 through the hydrogen transmission pipe 906, and finally the hydrogen is sprayed out from the gas outlet head 703, so that the permeation capability of the hydrogen is strong, the heat transfer efficiency can be improved, and the heat transfer liquid can be quickly and uniformly contacted with the triode by being sprayed out of the plurality of gas outlets 703, so that the efficiency can be improved;

s5, after the triode is heated, the first electromagnetic valve 303 is opened, redundant gas in the first electromagnetic valve is discharged, and after the annealing box 4 is cooled, the sealing door 8 is opened and pulled out through the moving-out handle 502 to discharge.

The working principle is as follows: before using the nitrogen-hydrogen annealing equipment for manufacturing triode devices, whether the nitrogen-hydrogen annealing equipment for manufacturing triode devices has the problem of influencing use or not is checked, firstly, the nitrogen-hydrogen annealing equipment for manufacturing triode devices is placed at a position to be used, the turnplate 804 is rotated to open the sealing door 8, the mobile station 5 is moved out, the triode to be processed is placed in the fixing groove 601 and is supported by the supporting plate 603, the limiting plate 604 can limit the triode to be more stable, the triode has more area to be heated and processed, the annealing equipment is controlled by the control panel 202 to start to operate, the warning lamp 301 at the top of the installation box 3 can be lightened to indicate that the annealing equipment is in operation, the heating rod 403 in the installation groove 402 can be electrified, the heating rod 403 can convert electric energy into heat energy after being electrified, heat the inside of the annealing chamber 4, and control the annealing time and temperature through the control panel 202.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (11)

1. A nitrogen-hydrogen annealing equipment for triode device manufacture comprises an installation platform (1), a control box (2) and a mobile station (5), and is characterized in that: the top of the mounting platform (1) is provided with a control box (2), the top of the mounting platform (1) is provided with a mounting box (3), the mounting box (3) is located on one side of the control box (2), an annealing box (4) is mounted inside the mounting box (3), sliding grooves (404) are symmetrically formed in the inner wall of the bottom of the annealing box (4), and a moving platform (5) is mounted on the inner wall of the bottom of the annealing box (4) through the sliding grooves (404);

a first mounting plate (6) is mounted at the top of the mobile station (5), a fixing groove (601) is formed in the top of the first mounting plate (6), a rotating shaft (602) is mounted on the inner wall of the fixing groove (601), and a supporting plate (603) is mounted at the top of the rotating shaft (602);

install on the inner wall of annealing case (4) and lead to gas box (7), sealing door (8) are installed in the front of annealing case (4), the internally mounted of install bin (3) has fixed case (9).

2. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: the bottom of the mounting table (1) is symmetrically provided with supporting legs (101).

3. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: a heat dissipation window (201) is installed on one side of the control box (2), and a control panel (202) is installed on the front face of the control box (2).

4. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: warning light (301) are installed at the top of install bin (3), and blast pipe (302) are installed to run through at the top of install bin (3), and first solenoid valve (303) are installed to run through in the outside of blast pipe (302), and gas outlet (304) are installed on the top of blast pipe (302).

5. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: installation part (401) are installed to the front symmetry of annealing case (4), and the outside of installation part (401) is connected with the outside of sealing door (8) through the moving part, has seted up mounting groove (402) on the both sides inner wall of annealing case (4), and the internally mounted of mounting groove (402) has a plurality of heating rods (403), and connecting piece (405) are installed in the front of annealing case (4).

6. The apparatus of claim 1, wherein the apparatus comprises: the bottom of the mobile station (5) is symmetrically provided with sliding blocks (501), the sliding blocks (501) are embedded with the inner sides of the sliding grooves (404), and the front surface of the mobile station (5) is provided with a shifting-out handle (502).

7. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: limiting plate (604) are installed to the front symmetry of backup pad (603), and connecting rod (605) are installed at the top of first mounting panel (6), and second mounting panel (606) are installed on the top of connecting rod (605).

8. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: the both sides of ventilation box (7) are run through and are installed connector (701), and the inboard of ventilation box (7) is run through and is installed installation shell (702), and the front of installation shell (702) is run through and is installed a plurality of and goes out gas head (703).

9. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: sealing block (801) are installed to one side of sealing door (8), and sealing block (801) and the inboard looks gomphosis of the feed inlet of annealing case (4), and fixed plate (802) are installed in the front of sealing door (8), and threaded rod (803) are installed through the screw thread to one side of fixed plate (802), and rolling disc (804) are installed to the one end of threaded rod (803) and the one end of the positive screw thread mouth looks gomphosis threaded rod (803) of connecting piece (405).

10. The nitrogen-hydrogen annealing apparatus for triode device fabrication according to claim 1, wherein: the front of fixed case (9) is installed through the bolt and is dismantled door (901), install nitrogen gas transmission mechanism (902) through the bolt on the bottom inner wall of fixed case (9), nitrogen gas transmission pipe (903) are installed to the output of nitrogen gas transmission mechanism (902), second solenoid valve (904) are installed to the outside of nitrogen gas transmission pipe (903), the one end of nitrogen gas transmission pipe (903) is connected with the one end of connector (701), install hydrogen transmission mechanism (905) on the bottom inner wall of fixed case (9), and hydrogen transmission mechanism (905) are located one side of nitrogen gas transmission mechanism (902), hydrogen transmission pipe (906) are installed to the output of hydrogen transmission mechanism (905), and the one end of hydrogen transmission pipe (906) is connected with the one end of another connector (701), the outside of hydrogen transmission pipe (906) is run through and is installed third solenoid valve (907).

11. The process of the nitrogen-hydrogen annealing equipment for the manufacture of triode devices according to any one of claims 1 to 10, wherein the process of the nitrogen-hydrogen annealing equipment is as follows:

s1, firstly, checking whether the annealing equipment has a position influencing use by a worker, rotating the threaded rod (803) by rotating the rotating disc (804), and opening the sealing door (8) by outwards exerting force, wherein when the threaded rod (803) rotates, one end of the threaded rod (803) leaves the connecting piece (405);

s2, after the sealing door (8) is opened, the mobile station (5) is moved by moving out the handle (502), so that the first mounting plate (6) at the top is driven to move out, the top parts of the first mounting plate (6) and the second mounting plate (606) are both provided with fixing grooves (601), the inside of each fixing groove (601) is provided with a supporting plate (603) through a rotating shaft (602), the front surface of each supporting plate (603) is symmetrically provided with limiting plates (604), each supporting plate (603) can rotate under the driving of the rotating shaft (602), when the supporting plate (603) needs to be used, a ninety-degree included angle is formed between the supporting plate and the fixing groove (601) through rotation, then one end of the triode needing annealing is placed in the fixing groove (601), one end of the triode leans against the supporting plate (603) and is limited through the limiting plate (604), so that the triode is more stable when being moved and is not needed to be used, the supporting plate (603) can be rotated into the fixing groove (601) to be retracted, so that other parts needing annealing can be used, and after the parts are placed, the supporting plate is pushed into the annealing box (4), and the annealing box (4) is closed through the sealing door (8);

s3, controlling the annealing equipment through the control panel (202) to enable the annealing equipment to start to operate, enabling a warning lamp (301) on the top of the installation box (3) to be lightened to indicate that the annealing equipment is operating, enabling a heating rod (403) in the installation groove (402) to be electrified, enabling the heating rod (403) to convert electric energy into heat energy after being electrified, heating the inside of the annealing box (4), and controlling the annealing time and temperature through the control panel (202);

s4, before heating, a worker opens the second electromagnetic valve (904) by using the control panel (202), the nitrogen transmission mechanism (902) transmits nitrogen, the nitrogen enters the ventilation box (7) through the nitrogen transmission pipe (903), the ventilation box (7) is connected with the installation shell (702) to enable the nitrogen to enter the installation shell (702), the front surface of the installation shell (702) is provided with a plurality of gas outlet heads (703), the nitrogen is discharged into the annealing box (4) from the gas outlet heads (703), so that air in the annealing box (4) is discharged, the triode can be processed better, then the third electromagnetic valve (907) is opened, the hydrogen transmission mechanism (905) enables the hydrogen to enter the ventilation box (7) through the hydrogen transmission pipe (906), and finally the hydrogen is sprayed out from the gas outlet heads (703), the permeation capability of the hydrogen is strong, and the heat transfer efficiency can be improved, the gas is sprayed out of the gas outlet heads (703), so that the gas can be quickly and uniformly contacted with the triode, and the efficiency can be improved;

s5, after the triode is heated, the first electromagnetic valve (303) is opened, redundant gas in the first electromagnetic valve is discharged, the sealing door (8) is opened after the annealing box (4) is cooled, and the sealing door is pulled out through the moving-out handle (502) to discharge.

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