CN118218742B - Visual double-infrared temperature measuring device and method for vacuum diffusion welding - Google Patents

Abstract

The invention discloses a visual double infrared temperature measuring device and a temperature measuring method for vacuum diffusion welding, which relate to the technical field of infrared temperature measuring devices, and are characterized in that when vacuum diffusion welding is carried out on materials, the temperature of the materials is controlled so as to ensure that the materials are successfully welded, the visual double infrared temperature measuring device comprises a vacuum diffusion welding machine, an adjusting component is arranged on the front surface of the vacuum diffusion welding machine and is used for adjusting the temperature measuring position, according to the temperature measuring device, the display screen is arranged, a worker starts the power motor in the adjusting assembly to operate through the display screen, and the worker controls the adjusting motor to operate through the display screen, so that the large rotating block can drive the real-time thermometer to adjust to a proper temperature measuring angle under the action of external force, and the adjusting assembly can facilitate the temperature measuring operation of the real-time thermometer.

Description

A visual dual infrared temperature measuring device and temperature measuring method for vacuum diffusion welding

Technical Field

The invention relates to the technical field of infrared temperature measuring devices, in particular to a vacuum diffusion welding visualized double infrared temperature measuring device and a temperature measuring method.

Background Art

Infrared temperature measuring device is one of the indispensable equipment in vacuum diffusion welding. When vacuum diffusion welding is performed on materials, the temperature of the materials needs to be controlled to ensure successful welding of the materials. The traditional welding process is in a closed state and the temperature measurement requirements of specific positions of the product cannot be adjusted at any time as required, which makes it inconvenient to perform temperature measurement.

The defects of existing infrared temperature measuring devices are:

Patent document: JP5921282B2 discloses an infrared temperature measuring device, which mainly considers high-precision temperature measurement and ensures the design freedom of installing the infrared temperature measuring device in the heating cooker, but does not consider the problem of convenient adjustment of the temperature measuring position of the infrared temperature measuring device and inconvenience in temperature measurement.

Patent document: US8466797B2, discloses a handheld infrared temperature measuring device that displays images and temperature simultaneously. It mainly considers the ability to perform fast and accurate temperature measurement, but does not consider the problem of how to clean stains on the thermometer lens.

3. Patent document: CN112067135B, discloses a dual-mode infrared temperature measuring device, which mainly considers being able to remind the staff to operate the environment switching module to switch the working mode of the infrared temperature measuring module, thereby avoiding the problem of how to conveniently replace and repair the thermometer when the external environment changes.

4. Patent document: CN111623885B, discloses an infrared temperature measurement device and an infrared temperature measurement method, which mainly considers improving the accuracy of measurement, but does not consider how to protect the display screen.

Summary of the invention

The object of the present invention is to provide a vacuum diffusion welding visualized dual infrared temperature measuring device and a temperature measuring method to solve the problems raised in the above background technology.

To achieve the above object, the present invention provides the following technical solutions: a vacuum diffusion welding visualized dual infrared temperature measuring device and temperature measuring method, comprising a vacuum diffusion welding machine, wherein an adjustment component is installed on the front of the vacuum diffusion welding machine, and the adjustment component is used to adjust the temperature measuring position;

The adjusting component comprises a long shell, one side of which is penetrated with an opening, a power motor is installed at the top of the long shell, and the output end of the power motor penetrates the top of the long shell, a screw rod is installed at the bottom of the output end of the power motor, and the screw rod penetrates the bottom of the long shell, a threaded block is installed on the outer thread of the screw rod, and the threaded block is located on the inner side of the long shell, a connecting block is installed on one side of the threaded block, and the connecting block is located on the inner side of the opening, a semicircular shell is installed on one side of the connecting block, an adjusting motor is installed at the top of the semicircular shell, and the output end of the adjusting motor penetrates the top of the semicircular shell, and a large rotating block is installed at the bottom of the output end of the adjusting motor.

Preferably, a welding table is installed on the inner side of the vacuum diffusion welding machine, six heating rods are installed on the inner wall of the vacuum diffusion welding machine, and the heating rods are used to provide heat for the inner side of the vacuum diffusion welding machine, a telescopic cylinder is installed on the top of the vacuum diffusion welding machine, and the telescopic end of the telescopic cylinder passes through the top of the vacuum diffusion welding machine, a pressing block is installed on the bottom of the telescopic end of the telescopic cylinder, and the pressing block is located on the inner side of the vacuum diffusion welding machine, a part of a huge hinge is installed on the front of the vacuum diffusion welding machine, a sealing door is installed on one side of the other part of the huge hinge, and the sealing door is located on the front of the vacuum diffusion welding machine, a control cabinet is installed on one side of the vacuum diffusion welding machine, a control panel is installed on the front of the cabinet door of the control cabinet, a display screen is inlaid on the front of the sealing door, and a monitor is installed on the back of the sealing door;

The control cabinet is electrically connected to the vacuum diffusion welding machine, the heating rod, the telescopic cylinder and the display screen respectively. At the same time, the display screen is electrically connected to the automatic lock and the monitor of the sealed door respectively. The control cabinet sends a control signal, so that the vacuum diffusion welding machine receives the control signal to operate, the heating rod receives the control signal to perform heating, the telescopic cylinder receives the control signal to perform telescopic activities, and the display screen receives the control signal to open.

Preferably, a disassembly and assembly component is inlaid on the back of the sealing door, and the disassembly and assembly component is used to facilitate the disassembly and assembly of the temperature measuring device. The disassembly and assembly component includes an empty shell, and the empty shell is inlaid on the back of the sealing door, two first springs are installed on the inner side of the empty shell, a push plate is installed on one side of the two first springs, and the push plate is located on the inner side of the empty shell, a short shell is installed on the inner side of the top wall and the inner side of the bottom wall of the empty shell, a sliding block is installed on the inner side of the short shell, a fixing plate is installed on one side of the sliding block, a screw is installed on the inner thread of the fixing plate, a supporting plate is installed on the outer thread of the screw, and the supporting plate is located on one side of the fixing plate, a mounting plate is installed on one side of the two supporting plates, and the mounting plate is located on one side of the long shell, two side blocks are installed on each side of the empty shell, a fastening bolt is installed on the inner thread of the side block, a blocking block is installed on the outer side of the fastening bolt, and the blocking block is located on one side of the side block.

Preferably, a stabilizing block is installed on one side of the mounting plate, and the stabilizing block is located at the bottom of the long shell, a temperature measuring thermocouple is installed on one side of the stabilizing block, and a calibration thermometer is installed on one side of the stabilizing block, and the calibration thermometer is located on the inner side of the temperature measuring thermocouple;

The display screen is electrically connected to the temperature measuring thermocouple and the calibration thermometer. A control signal is sent through the display screen, the temperature measuring thermocouple receives the control signal to measure the temperature, and the calibration thermometer receives the control signal to assist the temperature measuring thermocouple in measuring the temperature.

Preferably, a bearing is installed at the bottom of the screw rod, and the bearing is located at the bottom of the long shell, a round block is installed at the bottom of the large rotating block, and the round block passes through the bottom of the semicircular shell, a real-time thermometer is installed on one side of the large rotating block, and the real-time thermometer, the calibrated thermometer, the temperature measuring thermocouple and the display screen are electrically connected.

Preferably, a cleaning assembly is respectively installed on the top of the calibration thermometer and the real-time thermometer, and the cleaning assembly is used to clean the temperature measuring lenses of the calibration thermometer and the real-time thermometer, the cleaning assembly includes a bracket, and the brackets of the two groups of cleaning assemblies are respectively located on the top of the calibration thermometer and the top of the real-time thermometer, a shell is installed on one side of the bracket, a fixing bolt is installed through a thread on one side of the shell, a movable rod is installed on the inner side of the shell, two through holes are penetrated inside the movable rod, and one of the through holes is located on the outside of the fixing bolt, a clamping block is installed on the top of the movable rod, and the clamping block is located on the inner side of the shell, a circular ring is installed on the bottom of the movable rod, a second spring is installed on one side of the circular ring, a shell is installed on one side of the second spring, a rubber block is placed on the inner side of the shell, a support rod is installed on one side of the shell, and the support rod is located on the inner side of the circular ring and the second spring, and a handle is installed on each side of the support rod.

Preferably, a protection component is installed on the front of the sealed door, and the protection component is used to protect the display screen, the protection component includes two side rail shells, and the two side rail shells are located on the front of the sealed door, a moving block is installed on the inner side of the side rail shells, a square block is installed between the two moving blocks, a small rotating block is installed on each side of the square, and the small rotating block is located on one side of the moving block, a fixed block is installed on the outer side of the small rotating block, a cover body is installed on the front of the two fixed blocks, a top block is installed on the top of the cover body, and bolts are installed through threads inside the top block, a screw hole block is installed on the front of the sealed door, and the screw hole block is threadedly connected to the bolt, and a base frame is installed on the front of the sealed door, and the base frame is located at the bottom of the display screen.

Preferably, the temperature measurement method of the dual infrared temperature measuring device is as follows:

Step S1: First, the staff moves the mounting plate by moving the long shell, so that the mounting plate drives the two supporting plates to move to one side of the fixing plate, and fixes them by screwing the screws into the inner sides of the supporting plates and the fixing plates. The staff moves the mounting plate into the inner side of the empty shell, moves the four blocking blocks to one side of the mounting plate, and tightens the fixing bolts.

Step S2: The staff screws out a through hole on the fixing bolt, pulls the handle, and at the same time, moves the support rod downward, so that the staff uses rubber blocks to wipe the stains on the lenses of the calibration thermometer and the real-time thermometer respectively;

Step S3, the staff then starts the vacuum diffusion welding machine through the control panel and turns on the display screen. The staff opens the automatic lock of the sealed door by operating the display screen. The staff pulls open the sealed door and moves the material to be vacuum welded to the top of the welding table through the transport device. The staff then closes the sealed door.

Step S4, the staff then starts the heating rod to perform heating through the control panel, starts the telescopic end of the telescopic cylinder to extend, and presses the welding material through the pressing block;

Step S5, the staff then moves the cover in the protection assembly upward, rotates it, screws the bolts into the inner side of the screw hole block, fixes the cover, and thus exposes the display screen;

Step S6, the staff controls the temperature measuring thermocouple, the calibration thermometer and the real-time thermometer through the display screen to start and operate, adjusts the position of the real-time thermometer through the display screen control adjustment component, and then performs temperature measurement.

Preferably, in step S1, the following steps are also included:

Step S11, when the staff needs to disassemble and repair the calibration thermometer and the real-time thermometer, the staff loosens the fastening bolt and turns the four blocks away from one side of the mounting plate. The first spring uses its own elastic force to push the mounting plate out of the inner side of the empty shell through the push plate, and the staff uses tools to remove the two screws.

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

1. The present invention is equipped with a display screen. The staff starts the power motor in the adjustment component through the display screen to make it run, so that the threaded block moves along the inner side of the empty shell under the thread support of the screw rod, so that the threaded block can drive the semicircular shell and the components associated with the semicircular shell to move together through the connecting block under the action of external force, so that the staff can adjust the real-time thermometer to a suitable position. The staff then controls the adjustment motor to run through the display screen, so that the large rotating block can drive the real-time thermometer to adjust to a suitable temperature measurement angle under the action of external force, so that the adjustment component can facilitate the real-time thermometer to perform temperature testing, thereby facilitating the temperature measurement work.

2. The present invention is equipped with a cleaning component. The staff twists the fixing bolt in the cleaning component so that the fixing bolt can be moved out of the inner side of the through hole at the bottom of the movable rod. The staff pulls the handle so that the shell can drive the rubber block to move. At the same time, the staff moves the handle downward so that the support rod can drive the rubber block to move to one side of the calibration thermometer and the real-time thermometer through the shell. The staff screws the fixing bolt into the inner side of the through hole at the top of the movable rod to fix the movable rod. The staff loosens the handle so that the second spring can use its own elastic force to drive the shell to move, so that the rubber block can contact the lenses of the calibration thermometer and the real-time thermometer. The staff twists the handle so that the rubber block can use the friction between itself and the lenses of the calibration thermometer and the real-time thermometer to remove stains, thereby enabling the cleaning component to facilitate the staff to remove stains on the lenses of the calibration thermometer and the real-time thermometer.

The present invention is equipped with a disassembly and assembly component, and the staff screws the four fastening bolts in the disassembly and assembly component in turn, so that the fastening bolts can move under the threaded support of the side block, so that the staff can rotate the blocking block so that the blocking block no longer blocks the mounting plate, so that the first spring can use its own elastic force to drive the mounting plate to move out of the inner side of the empty shell through the push plate, so that the staff can use a tool to screw the two screws, so that the screws can move under the threaded support of the support plate and the fixing plate, and the staff screws out the screws from the inner side of the fixing plate to disassemble the mounting plate, thereby enabling the temperature measuring thermocouple, calibration thermometer and real-time thermometer to be replaced and repaired. After the temperature measuring thermocouple, calibration thermometer and real-time thermometer are replaced and repaired, the staff installs and fixes them with screws, moves the mounting plate into the inner side of the empty shell, rotates the four blocking blocks to one side of the mounting plate, and screws in the fastening bolts to fix the blocking blocks, thereby enabling the disassembly and assembly component to facilitate the staff to replace and repair the temperature measuring thermocouple, calibration thermometer and real-time thermometer, thereby providing convenience for the staff.

4. The present invention is equipped with a protection component. The staff screws the bolts in the protection component to make the bolts move under the threaded support of the top block and the screw hole block, so that the staff can move the bolts out of the inner side of the screw hole block. The staff rotates the cover body to make the cover body appear in a vertical state. The staff moves the cover body downward, so that the cover body drives the moving block to move downward along the inner side of the side rail shell through the fixed block, the small rotating block and the square block under the action of external force, so that the cover body can move to the top of the bottom frame, and the bottom frame fixes the cover body under the fixed support of the sealing door, so that the cover body can wrap the display screen, and the protection component can protect the display screen, thereby preventing the display screen from being exposed to the outside for a long time and being damaged.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is an axonometric view of the present invention;

FIG2 is a schematic diagram of the three-dimensional structure of a vacuum diffusion welding machine according to the present invention;

FIG3 is a schematic diagram of a three-dimensional structure of an empty shell of the present invention;

FIG4 is a schematic diagram of a cross-sectional structure of a long shell of the present invention;

FIG5 is a schematic diagram of a top-sectional structure of a mounting plate of the present invention;

FIG6 is a schematic diagram of a three-dimensional structure of a bracket of the present invention;

FIG7 is a schematic diagram of a front cross-sectional structure of a housing of the present invention;

FIG8 is a schematic diagram of a top-sectional structure of a cover body of the present invention;

FIG. 9 is a flow chart of the present invention.

In the figure: 1. Vacuum diffusion welding machine; 2. Soldering table; 3. Heating rod; 4. Telescopic cylinder; 5. Huge hinge; 6. Sealed door; 7. Control cabinet; 8. Control panel; 9. Empty shell; 10. First spring; 11. Push plate; 12. Short shell; 13. Slider; 14. Fixing plate; 15. Screw; 16. Support plate; 17. Mounting plate; 18. Side block; 19. Fastening bolt; 20. Block; 21. Stabilizing block; 22. Temperature measuring thermocouple; 23. Calibration thermometer; 24. Display screen; 25. Long shell; 26. Opening; 27. Power motor; 28. Screw; 29. Thread Block; 30, connecting block; 31, semicircular shell; 32, adjusting motor; 33, large rotating block; 34, round block; 35, real-time thermometer; 36, bracket; 37, shell; 38, fixing bolt; 39, movable rod; 40, through hole; 41, block; 42, ring; 43, second spring; 44, shell; 45, rubber block; 46, support rod; 47, handle; 48, side rail shell; 49, moving block; 50, block; 51, small rotating block; 52, fixing block; 53, cover; 54, top block; 55, bolt; 56, screw hole block; 57, base frame; 58, monitor.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "two ends", "one end", "the other end" and the like indicate positions or positional relationships based on the positions or positional relationships shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operate in a specific orientation, and therefore cannot be understood as limiting the present invention. In addition, the terms "first" and "second" are used for descriptive purposes only and cannot be understood as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise clearly specified and limited, the terms "installed", "provided with", "connected", etc. should be understood in a broad sense. For example, "connected" means fixed connection, detachable connection, or integral connection; mechanical connection, electrical connection; direct connection, indirect connection through an intermediate medium, and internal communication between two components. For ordinary technicians in this field, the specific meanings of the above terms in the present invention are understood according to specific circumstances.

Please refer to Figures 1 and 2. An embodiment of the present invention is a visualized double infrared temperature measuring device and a temperature measuring method for vacuum diffusion welding, comprising a vacuum diffusion welding machine 1, a welding table 2 is installed on the inner side of the vacuum diffusion welding machine 1, six heating rods 3 are installed on the inner wall of the vacuum diffusion welding machine 1, and the heating rods 3 are used to provide heat for the inner side of the vacuum diffusion welding machine 1, a telescopic cylinder 4 is installed on the top of the vacuum diffusion welding machine 1, and the telescopic end of the telescopic cylinder 4 passes through the top of the vacuum diffusion welding machine 1, a pressing block is installed at the bottom of the telescopic end of the telescopic cylinder 4, and the pressing block is located on the inner side of the vacuum diffusion welding machine 1, a part of a huge hinge 5 is installed on the front of the vacuum diffusion welding machine 1, and a sealing door 6 is installed on one side of the other part of the huge hinge 5, The sealing door 6 is located at the front of the vacuum diffusion welding machine 1, a control cabinet 7 is installed on one side of the vacuum diffusion welding machine 1, a control panel 8 is installed on the front of the cabinet door of the control cabinet 7, a display screen 24 is embedded and installed on the front of the sealing door 6, and a monitor 58 is installed on the back of the sealing door 6; the control cabinet 7 is electrically connected to the vacuum diffusion welding machine 1, the heating rod 3, the telescopic cylinder 4 and the display screen 24 respectively, and at the same time, the display screen 24 is electrically connected to the automatic lock of the sealing door 6 and the monitor 58 respectively, and a control signal is sent through the control cabinet 7, so that the vacuum diffusion welding machine 1 receives the control signal to operate, the heating rod 3 receives the control signal to perform heating, the telescopic cylinder 4 receives the control signal to perform telescopic activities, and the display screen 24 receives the control signal to open;

The vacuum diffusion welding machine 1 can support the components associated with it under the support of the ground, the welding table 2 can support the welded materials under the fixed support of the vacuum diffusion welding machine 1, the sealing door 6 can close the front of the vacuum diffusion welding machine 1, the control cabinet 7 can install and protect the electrical components inside it, the control cabinet 7 is connected to the electrical equipment of the vacuum diffusion welding machine 1, the staff controls the automatic lock of the sealing door 6 to open through the control panel 8, so that the staff can pull the sealing door 6, so that the sealing door 6 can rotate around the huge hinge 5 under the action of external force, so that the staff can open the sealing door 6, the staff uses the transportation device to move the material to be welded to the top of the welding table 2, and then rotates the sealing door 6 to close the sealing door 6, and controls the automatic lock to close, and the staff then sends a control signal through the operation control panel 8 to start the vacuum diffusion welding machine 1, the heating rod 3 gradually heats the internal space of the vacuum diffusion welding machine 1, and the telescopic end of the telescopic cylinder 4 drives the pressure block to press the material to be welded, thereby performing vacuum welding.

Please refer to Figures 1 and 2. An embodiment of the present invention is: a vacuum diffusion welding visualized dual infrared temperature measuring device and a temperature measuring method, comprising a mounting plate 17, a stabilizing block 21 is mounted on one side of the mounting plate 17, and the stabilizing block 21 is located at the bottom of a long shell 25, a temperature measuring thermocouple 22 is mounted on one side of the stabilizing block 21, a calibration thermometer 23 is mounted on one side of the stabilizing block 21, and the calibration thermometer 23 is located on the inner side of the temperature measuring thermocouple 22; a display screen 24 is electrically connected to the temperature measuring thermocouple 22 and the calibration thermometer 23, a control signal is sent through the display screen 24, the temperature measuring thermocouple 22 receives the control signal to measure the temperature, and the calibration thermometer 23 receives the control signal to assist the temperature measuring thermocouple 22 in measuring the temperature, a real-time thermometer 35 is mounted on one side of a large rotating block 33, and the real-time thermometer 35, the calibration thermometer 23, the temperature measuring thermocouple 22 and the display screen 24 are electrically connected;

The stabilizing block 21 can provide support for the installation of the temperature measuring thermocouple 22 and the calibration thermometer 23 under the fixed support of the mounting plate 17. The temperature measuring thermocouple 22 can measure the temperature of the material welding, and the calibration thermometer 23 can calibrate the measured temperature. The real-time thermometer 35 can perform temperature testing and has laser positioning to facilitate the adjustment of the temperature measurement position. During the welding process, the real-time temperature measurement data obtained by the thermocouple is controlled by the display screen 24, and the parameters of the infrared thermometer are calibrated. According to the position where the temperature needs to be measured, the temperature measurement position of the real-time thermometer 35 is adjusted to obtain the required product position temperature data. At the same time, the staff can clearly see the welding conditions inside the vacuum diffusion welding machine 1 through the display screen 24.

Please refer to Figures 1, 2, 3 and 4. An embodiment of the present invention is: a vacuum diffusion welding visualized double infrared temperature measuring device and a temperature measuring method, including a vacuum diffusion welding machine 1, an adjustment component is installed on the front of the vacuum diffusion welding machine 1, and the adjustment component is used to adjust the temperature measuring position; the adjustment component includes a long shell 25, one side of the long shell 25 is penetrated with an opening 26, a power motor 27 is installed on the top of the long shell 25, and the output end of the power motor 27 penetrates the top of the long shell 25, a screw rod 28 is installed at the bottom of the output end of the power motor 27, and the screw rod 28 penetrates the bottom of the long shell 25, a bearing is installed at the bottom of the screw rod 28, and the bearing is located at the bottom of the long shell 25, and the outer screw of the screw rod 28 A threaded block 29 is installed on the threaded block 29, and the threaded block 29 is located on the inner side of the long shell 25. A connecting block 30 is installed on one side of the threaded block 29, and the connecting block 30 is located on the inner side of the opening 26. A semicircular shell 31 is installed on one side of the connecting block 30. An adjusting motor 32 is installed on the top of the semicircular shell 31, and the output end of the adjusting motor 32 passes through the top of the semicircular shell 31. A large rotating block 33 is installed at the bottom of the output end of the adjusting motor 32. A round block 34 is installed at the bottom of the large rotating block 33, and the round block 34 passes through the bottom of the semicircular shell 31. The long shell 25 can support the components associated with it, the opening 26 can provide a moving space for the connecting block 30, and the bearing can support the screw rod 28 to move under the action of external force. The semicircular shell 31 can support the components associated with it under the fixed support of the connecting block 30, and the round block 34 can support the large rotating block 33 to rotate under the action of external force under the support of the semicircular shell 31. The staff starts the power motor 27 in the adjustment component through the display screen 24. The power motor 27 rotates the output end of the power motor 27. The rotation of the output end of the power motor 27 can drive the screw rod 28 to rotate together, so that the threaded block 29 moves along the inner side of the empty shell 9 under the thread support of the screw rod 28, so that the threaded block 29 can drive the semicircular shell 31 and the components associated with the semicircular shell 31 through the connecting block 30 under the action of external force. The connecting block 30 can move along the inner side of the opening 26 under the action of external force, and the semicircular shell 31 can drive the real-time thermometer 35 to move through the large rotating block 33 under the action of external force, so that the staff can adjust the real-time thermometer 35 to a suitable position, and then the staff controls the adjustment motor 32 to operate through the display screen 24. The operation of the adjustment motor 32 causes the output end of the adjustment motor 32 to rotate, and the rotation of the output end of the adjustment motor 32 can drive the large rotating block 33 to rotate, so that the large rotating block 33 can drive the real-time thermometer 35 to adjust to a suitable temperature measurement angle under the action of external force, so that the adjustment component can facilitate the real-time thermometer 35 to perform temperature testing.

Please refer to Figures 1, 2, 3, 4 and 5. An embodiment of the present invention is: a vacuum diffusion welding visualized dual infrared temperature measuring device and a temperature measuring method, comprising a sealing door 6, a disassembly assembly component is embedded and installed on the back of the sealing door 6, and the disassembly assembly component is used to facilitate the disassembly and assembly of the temperature measuring device, the disassembly assembly component comprises an empty shell 9, and the empty shell 9 is embedded and located on the back of the sealing door 6, two first springs 10 are installed on the inner side of the empty shell 9, a push plate 11 is installed on one side of the two first springs 10, and the push plate 11 is located on the inner side of the empty shell 9, a short shell 12 is installed on the inner side of the top wall and the inner side of the bottom wall of the empty shell 9, a slider 13 is installed on the inner side of the short shell 12, a fixing plate 14 is installed on one side of the slider 13, and a screw 15 is installed on the inner thread of the fixing plate 14 , a support sheet 16 is installed on the outer thread of the screw 15, and the support sheet 16 is located on one side of the fixing sheet 14, a mounting plate 17 is installed on one side of the two support sheets 16, and the mounting plate 17 is located on one side of the long shell 25, and two side blocks 18 are installed on both sides of the empty shell 9, and a fastening bolt 19 is installed through the thread inside the side block 18, and a blocking block 20 is installed on the outer side of the fastening bolt 19, and the blocking block 20 is located on one side of the side block 18. The empty shell 9 can support the components associated with it under the fixed support of the sealing door 6, and the short shell 12 can provide a guiding effect for the movement of the slider 13 under the fixed support of the empty shell 9. The staff twists the four fastening bolts 19 in the disassembly and assembly components in turn, so that the fastening bolts 19 move under the thread support of the side block 18, so that the fastening bolts 1 9 no longer cooperates with the side block 18 to squeeze the block 20, so that the staff can rotate the block 20, so that the block 20 can rotate around the fastening bolt 19 under the action of external force, so that the block 20 no longer blocks the mounting plate 17, so that the first spring 10 can use its own elastic force to drive the mounting plate 17 to move out of the inner side of the empty shell 9 through the push plate 11, so that the mounting plate 17 can drive the two supporting plates 16 to move under the action of external force, so that the supporting plate 16 can drive the slider 13 to move through the screw 15 and the fixing plate 14, so that the slider 13 can move along the inner side of the short shell 12, so that the two screws 15 can be moved out of the inner side of the empty shell 9, so that the staff can use tools to screw the two screws 15, so that the screws 15 are on the support plate 1 6 and the threaded support of the fixing plate 14, the staff unscrews the screw 15 out of the inner side of the fixing plate 14 to disassemble the mounting plate 17, so that the temperature measuring thermocouple 22, the calibration thermometer 23 and the real-time thermometer 35 can be replaced and repaired. After the staff replaces and repairs the temperature measuring thermocouple 22, the calibration thermometer 23 and the real-time thermometer 35, they are installed and fixed by screws 15, the mounting plate 17 is moved into the inner side of the empty shell 9, the four blocking blocks 20 are rotated to one side of the mounting plate 17, and the fastening bolts 19 are screwed in to fix the blocking blocks 20, so that the disassembly and assembly components can facilitate the staff to replace and repair the temperature measuring thermocouple 22, the calibration thermometer 23 and the real-time thermometer 35, thereby providing convenience for the staff.

Please refer to Figures 1, 2, 3, 6 and 7. An embodiment of the present invention is: a vacuum diffusion welding visualized dual infrared temperature measuring device and temperature measuring method, including a calibration thermometer 23, a cleaning component is installed on the top of each of the calibration thermometer 23 and the real-time thermometer 35, and the cleaning component is used to clean the temperature measuring lenses of the calibration thermometer 23 and the real-time thermometer 35, the cleaning component includes a bracket 36, and the brackets 36 of the two groups of cleaning components are respectively located at the top of the calibration thermometer 23 and the top of the real-time thermometer 35, a shell 37 is installed on one side of the bracket 36, a fixing bolt 38 is installed through a thread on one side of the shell 37, a movable rod 39 is installed on the inner side of the shell 37, and two through holes 40 are opened inside the movable rod 39, and one of the through holes 40 is located at the fixed On the outside of the fixed bolt 38, a block 41 is installed on the top of the movable rod 39, and the block 41 is located on the inner side of the shell 37, and a ring 42 is installed on the bottom of the movable rod 39, and a second spring 43 is installed on one side of the ring 42, and a shell 44 is installed on one side of the second spring 43, and a rubber block 45 is placed on the inner side of the shell 44, and a support rod 46 is installed on one side of the shell 44, and the support rod 46 is located on the inner side of the ring 42 and the second spring 43, and a handle 47 is installed on both sides of the support rod 46, and the bracket 36 can fix the shell 37, and the block 41 can prevent the movable rod 39 from moving out of the inner side of the shell 37 under the action of external force. The staff twists the fixed bolt 38 in the cleaning assembly to move the fixed bolt 38 under the thread support of the shell 37, so that the fixed bolt 38 can be moved out of the inner side of the through hole 40 at the bottom of the movable rod 39, so that the fixing bolt 38 no longer fixes the movable rod 39 through the through hole 40. The staff pulls the handle 47, so that the handle 47 can drive the shell 44 to move under the action of external force, so that the shell 44 can drive the rubber block 45 to move. At the same time, the staff moves the handle 47 downward, so that the handle 47 can drive the ring 42 to move downward through the support rod 46 under the action of external force, so that the ring 42 can drive the movable rod 39 and the block 41 to move downward along the inner side of the shell 37, so that the support rod 46 can drive the rubber block 45 to move to one side of the calibration thermometer 23 and the real-time thermometer 35 through the shell 44, and the staff screws the fixing bolt 38 into the upper side of the movable rod 39. The movable rod 39 is fixed to the inner side of the through hole 40 of the part, and the staff loosens the handle 47 so that the second spring 43 can use its own elastic force to drive the shell 44 to move, so that the shell 44 can drive the rubber block 45 to move under the action of external force, so that the rubber block 45 can contact the lenses of the calibration thermometer 23 and the real-time thermometer 35. The staff twists the handle 47 so that the handle 47 drives the rubber block 45 to rotate left and right through the support rod 46 and the shell 44 under the action of external force, so that the rubber block 45 can use the friction between itself and the lenses of the calibration thermometer 23 and the real-time thermometer 35 to remove stains, so that the cleaning component can facilitate the staff to remove stains on the lenses of the calibration thermometer 23 and the real-time thermometer 35.

Please refer to Figures 1 and 8. An embodiment of the present invention is a vacuum diffusion welding visualized dual infrared temperature measurement device and a temperature measurement method, comprising a sealed door 6, a protective component is installed on the front of the sealed door 6, and the protective component is used to protect the display screen 24, the protective component comprises two side rail shells 48, and the two side rail shells 48 are located on the front of the sealed door 6, a moving block 49 is installed on the inner side of the side rail shell 48, a square block 50 is installed between the two moving blocks 49, and a small rotating block 51 is installed on each side of the square block 50, and the small rotating block 51 is located on the moving block 49. On one side, a fixed block 52 is installed on the outside of the small rotating block 51, a cover body 53 is installed on the front of the two fixed blocks 52, a top block 54 is installed on the top of the cover body 53, a bolt 55 is installed through the thread inside the top block 54, a screw hole block 56 is installed on the front of the sealed door 6, and the screw hole block 56 is threadedly connected with the bolt 55, a bottom frame 57 is installed on the front of the sealed door 6, and the bottom frame 57 is located at the bottom of the display screen 24, and the side rail shell 48 can provide a guide for the movement of the moving block 49 under the fixed support of the sealed door 6, and the staff twists the protection group The bolt 55 in the upper block 54 and the screw hole block 56 is supported by the threads, so that the staff can move the bolt 55 out of the inner side of the screw hole block 56, so that the bolt 55 is no longer fixed to the cover body 53 by the screw hole block 56 and the upper block 54. The staff rotates the cover body 53, so that the cover body 53 drives the two fixed blocks 52 to rotate around the small rotating block 51 under the action of external force. At the same time, the cover body 53 can drive the block 50 to rotate around the moving block 49 as the center through the fixed block 52 and the small rotating block 51, so that the cover body 53 It can be in a vertical state. The staff moves the cover body 53 downward, so that the cover body 53 can move downward along the inner side of the side rail shell 48 through the fixed block 52, the small rotating block 51 and the block 50 under the action of external force, so that the cover body 53 can move to the top of the base frame 57, and the base frame 57 fixes the cover body 53 under the fixed support of the sealing door 6, so that the cover body 53 can wrap the display screen 24, and the protection component can protect the display screen 24, thereby preventing the display screen 24 from being damaged by long-term exposure to the outside world.

Further, the temperature measurement method of the dual infrared temperature measuring device is as follows:

Step S1, first, the staff moves the mounting plate 17 by taking the long shell 25, so that the mounting plate 17 drives the two supporting plates 16 to move to one side of the fixing plate 14, and fixes them by screwing the screws 15 into the inner sides of the supporting plates 16 and the fixing plates 14. The staff moves the mounting plate 17 into the inner side of the empty shell 9, moves the four blocking blocks 20 to one side of the mounting plate 17, and tightens the fastening bolts 19.

Step S2, the staff screws the fixing bolt 38 out of a through hole 40, pulls the handle 47, and at the same time, moves the support rod 46 downward, so that the staff can use the rubber block 45 to wipe the stains on the lenses of the calibration thermometer 23 and the real-time thermometer 35 respectively;

Step S3, the staff then starts the vacuum diffusion welding machine 1 through the control panel 8 and turns on the display screen 24. The staff opens the automatic lock of the sealing door 6 by operating the display screen 24. The staff pulls open the sealing door 6 and moves the material to be vacuum welded to the top of the welding station 2 through the transport device. The staff then closes the sealing door 6.

Step S4, the staff then starts the heating rod 3 to perform heating through the control panel 8, starts the telescopic end of the telescopic cylinder 4 to extend, and presses the welding material through the pressing block;

Step S5, the staff then moves the cover body 53 in the protection assembly upward, rotates it, screws the bolts 55, screws the bolts 55 into the inner side of the screw hole block 56, and fixes the cover body 53, so that the display screen 24 is exposed;

Step S6, the staff controls the temperature measuring thermocouple 22, the calibration thermometer 23 and the real-time thermometer 35 to start and operate through the display screen 24, controls the adjustment component to adjust the position of the real-time thermometer 35 through the display screen 24, and then performs the temperature measurement work.

Furthermore, in step S1, the following steps are also included:

Step S11, when the staff needs to disassemble and inspect the calibration thermometer 23 and the real-time thermometer 35, the staff loosens the fastening bolt 19, turns the four blocks 20 away from one side of the mounting plate 17, and the first spring 10 uses its own elastic force to push the mounting plate 17 out of the inner side of the empty shell 9 through the push plate 11, and the staff uses tools to remove the two screws 15.

Working principle: Before using the device, it is necessary to check whether the device has any problems that affect its use. When the staff needs to use the visual dual infrared temperature measuring device for vacuum diffusion welding, the staff starts the vacuum diffusion welding machine 1 through the control panel 8 and turns on the display screen 24. The automatic lock of the sealing door 6 is opened through the display screen 24. The staff opens the sealing door 6. At the same time, the transportation device places the material to be welded on the welding table 2, and then closes the sealing door 6. The heating rod 3 is started for heating through the control panel 8, and the telescopic cylinder 4 is started to press the material through the pressure block. The staff opens the cover body 53 in the protective component and fixes the cover body 53 by screwing the bolt 55 into the inner side of the screw hole block 56. The staff turns on the temperature measuring thermocouple 22, the calibration thermometer 23 and the real-time thermometer 35 through the display screen 24, and controls the adjustment component to adjust the position of the real-time thermometer 35, so that the temperature measuring thermocouple 22, the calibration thermometer 23 and the real-time thermometer 35 perform temperature measurement. The staff can record the temperature measurement data through the display screen 24.

It will be apparent to those skilled in the art that the invention is not limited to the details of the exemplary embodiments described above and that the invention may be implemented in other specific forms without departing from the spirit or essential features of the invention. Therefore, the embodiments should be considered in all respects as exemplary and non-restrictive, and the scope of the invention is defined by the appended claims rather than the foregoing description, and it is intended that all variations within the meaning and range of equivalent elements of the claims be included in the invention. Any reference numeral in a claim should not be considered as limiting the claim to which it relates.

Claims (6)

1. A visual dual infrared temperature measuring device for vacuum diffusion welding, characterized in that: it comprises a vacuum diffusion welding machine (1), an adjustment component is installed on the front of the vacuum diffusion welding machine (1), and the adjustment component is used to adjust the temperature measurement position; The adjustment component comprises a long shell (25), one side of the long shell (25) is penetrated by an opening (26), a power motor (27) is installed on the top of the long shell (25), and the output end of the power motor (27) penetrates the top of the long shell (25), a screw rod (28) is installed at the bottom of the output end of the power motor (27), and the screw rod (28) penetrates the bottom of the long shell (25), a threaded block (29) is installed on the outer thread of the screw rod (28), and the threaded block (29) is located on the inner side of the long shell (25), a connecting block (30) is installed on one side of the threaded block (29), and the connecting block (30) is located on the inner side of the opening (26), a semicircular shell (31) is installed on one side of the connecting block (30), an adjustment motor (32) is installed on the top of the semicircular shell (31), and the output end of the adjustment motor (32) penetrates the top of the semicircular shell (31), and a large rotating block (33) is installed at the bottom of the output end of the adjustment motor (32); A welding table (2) is installed on the inner side of the vacuum diffusion welding machine (1), six heating rods (3) are installed on the inner wall of the vacuum diffusion welding machine (1), and the heating rods (3) are used to provide heat for the inner side of the vacuum diffusion welding machine (1), a telescopic cylinder (4) is installed on the top of the vacuum diffusion welding machine (1), and the telescopic end of the telescopic cylinder (4) passes through the top of the vacuum diffusion welding machine (1), a pressing block is installed at the bottom of the telescopic end of the telescopic cylinder (4), and the pressing block is located on the inner side of the vacuum diffusion welding machine (1), a part of a huge hinge (5) is installed on the front side of the vacuum diffusion welding machine (1), a sealing door (6) is installed on one side of the other part of the huge hinge (5), and the sealing door (6) is located on the front side of the vacuum diffusion welding machine (1), a control cabinet (7) is installed on one side of the vacuum diffusion welding machine (1), a control panel (8) is installed on the front side of the cabinet door of the control cabinet (7), a display screen (24) is embedded and installed on the front side of the sealing door (6), and a monitor (58) is installed on the back side of the sealing door (6); The control cabinet (7) is electrically connected to the vacuum diffusion welding machine (1), the heating rod (3), the telescopic cylinder (4) and the display screen (24) respectively. At the same time, the display screen (24) is electrically connected to the automatic lock of the sealed door (6) and the monitor (58) respectively. The control cabinet (7) sends a control signal, so that the vacuum diffusion welding machine (1) receives the control signal to operate, the heating rod (3) receives the control signal to perform heating, the telescopic cylinder (4) receives the control signal to perform telescopic movement, and the display screen (24) receives the control signal to open; The back of the sealing door (6) is inlaid with a disassembly assembly, and the disassembly assembly is used to facilitate the disassembly and assembly of the temperature measuring device. The disassembly assembly comprises an empty shell (9), and the empty shell (9) is inlaid on the back of the sealing door (6). Two first springs (10) are installed on the inner side of the empty shell (9), and a push plate (11) is installed on one side of the two first springs (10), and the push plate (11) is located on the inner side of the empty shell (9). A short shell (12) is installed on the inner side of the top wall and the inner side of the bottom wall of the empty shell (9), and a slider (13) is installed on the inner side of the short shell (12). A fixing plate is installed on one side of the slider (13). (14), a screw (15) is installed through a thread inside the fixing plate (14), a support plate (16) is installed through a thread outside the screw (15), and the support plate (16) is located on one side of the fixing plate (14), a mounting plate (17) is installed on one side of the two supporting plates (16), and the mounting plate (17) is located on one side of the long shell (25), two side blocks (18) are installed on both sides of the empty shell (9), a fastening bolt (19) is installed through a thread inside the side block (18), a blocking block (20) is installed on the outside of the fastening bolt (19), and the blocking block (20) is located on one side of the side block (18); A stabilizing block (21) is installed on one side of the mounting plate (17), and the stabilizing block (21) is located at the bottom of the long shell (25); a temperature measuring thermocouple (22) is installed on one side of the stabilizing block (21); a calibration thermometer (23) is installed on one side of the stabilizing block (21), and the calibration thermometer (23) is located on the inner side of the temperature measuring thermocouple (22); The display screen (24) is electrically connected to the temperature measuring thermocouple (22) and the calibration thermometer (23); a control signal is sent through the display screen (24); the temperature measuring thermocouple (22) receives the control signal to perform temperature measurement; and the calibration thermometer (23) receives the control signal to assist the temperature measuring thermocouple (22) in performing temperature measurement. 2. A vacuum diffusion welding visualized dual infrared temperature measuring device according to claim 1, characterized in that: a bearing is installed at the bottom of the screw rod (28), and the bearing is located at the bottom of the long shell (25); a round block (34) is installed at the bottom of the large rotating block (33), and the round block (34) passes through the bottom of the semicircular shell (31); a real-time thermometer (35) is installed on one side of the large rotating block (33), and the real-time thermometer (35), the calibration thermometer (23), the temperature measuring thermocouple (22) and the display screen (24) are electrically connected. 3. A vacuum diffusion welding visualized dual infrared temperature measuring device according to claim 2, characterized in that: a cleaning component is installed on the top of each of the calibration thermometer (23) and the real-time thermometer (35), and the cleaning component is used to clean the temperature measuring lenses of the calibration thermometer (23) and the real-time thermometer (35), the cleaning component includes a bracket (36), and the brackets (36) of the two groups of cleaning components are respectively located on the top of the calibration thermometer (23) and the top of the real-time thermometer (35), a shell (37) is installed on one side of the bracket (36), a fixing bolt (38) is installed through a thread on one side of the shell (37), a movable rod (39) is installed on the inner side of the shell (37), and the inner side of the movable rod (39) is provided with a fixing bolt (38) through a thread. Two through holes (40) are formed through the movable rod (39), and one of the through holes (40) is located on the outside of the fixing bolt (38). A block (41) is installed on the top of the movable rod (39), and the block (41) is located on the inside of the housing (37). A ring (42) is installed on the bottom of the movable rod (39). A second spring (43) is installed on one side of the ring (42). A shell (44) is installed on one side of the second spring (43). A rubber block (45) is placed on the inside of the shell (44). A support rod (46) is installed on one side of the shell (44), and the support rod (46) is located on the inside of the ring (42) and the second spring (43). A handle (47) is installed on each side of the support rod (46). 4. A vacuum diffusion welding visualized double infrared temperature measuring device according to claim 1, characterized in that: a protection component is installed on the front of the sealed door (6), and the protection component is used to protect the display screen (24), the protection component includes two side rail shells (48), and the two side rail shells (48) are located on the front of the sealed door (6), a moving block (49) is installed on the inner side of the side rail shell (48), a square block (50) is installed between the two moving blocks (49), and a small rotating block (51) is installed on each side of the square block (50), and the small rotating block (51) is installed on the inner side of the side rail shell (48). 1) is located on one side of the moving block (49), a fixed block (52) is installed on the outer side of the small rotating block (51), a cover body (53) is installed on the front of the two fixed blocks (52), a top block (54) is installed on the top of the cover body (53), a bolt (55) is installed through the thread inside the top block (54), a screw hole block (56) is installed on the front of the sealing door (6), and the screw hole block (56) is threadedly connected to the bolt (55), and a bottom frame (57) is installed on the front of the sealing door (6), and the bottom frame (57) is located at the bottom of the display screen (24). 5. A temperature measurement method for a vacuum diffusion welding visualized dual infrared temperature measurement device according to any one of claims 1 to 4, wherein the temperature measurement method for the dual infrared temperature measurement device is as follows: Step S1, first, the staff moves the mounting plate (17) by taking the long shell (25), so that the mounting plate (17) drives the two supporting plates (16) to move to one side of the fixing plate (14), and fixes them by screwing the screws (15) into the inner sides of the supporting plates (16) and the fixing plates (14). The staff moves the mounting plate (17) into the inner side of the empty shell (9), moves the four blocking blocks (20) to one side of the mounting plate (17), and tightens the fastening bolts (19). Step S2, the staff screws the fixing bolt (38) to form a through hole (40), pulls the handle (47), and at the same time, moves the support rod (46) downward, so that the staff can use the rubber block (45) to wipe the stains on the lens of the calibration thermometer (23) and the real-time thermometer (35) respectively; Step S3, the staff then starts the vacuum diffusion welding machine (1) through the control panel (8) and turns on the display screen (24), the staff opens the automatic lock of the sealing door (6) by operating the display screen (24), the staff pulls open the sealing door (6), moves the material to be vacuum welded to the top of the welding table (2) through the transport device, and then the staff closes the sealing door (6); Step S4, the staff then starts the heating rod (3) through the control panel (8) to perform heating, starts the telescopic end of the telescopic cylinder (4) to extend, and presses the welding material through the pressing block; Step S5, the staff then moves the cover body (53) in the protection assembly upward, rotates it, and screws the bolts (55) into the inner side of the screw hole block (56) to fix the cover body (53), thereby exposing the display screen (24); Step S6: The staff controls the temperature measuring thermocouple (22), the calibration thermometer (23) and the real-time thermometer (35) to start and operate through the display screen (24), controls the adjustment component to adjust the position of the real-time thermometer (35) through the display screen (24), and then performs temperature measurement. 6. The temperature measurement method of the vacuum diffusion welding visual double infrared temperature measurement device according to claim 5 is characterized in that: in the step S1, it also includes the following steps: Step S11, when the staff needs to disassemble and inspect the calibration thermometer (23) and the real-time thermometer (35), the staff loosens the fastening bolt (19), rotates the four blocking blocks (20) away from one side of the mounting plate (17), and the first spring (10) uses its own elastic force to push the mounting plate (17) out of the inner side of the empty shell (9) through the push plate (11), and the staff uses a tool to remove the two screws (15).