CN108181869B - thing networking exposure machine - Google Patents

Abstract

The invention discloses an exposure machine of the Internet of things, which consists of a mechanical device, an exposure device, a monitoring and monitoring mechanism and an Internet of things system. The mechanical device consists of an exposure platform frame and a kinetic energy component; the exposure device consists of an exposure lamp, an optical lens and a condenser; the monitoring and controlling mechanism consists of a monitoring module and a control mechanism; the Internet of things system consists of a network communication module, a data analysis module and an information linkage module. The invention realizes the lithography, networking control, setting, maintenance, analysis procedures and report linkage of the exposure machine of the Internet of things, thereby efficiently completing production and service.

Description

thing networking exposure machine

Technical Field

The invention relates to the field of Internet automation equipment, in particular to an Internet of things exposure machine capable of intelligent remote control and information exchange.

Technical Field

the existing exposure machines in the printed circuit board employ a single machine and field information viewing operation. The technology needs to be operated on site when processing faults and exchanging information required by users, and can not automatically implement exchange and processing control of remote information intercommunication; the quality and the production efficiency cannot be guaranteed; thereby causing the customer's requirements to be not met in a timely manner. The current Internet of things exposure machine adopts Internet operation to exchange information of equipment and process abnormity, and meanwhile, a user can also obtain the production running condition of the exposure machine and exchange information at any time through the Internet.

disclosure of Invention

In order to solve the above problems, the present invention provides an intelligent exposure machine for internet of things, which can achieve high speed, high efficiency, and aiming at the shortcomings of the prior art.

The specific technical scheme is as follows:

An exposure machine of the internet of things comprises a mechanical device S302, an exposure device S303 (an optical device), a control device S301 and an internet of things system S306; the mechanical device S302 and the exposure device S303 (optical devices) are in information connection with the control device S301, the control device S301 is in information connection with the Internet of things system S306, the output end of the visual module S304 is in information connection with the control device S301 and the Internet of things system S306, the input end of the visual module S304 is in information connection with the mechanical device S302, and the output end of the mechanical device S302 is in information connection with the exposure device S303 (optical devices); an operation control module, a network communication module and a data analysis module S305 are arranged in the Internet of things system S306.

further, in some embodiments, the control device S301 includes a monitoring and monitoring mechanism, and the monitoring and monitoring mechanism is composed of a monitoring module and a control module;

A monitoring module: the state of the mechanism is acquired through a sensor, a man-machine input device, a button, an instrument and related equipment which are arranged on the equipment, necessary conditions are provided for the system to realize automatic control and self-checking, and a user can monitor and inquire the condition;

a control module: the automatic control of the exposure machine of the Internet of things is realized through a computer, a display, a human-computer interface, human-computer equipment, an acquisition card, an input/output module, an axis control module, an optical fiber communication module, a conversion module, a PLC (programmable logic controller), a server, a frequency converter, a motor driver, a motor, an ultraviolet lamp, a lamp source driver, a switching power supply, a transformer, a relay, a control switch, an electromagnetic valve, a fan, a vacuum pump, a water cooler and the like;

The control module of the monitoring and monitoring mechanism mainly comprises a control mechanism and a power supply driver, wherein the control mechanism mainly comprises: a server, a frequency converter, a motor driver and a motor; the power driver comprises a switching power supply and a lamp source driver.

further, in some embodiments, the mechanical device S302 is composed of an exposure stage frame and a kinetic energy component, and includes a frame mechanism, a transmission mechanism and a detection mechanism;

The transmission mechanism is as follows: mainly comprises a shifting component, such as a guide rail and a sliding table;

a frame mechanism: comprises a working table surface, a sealing component, a positioning component, a switch frame component, a machine base and an alignment exposure platform;

the detection mechanism includes: a camera lift assembly.

Further, in some embodiments, the exposure device S303 (optical device) is composed of an exposure stage frame mechanism, an exposure lamp (optical device, light source, ultraviolet lamp), an optical lens, and a condenser; the exposure stage frame mechanism includes: lower exposure glass, last exposure glass, sealing component (sealing washer), locating component, switch frame subassembly.

Further, in some embodiments, a camera is disposed within the vision module S304; acquiring an optical graph of a product in real time, and analyzing the graph; the analysis result provides a basis for the system to judge the qualification of the product; uploading the visual analysis result to a server for a user to inquire and download; meanwhile, the system calculates the qualification rate of multiple days according to the analysis result.

The exposure machine system of the internet of things obtains an optical graph of a product in real time through a camera (a vision module S304) arranged on the equipment, and analyzes the graph; the analysis result provides a basis for the system to judge the qualification of the product, the visual analysis result is uploaded to the server through the network communication module for the user to inquire and download, and meanwhile, the system calculates the qualification rate of multiple days according to the analysis result.

The internet of things system S306 is composed of a network communication module, a data analysis module S305, and an operation control module (information linkage module). The invention realizes the lithography, networking control, setting, maintenance, analysis procedures and time consumption reporting of the exposure machine of the Internet of things, thereby efficiently completing production and service.

a network communication module is arranged in the Internet of things system S306, is a necessary module for realizing interaction between a user and an Internet of things exposure machine, and is a bridge for information intercommunication between the user and equipment; the network communication module contains network connection, function module, management module, user setting, user inquiry, data uploading, instruction issuing, remote control, automatic information reporting, automatic early warning reporting and information interaction functions.

the data analysis module S305: data formed by the exposure machine of the Internet of things in the production process are automatically classified and stored, and a user can conveniently inquire the following data: effective output, qualification rate, first pass rate, utilization rate, product tracking and equipment maintenance tracking; the exposure machine system of the Internet of things automatically uploads the operation condition of the equipment to a user according to data, and meanwhile, a basis is provided for the user to enhance the tracing of products and optimize production management.

operation control module (information linkage module): the alarm information, the prompt information, the production information and the operation information are automatically sent to the management user through the network, and the management user can send the production demand information and the operation information to the Internet of things exposure machine through the network at any time and any place. The management user can send production demand information and operation information to the Internet of things exposure machine through the network at any time and any place. The user can acquire a visual module S304 of the exposure machine, data analysis and information linkage at any time and any place through the network communication module;

the modules are all arranged in a host of the Internet of things system.

further, in some embodiments, the top, the middle rear side and the bottom of the rack of the exposure machine of the internet of things are respectively provided with a control mechanism (a server, a frequency converter, a motor driver and a motor), the middle of the rack is provided with a frame mechanism (comprising a base), the frame mechanism (comprising the base) is provided with an exposure table frame mechanism, and the upper surface and the lower surface of the exposure table frame mechanism are provided with symmetrical exposure lamps (a light source and an ultraviolet lamp), optical lenses and a condenser; two sides of the frame mechanism are provided with transmission mechanisms (transfer components); a power supply driving and monitoring mechanism and an Internet of things system host are arranged in the frame; the power driver, the monitoring and monitoring mechanism and the Internet of things system host are electrically connected.

the front side of the shell of the exposure machine of the Internet of things is provided with two human-computer interface display screens, the human-computer interface display screens are positioned on the left side and the right side of the front side of the shell, and the front side of the shell of the exposure machine of the Internet of things is also provided with a control switch and instruments.

further, in some embodiments, the mechanical device S302 includes a base, a motor is disposed in the middle of the bottom surface of the base, a transmission seat is disposed at each of two end portions of the bottom surface of the base, the motor is connected to the transmission case, and the transmission case is connected to the transmission seat through a transmission shaft;

two side supports are arranged on two side surfaces of the machine base, the transmission base is connected with the bottom end of the lifting cylinder, the top end of the lifting cylinder is connected with a supporting lug on the side support of the machine base, a sliding rod is fixedly arranged on the side support of the machine base, a slidable lifting plate is arranged on the sliding rod, the lifting plate is connected with a lifting shaft of the lifting cylinder through a middle connecting plate, the lifting shaft of the lifting cylinder can drive the lifting plate to move up and down, a rotating shaft penetrates through the middle connecting plate of the lifting plate, the rotating shaft can ensure that the lifting plate moves up and down in a linear motion, and;

The top end of the lifting plate is connected with a workbench, a lower frame is arranged on the workbench, and an alignment device is arranged at the corner between the workbench and the lower frame and consists of a servo motor and a screw rod, wherein the servo motor is fixed on the workbench, and the screw rod driven by the servo motor is arranged in a screw hole in the lower frame in a penetrating manner;

the bottom of the workbench is provided with a plurality of vacuum pump sockets (electromagnetic valves); a vertical rear supporting plate is arranged on the rear side edge of the workbench, the rear supporting plate is fixedly arranged on the machine base through a support (the support of the machine base is not shown in the figure), a table frame perpendicular to the rear supporting plate is arranged at the bottom end of the rear supporting plate, a table frame horizontal to the lower frame is arranged on the periphery of the lower frame, and an electromagnetic valve is arranged at the front end of the table frame;

Exposure glass is equipped with above the platform frame, and exposure glass frame rear end is gone up in the hinge of platform frame rear end, goes up exposure glass frame both sides and is equipped with the catching groove, goes up exposure glass frame side and is equipped with the slide rail, is equipped with the pulley on the pulley holder in the slide rail, and the telescopic link is connected to the one end that the slide rail was kept away from to the pulley holder, and the backup pad is connected to the telescopic link other end, and the edge of exposure glass and last exposure glass opposite face is equipped with the sealing washer of matching.

the exposure machine of the Internet of things comprises a mechanical device, an exposure device, a monitoring and monitoring mechanism and an Internet of things system. The mechanical device consists of an exposure platform frame and a kinetic energy component; the exposure device consists of an exposure lamp, an optical lens and a condenser; the monitoring and controlling mechanism consists of a monitoring module and a control mechanism; the Internet of things system consists of a network communication module, a data analysis module and an information linkage module. The invention realizes the lithography, networking control, setting, maintenance, analysis procedures and report linkage of the exposure machine of the Internet of things, thereby efficiently completing production and service.

According to the technical scheme, the exposure machine of the Internet of things is used, information intercommunication of equipment is achieved through Internet operation, and meanwhile, a user can obtain the production running condition and information exchange of the exposure machine through the Internet at any time and any place.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention;

FIG. 2 is an organizational chart of an embodiment of the invention;

FIG. 3 is a schematic structural diagram of an embodiment of the present invention;

FIG. 4 is a schematic external view of an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an exposure apparatus according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of area A of FIG. 5;

FIG. 7 is a schematic view of an exposure apparatus according to an embodiment of the present invention.

the figure is marked with:

The device comprises a machine base 1, a lifting plate 2, a motor 3, a transmission shaft 4, a transmission seat 5, a rotating shaft 6, a sliding rod 7, a lifting cylinder 8, a workbench 9, a vacuum pump socket 10, lower exposure glass 11, a servo motor 12, a screw rod 13, upper exposure glass 14, a gearbox 15, a table frame 16, a rear supporting plate 17, a telescopic rod 18, a pulley seat 19, a sliding rail 20, a lower frame 21, a buckle slot 22, a man-machine interface display screen 31, a control switch 32, an instrument 33, a control mechanism 51, a frame mechanism 52, an exposure table frame mechanism 54, a transmission mechanism 55, an Internet of things system host 56, a monitoring and monitoring mechanism 57, a power supply driver 58 and an exposure lamp 53.

Detailed Description

In order to better illustrate the technical features and technical solutions of the present invention and the functional effects achieved thereby, the present invention is further described below with reference to the accompanying drawings. Please refer to the attached drawings.

the invention consists of a mechanical device S302, an exposure device S303, a vision module S304, a control device S301 and an Internet of things system S306. The mechanical device S302 consists of an exposure platform frame and a kinetic energy component; the exposure device S303 is composed of an exposure lamp, an optical lens and a condenser; the control device S301 consists of a monitoring module and a control mechanism 51; the internet of things system S306 is composed of a network communication module, a data analysis module S305, an operation control module and an information linkage module, and the modules of the internet of things system S306 are all arranged in the internet of things system host 56.

the control device S301 includes:

A monitoring module: the state of the mechanism is acquired through a sensor, a man-machine input device, a button, an instrument and related equipment which are arranged on the equipment, necessary conditions are provided for the system to realize automatic control and self-checking, and a user can monitor and inquire the condition;

The control mechanism 51: the automatic control of the exposure machine of the Internet of things is realized through a computer, a display, a human-computer interface, human-computer equipment, a collection card, an input/output module, an axis control module, an optical fiber communication module, a conversion module, a PLC, a server, a frequency converter, a motor driver, a motor, an ultraviolet lamp, a lamp source driver, a switching power supply, a transformer, a relay, a control switch, an electromagnetic valve, a fan, a vacuum pump, a water cooler and the like.

The internet of things system S306 includes:

a network communication module: the system is a necessary module for realizing interaction between a user and an exposure machine of the Internet of things, and is a bridge for information intercommunication between the user and equipment; the system comprises a network connection, a functional module, a management module, a user setting module, a user inquiry module, a data uploading module, an instruction issuing module, a remote control module, an automatic information reporting module, an automatic early warning reporting module and an information interaction module; the network communication module is internally provided with a network connection, a function module, a management module, user setting, user inquiry, data uploading, instruction issuing, remote control, automatic information reporting, automatic early warning reporting and information interaction.

The data analysis module S305: data formed by the exposure machine of the Internet of things in the production process are automatically classified and stored, and a user can conveniently inquire the following data: the system comprises the following steps of effectively outputting, qualified rate, first pass rate, utilization rate, product tracking and equipment maintenance tracking, wherein an exposure machine system of the Internet of things automatically uploads the operation condition of equipment to a user according to data, and meanwhile, a basis is provided for the user to enhance product tracing and optimize production management; the data analysis module S305 is provided therein with effective output, yield, first pass rate, utilization rate, product tracking, and equipment maintenance tracking.

The information linkage module: the system comprises alarm information, prompt information, production information and operation information, and is automatically sent to a management user through a network, and the management user can send production demand information and operation information to the Internet of things exposure machine through the network at any time and any place. Alarm information, prompt information, production information and operation information are arranged in the information linkage module and are automatically sent to a management user through a network, and the management user can send production demand information and operation information to the Internet of things exposure machine through the network at any time and any place.

The vision module S304: the exposure machine system of the Internet of things acquires an optical graph of a product in real time through a camera installed on equipment and analyzes the graph; the analysis result provides a basis for the system to judge the qualification of the product, and the visual analysis result is uploaded to the server for the user to inquire and download, and meanwhile, the system calculates the qualification rate of multiple days according to the analysis result. A camera is arranged in the visual module S304 to acquire an optical graph of a product in real time and analyze the graph; the analysis result provides a basis for the system to judge the qualification of the product; uploading the visual analysis result to a server for a user to inquire and download; meanwhile, the system calculates the qualification rate of multiple days according to the analysis result.

In one embodiment, the operation principle is as shown in fig. 1 to fig. 2, the exposure machine of the internet of things comprises an internet of things system S306, a network communication module is arranged in the internet of things system S306, and the network communication module comprises a network connection, a function module, a management module, a user setting module, a user inquiry module, a data uploading module, an instruction issuing module, a remote control module, an automatic information reporting module, an automatic early warning reporting module and an information interaction module. The data analysis module S305 is provided therein with effective output, yield, first pass rate, utilization rate, product tracking, and equipment maintenance tracking.

the visual module S304 is internally provided with a camera to acquire an optical graph of a product in real time; the information linkage module is internally provided with alarm information, prompt information, production information and operation information, and automatically sends the alarm information, the prompt information, the production information and the operation information to a management user through a network, and the management user can send production demand information and operation information to the Internet of things exposure machine through the network at any time and any place.

Further, in some embodiments, the mechanical device S302 is comprised of an exposure stage frame, a kinetic energy component, the mechanical device S302 comprising:

The frame mechanism includes: the device comprises a working table surface, a sealing assembly, a positioning assembly and a switch frame assembly;

the transmission mechanism 55 includes: a guide rail and a sliding table;

the detection mechanism includes: a camera lift assembly.

the exposure device S303 is composed of an exposure lamp 53 (light source, ultraviolet lamp), an optical lens, and a condenser.

Further, in some embodiments, as shown in fig. 5 to 7, the exposure operation state of the present invention is that the mechanical device S302 includes a base 1, a motor 3 is disposed in the middle of the bottom surface of the base 1, a transmission base 5 is disposed at each of two end portions of the bottom surface of the base 1, the motor 3 is connected to a transmission case 15, and the transmission case 15 is connected to the transmission base 5 through a transmission shaft 4;

two side surfaces of the machine base 1 are provided with side supports, the transmission base 5 is connected with the bottom end of the lifting cylinder 8, the top end of the lifting cylinder 8 is connected with a supporting lug on the side support of the machine base 1, a sliding rod 7 is fixedly arranged on the side support of the machine base 1, a slidable lifting plate 2 is arranged on the sliding rod 7, the lifting plate 2 is connected with a lifting shaft of the lifting cylinder 8 through a middle connecting plate, the lifting shaft of the lifting cylinder 8 can drive the lifting plate 2 to move up and down, a rotating shaft 6 penetrates through the middle connecting plate of the lifting plate 2, the rotating shaft 6 can ensure that the lifting plate 2 moves up and down to move linearly, and the bottom of the;

The top end of the lifting plate 2 is connected with a workbench 9, a lower frame 21 is arranged on the workbench 9, an aligning device is arranged at the corner between the workbench 9 and the lower frame 21, the aligning device is composed of a servo motor 12 and a screw rod 13, the servo motor 12 is fixed on the workbench 9, and the screw rod 13 driven by the servo motor 12 is arranged in a screw hole on the lower frame 21 in a penetrating manner.

In one embodiment, the bottom of the working table 9 is provided with a plurality of vacuum pump sockets 10 (solenoid valves); a vertical rear supporting plate 17 is arranged on the rear side edge of the workbench 9, the rear supporting plate 17 is fixedly arranged on the machine base 1 (a support of the machine base is not shown in the figure) through a support, a table frame 16 vertical to the rear supporting plate 17 is arranged at the bottom end of the rear supporting plate 17, a table frame 16 horizontal to the lower frame 21 is arranged on the periphery of the lower frame, and an electromagnetic valve is arranged at the front end of the table frame 16;

be equipped with exposure glass 14 above the stage frame 16, 14 frame rear ends of exposure glass are gone up in the articulated of stage frame 16 rear end, and 14 frame both sides of going up exposure glass are equipped with catching groove 22, and 14 frame sides of going up exposure glass are equipped with slide rail 20, are equipped with the pulley on the pulley holder 19 in the slide rail 20, and the telescopic link 18 is connected to the one end that slide rail 20 was kept away from to pulley holder 19, and backup pad 17 is connected to the telescopic link 18 other end, and lower exposure glass 11 is equipped with the sealing washer of matcing with the edge of last exposure glass 14 opposite face.

therefore, a user can acquire the vision module S304 and the data analysis and information linkage module of the exposure machine at any time and any place through the network communication module, and particularly, the effective output, the product quality and the equipment utilization rate concerned by the management user can be checked, analyzed and improved on line through a network.

The above examples, which are intended to represent only one embodiment of the present invention, are described in greater detail and with greater particularity, and should not be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (4)

1. an exposure machine of the Internet of things is characterized by comprising a mechanical device S302, an exposure device S303, a control device S301 and an Internet of things system S306;

The mechanical device S302 and the exposure device S303 are in information connection with the control device S301, the control device S301 is in information connection with the Internet of things system S306, the output end of the visual module S304 is in information connection with the control device S301 and the Internet of things system S306, the input end of the visual module S304 is in information connection with the mechanical device S302, and the output end of the mechanical device S302 is in information connection with the exposure device S303;

An operation control module, a network communication module and a data analysis module S305 are arranged in the Internet of things system S306;

the control device S301 comprises a monitoring and monitoring mechanism (57), and the monitoring and monitoring mechanism (57) consists of a monitoring module and a control module;

a monitoring module: the state of the mechanism is acquired through a sensor, a man-machine input device, a button, an instrument and related equipment which are arranged on the equipment, necessary conditions are provided for the system to realize automatic control and self-checking, and a user can monitor and inquire the condition;

a control module: the automatic control of the exposure machine of the Internet of things is realized through a computer, a display, a human-computer interface, human-computer equipment, a collection card, an input/output module, an axis control module, an optical fiber communication module, a conversion module, a PLC, a server, a frequency converter, a motor driver, a motor, an ultraviolet lamp, a lamp source driver, a switching power supply, a transformer, a relay, a control switch, an electromagnetic valve, a fan, a vacuum pump and a water cooler;

the exposure device S303 consists of an exposure table frame mechanism (54), an exposure lamp (53), an optical lens and a condenser;

the exposure lamp (53) comprises: optical device, light source, ultraviolet lamp;

the exposure stage frame mechanism (54) includes: the device comprises lower exposure glass (11), upper exposure glass (14), a sealing ring, a positioning assembly and a switch frame assembly;

a camera is arranged in the visual module S304; acquiring an optical graph of a product in real time, and analyzing the graph; the analysis result provides a basis for the system to judge the qualification of the product; uploading the visual analysis result to a server for a user to inquire and download;

The Internet of things exposure machine system acquires an optical graph of a product in real time through a vision module S304 installed on the equipment and analyzes the graph; the analysis result provides a basis for the system to judge the qualification of the product, the visual analysis result is uploaded to a server through a network communication module for a user to inquire and download, and meanwhile, the system calculates the qualification rate of multiple days according to the analysis result;

The Internet of things system S306 consists of a network communication module, a data analysis module S305 and an operation control module;

A network communication module: the network communication module is a necessary module for realizing interaction between a user and the exposure machine of the Internet of things and is a bridge for information intercommunication between the user and equipment; the network communication module contains network connection, function module, management module, user setting, user inquiry, data uploading, instruction issuing, remote control, automatic information reporting, automatic early warning reporting and information interaction function;

the data analysis module S305: data formed by the exposure machine of the Internet of things in the production process are automatically classified and stored, and a user can conveniently inquire the following data: effective output, qualification rate, first pass rate, utilization rate, product tracking and equipment maintenance tracking; the Internet of things exposure machine system automatically uploads the operation condition of the equipment to a user according to data, and meanwhile, a basis is provided for the user to enhance product tracing and optimize production management;

the operation control module includes: the alarm information, the prompt information, the production information and the operation information are automatically sent to a management user through a network, and the management user can send production demand information and operation information to the Internet of things exposure machine through the network at any time and any place; the management user can send production demand information and operation information to the Internet of things exposure machine through the network at any time and any place; the user can acquire a visual module S304 of the exposure machine, data analysis and information linkage at any time and any place through the network communication module;

The modules of the Internet of things system S306 are all arranged in the Internet of things system host (56);

the top, the middle rear side and the bottom of a rack of the exposure machine of the Internet of things are respectively provided with a control mechanism (51), the middle part of the rack is provided with a frame mechanism (52), the frame mechanism (52) is provided with an exposure table frame mechanism (54), and the upper surface and the lower surface of the exposure table frame mechanism (54) are provided with an exposure lamp (53), an optical lens and a condenser which are symmetrical; two sides of the frame mechanism (52) are provided with transmission mechanisms (55); a power supply driver (58), a monitoring and monitoring mechanism (57) and an Internet of things system host (56) are arranged in the rack; the power supply driver (58) and the monitoring and monitoring mechanism (57) are electrically connected with the Internet of things system host (56);

the control mechanism (51) comprises: a server, a frequency converter, a motor driver and a motor;

two human-computer interface display screens (31) are arranged on the front face of the shell of the exposure machine of the Internet of things, the human-computer interface display screens (31) are located on the left side and the right side of the front face of the shell, and a control switch (32) and an instrument and meter (33) are further arranged on the front face of the shell of the exposure machine of the Internet of things.

2. the IOT exposure machine of claim 1, wherein the control module of the monitoring and monitoring mechanism (57) mainly comprises a control mechanism (51) and a power driver (58), the control mechanism (51) mainly comprises: a server, a frequency converter, a motor driver and a motor;

the power driver (58) includes a switching power supply, a lamp driver.

3. The internet-of-things exposure machine according to claim 1, wherein the mechanical device S302 comprises an exposure stage frame and a kinetic energy component, and the mechanical device S302 comprises a frame mechanism (52), a transmission mechanism (55) and a detection mechanism;

The transmission mechanism (55) comprises a transfer assembly which mainly comprises a guide rail and a sliding table;

The frame mechanism (52) includes: the device comprises a working table surface, a sealing assembly, a positioning assembly, a switch frame assembly, a machine base (1) and an alignment exposure platform;

The detection mechanism includes: a camera lift assembly.

4. The Internet of things exposure machine according to claim 1, wherein the mechanical device S302 comprises a base (1), a motor (3) is arranged in the middle of the bottom surface of the base (1), two ends of the bottom surface of the base (1) are respectively provided with a transmission seat (5), the motor (3) is connected with a transmission case (15), and the transmission case (15) is connected with the transmission seats (5) through a transmission shaft (4);

two side faces of a machine base (1) are provided with side supports, a transmission base (5) is connected with the bottom end of a lifting cylinder (8), the top end of the lifting cylinder (8) is connected with a supporting lug on the side support of the machine base (1), a sliding rod (7) is fixedly arranged on the side support of the machine base (1), a slidable lifting plate (2) is arranged on the sliding rod (7), the lifting plate (2) is connected with a lifting shaft of the lifting cylinder (8) through a middle connecting plate, the lifting shaft of the lifting cylinder (8) can drive the lifting plate (2) to move up and down, a rotating shaft (6) penetrates through the middle connecting plate of the lifting plate (2), the rotating shaft (6) can ensure that the lifting plate (2) moves up and down to form linear motion, and the bottom of the rotating shaft (6);

the top end of the lifting plate (2) is connected with a workbench (9), a lower frame (21) is arranged on the workbench (9), an aligning device is arranged at the corner between the workbench (9) and the lower frame (21), the aligning device consists of a servo motor (12) and a screw rod (13), the servo motor (12) is fixed on the workbench (9), and the screw rod (13) driven by the servo motor (12) is arranged in a screw hole on the lower frame (21) in a penetrating manner;

an upper exposure glass (14) is arranged on the table frame (16), the rear end of the table frame (16) is hinged with the rear end of a frame of the upper exposure glass (14), two sides of the frame of the upper exposure glass (14) are provided with catching grooves (22), the side edge of the frame of the upper exposure glass (14) is provided with a sliding rail (20), a pulley on a pulley seat (19) is arranged in the sliding rail (20), one end, away from the sliding rail (20), of the pulley seat (19) is connected with a telescopic rod (18), the other end of the telescopic rod (18) is connected with a rear supporting plate (17), and the edge of the opposite surface of the lower exposure glass (11) and the upper exposure glass (;

the bottom of the workbench (9) is provided with a plurality of vacuum pump sockets (10); the side is equipped with vertical back backup pad (17) behind workstation (9), and back backup pad (17) set firmly on frame (1) through the support, and back backup pad (17) bottom is equipped with platform frame (16) perpendicular to it, and underframe (21) periphery is equipped with rather than horizontally platform frame (16), and platform frame (16) front end is equipped with the solenoid valve.