CN217821652U - Production management system - Google Patents

Abstract

The utility model discloses a production management system, include: the system comprises a server, a processor, an information reading terminal and an information display terminal; the information reading terminal is in communication connection with the processor, acquires the pattern identification code on the product and sends the acquired pattern identification code to the processor; the server is in communication connection with the processor, receives the configuration requirement information and the assembly information acquisition request sent by the processor, and sends the assembly information to the processor; and the information display terminal is in communication connection with the processor, receives the assembly information sent by the processor and displays the assembly information on a display screen. The utility model discloses a production management system is through attaching to the figure identification code on product basic structure, through reading the different assembly information of the product that the figure identification code obtained to correspond, realizes accurate assembly, can use the production assembly of the product that multiple configuration required is accomplished to same production line, is favorable to reduction in production cost.

Description

Production management system

Technical Field

The utility model belongs to the production management field relates to production management system.

Background

For example, when a basic model is provided for a large-sized product or equipment such as a vehicle, a plurality of differentiated models which can meet different requirements can be provided on the basis of the basic model according to market positioning, difference of use environments and requirements of equipment users on differentiation and individuation of the equipment. Typically as follows: the same type of vehicle can be divided into a low-distribution version and a high-distribution version frequently so as to adapt to different market demands. Therefore, many products and devices with consistent appearances have many differences in the functional modules and parts assembled in the products and the devices.

The assembly production of a plurality of large-scale devices is carried out through a standardized production line, and the requirements of products with different configurations on parts to be assembled are different, which brings difficulty to centralized production. But the problems of high cost, inconvenience for unified production management and the like exist in the process of independently developing production lines for products and equipment with different configurations. Therefore, even the same product and equipment with different configurations are often produced on one production line. How to solve and use the product of different configurations of the assembly production of the same production line becomes the key of improving production efficiency, lowering production cost utility model.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a production management system can satisfy the needs that the assembly has the product of different configuration requirements on same production line.

A production management system, comprising: the system comprises a server, a processor, an information reading terminal and an information display terminal;

the information reading terminal is in communication connection with the processor, acquires the pattern identification code on the product and sends the acquired pattern identification code to the processor;

the server is in communication connection with the processor, receives the configuration requirement information and the assembly information acquisition request sent by the processor, and sends the assembly information to the processor;

and the information display terminal is in communication connection with the processor, receives the assembly information sent by the processor and displays the assembly information on a display screen.

The information reading terminal is provided with a charging interface and an electric quantity indicator lamp.

Optionally, the information reading terminal is mounted on a wearable structure.

Optionally, the wearable structure has a dorsal portion that covers the dorsal portion, a wrist binding strap connected to a rear end of the dorsal portion, and at least one finger tube connected to a front end of the dorsal portion.

Optionally, a touch switch is configured on a surface of one side of the finger cylinder close to the thumb, and the touch switch is electrically connected with the information reading terminal.

Optionally, the touch switch is connected with a spring plate or a pressure-sensitive element, and the spring plate or the pressure-sensitive element is electrically connected with the information reading terminal.

Optionally, a placing bag for placing the information reading terminal is connected to the back of the hand, and a scanning window is formed at the front end of the placing bag.

Optionally, the top end of the placing bag is provided with a viewing port.

Optionally, the display screen is one of an LED display screen, an LCD display screen, an OLED display screen, or a liquid crystal display screen.

Optionally, a power receiving coil is configured on the information reading terminal, and the power receiving coil is coupled to the wireless charger.

Optionally, the information reading terminal is one of a barcode scanning component, a two-dimensional code scanning component, an infrared scanning component, or a laser scanning component.

The beneficial effects of the utility model include:

1. the utility model discloses a production management system is through attaching to figure recognition code such as two-dimensional code on product basic structure, through the different assembly information of the product that configuration requirement information in reading the figure recognition code obtained the correspondence, realizes the accurate assembly in the production assembling process, can use the production assembly of the product that multiple configuration required to accomplish of same production line to furthest, is favorable to reduction in production cost.

2. The utility model discloses an information reading terminal that discloses among the production management system installs at wearable structural, wherein operation gloves simple structure, when having guaranteed that information reading terminal is stably installed, furthest's reduction to the interference of operating personnel hand, also reduced the uncomfortable sense of long-time supporting traditional gloves simultaneously, be suitable for and use under the moist environment of sweltering heat.

Drawings

Fig. 1 is a schematic structural diagram of the production management system disclosed in the present invention.

Fig. 2 is an axonometric view of an exemplary embodiment of the connection structure of the information reading terminal and the wearable structure in the production management system disclosed by the present invention.

Fig. 3 is a schematic diagram of the wearable structure with the information reading terminal installed in the embodiment of fig. 2 being worn on the right hand.

Fig. 4 is a schematic top view of the wearable structure with the information reading terminal installed thereon in the embodiment of fig. 2.

Fig. 5 is a schematic diagram of a connection structure of a touch switch and a spring piece on the wearable structure in the embodiment of fig. 2.

In the figure: 1. an information reading terminal; 2. a back of the hand; 3. a finger cylinder; 4. a wrist binding band; 5. placing the bag; 6. a viewing port; 7. a touch switch; 8. an elastic sheet.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Taking vehicle production assembly as an example, in order to realize efficient assembly production of vehicles with different configurations on the same production line, a two-dimensional code or other pattern identification code identifiers are introduced in the vehicle assembly, and a production management system is provided based on the pattern identification codes.

The following describes the production management system disclosed in the present invention in detail by taking a two-dimensional code as an example.

The vehicle body structures of the same type of vehicle with different configurations are consistent, and the configuration difference is mainly reflected in aspects of power configuration, light assemblies, interior decoration and the like, so that the two-dimensional codes stored with the configuration information are pasted on the vehicle body structures through stickers or sprayed on the vehicle body structures in a code spraying mode, so that in the subsequent assembly link, operators in different processes obtain the configuration requirements and the assembly information corresponding to the vehicle body structures by reading the two-dimensional codes on the vehicle body structures, and the assembly process is completed according to the specified configuration requirements.

Other products needing to be assembled through a production line are often the same in basic structures of the same type of products with different configurations, so that the products can be assembled by attaching graphic identification codes such as two-dimensional codes to the basic structures and acquiring configuration requirement information during different procedures. In the case of a vehicle, a vehicle body structure is its basic structure.

It should be noted that the information stored in the two-dimensional code on the vehicle body is configuration requirement information of a vehicle or other products, specifically, according to different digital codes corresponding to different configuration requirement information of an assembled vehicle, each configuration requirement information corresponds to one digital code, the digital codes are converted into the two-dimensional codes and attached to the vehicle body, each configuration requirement information corresponds to one two-dimensional code, the configuration requirement information required by the vehicle body printed with the two-dimensional codes can be obtained by reading the two-dimensional codes, and the accuracy of the assembly process is ensured.

Fig. 1 is a block diagram illustrating an exemplary embodiment of the disclosed production management system.

The production management system comprises a server, at least one processor, a plurality of information reading terminals 1 and a plurality of information display terminals, wherein the information reading terminals 1 are basically in one-to-one correspondence with the information display terminals, namely one information reading terminal 1 corresponds to one information display terminal.

The information reading terminal 1 is used for reading a two-dimensional code or a barcode or other type of pattern recognition code on a vehicle body. The information display terminal is provided with a display screen and can display images and character information.

The server is connected with the processor in a communication mode through a wired or wireless network, a wireless communication module is arranged on the information reading terminal 1, and the information reading terminal 1 is in wireless communication connection with the processor through the wireless communication module; the information display terminal is also connected with the processor in a communication mode through a wired or wireless network.

The plurality of information reading terminals 1 and the plurality of information display terminals are given unique equipment identification numbers in the production management system according to different MAC addresses of the information reading terminals and the information display terminals, and meanwhile, a server is given unique station identification numbers to each assembly station according to the assembly production process. An information reading terminal 1 and the device identification number of the corresponding information display terminal are bound to form an information acquisition-display unit, and each information acquisition-display unit is endowed with an independent unit identification number. At least one information acquisition-display unit is configured on one station, and the unit identification number of the information acquisition-display unit is bound with the station identification number of the station. The station identification number corresponds to an assembly process required to be completed by the station in a production line in the system and parts required to be assembled matched with the process.

If a plurality of information acquisition-display units are configured on one workstation, the plurality of information acquisition-display units on the workstation are sequentially numbered in the system.

The server stores configuration requirement information of vehicles with different configuration requirements and a plurality of assembling information such as specifications, manufacturers, installation quantity, installation positions, installation operation and the like of parts corresponding to the different configuration requirement information. After the information reading device 1 reads the two-dimensional code on the vehicle body structure, the two-dimensional code graphic information is sent to the processor, and the processor receives the information sent by the information reading device 1 to obtain the configuration requirement information stored in the two-dimensional code, the station identification number bound by the information reading terminal 1 and the unit identification number of the information acquisition-display unit. The processor identifies the two-dimension code information to obtain configuration requirement information, then forwards the configuration requirement information and the station identification number to the server and sends a corresponding request for obtaining the assembly information to the server. The server identifies the received configuration requirement information, the station identification number and the assembly information acquisition request, retrieves assembly information corresponding to the configuration requirement information and the station identification number from the database, and sends the assembly information to the processor. And after receiving the assembly information, the processor reads the unit identification number corresponding to the terminal 1 according to the identified information, sends the assembly information to the information display terminal in the information acquisition-display unit, and displays the assembly information corresponding to the station process on a display screen of the information display terminal. The assembly information includes manufacturer, specification, installation position, installation method, installation quantity and manufacturer information of the parts to be installed, and the operator completes the assembly work according to the information. The mounting method refers to information such as how much mounting torque is required for the bolt connection, and how many rotations are required.

Therefore, the production management method based on the production management system comprises the following steps:

the method comprises the steps of obtaining configuration requirement information and process information including information such as station identification numbers stored in a two-dimensional code of a vehicle body mechanism, determining assembly information to be displayed on an information display terminal through identifying the configuration requirement information and the station information, sending the assembly information corresponding to the configuration requirement information and the process information to a station corresponding to the identified station information after a processor receives the assembly information sent by a server, and completing assembly work according to the guidance of the assembly information after an operator obtains the assembly information.

In an exemplary embodiment, a vehicle has three types of configuration, namely halogen headlights, xenon headlights and LED headlights, according to the principle of lighting of the headlights. The production management system is respectively endowed with three digital codes of vehicle types 01, 02 and 03 with three configurations of halogen headlights, xenon headlights and LED headlights, and the digital codes are converted into corresponding two-dimensional codes which are sprayed or stuck on a vehicle body structure. A station identification number of a station for assembling the headlamp is given as 11, a unit identification number of an information acquisition-display unit on the station is given as 22, correspondingly, an equipment identification number of 22-1 is given to an information reading terminal 1 in the information acquisition-display unit on the station, and an equipment identification number of 22-2 is given to the information display terminal.

After an information reading terminal 1 with the equipment identification number of 22-1 scans a two-dimensional code of a vehicle body, a processor receives a configuration requirement digital code which is read by the information reading terminal 1 with the number of 22-1 and is identified as 03, the processor transmits the information of 22-1 and 03 to a server, the server identifies an assembly process of installing an LED headlamp at the number 11 station, the assembly information of the LED headlamp is called and sent to the processor, the processor sends the received assembly information to an information display terminal with the number of 22-2, the information display terminal displays the assembly information of the LED headlamp, and the assembly information including manufacturer information, wiring method and the like of the LED headlamp is displayed on a display screen of the information display terminal.

It should be noted that the production management system disclosed in the present invention may also use a bar code or other patterns or digital identification codes instead of the two-dimensional code.

In one exemplary embodiment, the information reading terminal is a hand-held code scanning gun having a grip portion. When assembling, the operator holds the code scanning device to read the two-dimensional code or the bar code on the component and then starts assembling, but if the operator holds the production management system to perform production operation, the operation action of the operator is interfered, and the production efficiency is reduced.

In order to improve the operating efficiency who reads identification codes such as two-dimensional code, reduce the influence to the assembly operation, the utility model discloses information reading terminal 1 among the production management system is portable terminal and is installed on wearable structure.

The information reading terminal 1 is replaceably mounted on a wearable structure, and the information reading terminal 1 is a mobile terminal that can be worn on other body parts such as the hand or arm of an operator. The handheld information reading terminal 1 or more accurately the handheld yard device of sweeping that is used for solving the present use is too big, needs operating personnel to hold the operation and influences operating personnel carrier part or carry out production assembly action, leads to the problem that operating personnel production efficiency reduces.

The assembly information and the operation guide displayed on the display screen of the information display terminal indicate that the information such as the model, specification and installation position of the parts to be assembled, such as the information such as large torque required for installing a bolt at a certain position, is displayed to an operator according to the read production assembly information, so that the accurate operation of the operator is ensured.

Fig. 2 shows a wearable structure in an exemplary embodiment of the production management system of the present disclosure, wherein the wearable structure is an operating glove wearable on an operator's hand. Fig. 2 is a right-hand wearing operating glove. The operation glove comprises a hand back part 2 which covers or can cover at least the middle position of the right hand back of an operator, two tubular finger cylinders 3 are connected to the front end of the hand back part 2, and a detachable wrist binding belt 4 which can surround the right wrist is connected to the rear end of the hand back part 2. A certain interval is formed between the two tubular finger cylinders 3, the two tubular finger cylinders 3 are matched with the index finger and the ring finger of the right hand of an operator, namely the index finger and the ring finger of the right hand need to respectively extend into the two finger sleeves when the operator wears the operation gloves, and then the wrist binding belt 4 is bound on the wrist of the right hand, so that the operation gloves are stably worn at the position of the right hand of the operator. The two finger cylinders 3 and the wrist binding belt 4 form a three-point supporting structure, so that the operating glove can be stably worn on the right hand, and the operating glove can not fall off due to the action of the right hand.

The finger cylinder 3 has elasticity, is suitable for people of different body types to wear, and has better universality; similarly, the elastic band is arranged in the wrist binding band 4, so that different operators can adjust the wrist binding band 4 according to the thickness of their wrists when wearing the wrist binding band.

In this embodiment, the wrist binding band 4 is provided with a hook and loop fastener, and the wrist binding band 4 is firmly bound on the arm by the hook and loop fastener.

Information reading terminal 1 in this embodiment includes the casing, and the casing is the cuboid structure, installs the battery in the casing, is formed with the interface that charges at the casing rear end, and the casing top then is provided with the electric quantity pilot lamp that is used for showing the electric quantity, electric quantity pilot lamp and the interface that charges on all electric connection's the battery. The power switch is arranged outside the shell, and the power switch can control the on-off of the information reading terminal 1 by controlling the on-off of the power transmission circuit of the battery. Only when the information reading terminal 1 needs to be used, the power switch is turned on, and the information reading terminal 1 is placed in a standby state.

The electric quantity indicating lamp is a plurality of LED lamp sources arranged on a straight line, when the battery electric quantity of the information reading terminal 1 is full, all the LED lamp sources of the electric quantity indicating lamp are lightened, and along with the reduction of the battery electric quantity, the LED lamp sources are gradually extinguished to prompt an operator to pay attention to the electric quantity condition.

In this embodiment, the charging interface adopts a microsusb interface with a data transmission function, and a cable is connected to the charging interface, so that the part information, the product production information, and the like stored in the memory chip or other storage media in the information reading terminal 1 can be transmitted to data terminals such as a data computer, and data interaction with the data terminals can be realized.

As shown in fig. 3, the information reading terminal 1 is fixed in a placing bag 5 above the back of the hand 2, and the shape of the placing bag 5 matches the shape of the information reading terminal 1. The front end of the placing bag 5 is provided with a through scanning window, when the information reading terminal 1 is placed in the placing bag 5, a camera or a scanning head on the information reading terminal 1 just faces the position of the scanning window at the front end of the placing bag 5, and it is ensured that the placing bag 5 does not influence information reading. The top surface of the placing bag 5 is provided with a viewing port 6, the viewing port 6 is covered with transparent plastic, and the residual capacity of the battery of the information reading terminal 1 can be checked through the viewing port 6. The rear portion of the placing bag 5 is an open end, the hand back portion 2 placed behind the placing bag is further connected with a limiting cover used for fixing the information reading terminal 1 in the placing bag 5, the bottom end of the limiting cover is fixedly connected to the hand back portion 2, and the top end of the limiting cover can be opened and closed to cover the open end of the placing bag 5. In this embodiment, one side of the top of the limiting cover is connected with a magic tape with a soft round hair surface, the rear part of the top surface of the placing bag 5 is connected with a magic tape which is matched with the magic tape on the limiting cover and is provided with a hard hook thorn surface, and the limiting cover is connected with the placing bag 5 through the magic tape.

When the battery of the information reading terminal 1 is exhausted or a failure occurs, the information reading terminal 1 on the operating glove can be removed and replaced with a spare information reading terminal 1. Certainly, when the standby information reading terminal 1 is used, the production management system needs to be accessed again, and the equipment identification number is obtained and bound with the equipment identification number of the information display terminal on the station in the system.

Considering that the information reading terminal 1 needs to be started only when the part information needs to be read, the information reading terminal 1 does not need to be kept in the information reading state all the time, and only needs to wake up the information reading terminal 1 in time when the part information needs to be read, so that the power consumption of the information reading terminal 1 can be reduced, and the service life of the information reading terminal can be prolonged. Therefore, the information reading terminal 1 enters the standby sleep state when it is not necessary to read information, and wakes up the information reading terminal 1 when it is necessary to read information.

In order to facilitate switching between the standby state of the information reading terminal 1 and the operating state of information reading, a control switch for controlling the on/off of the information reading terminal 1 is further provided on the operating glove. The control switch is electrically connected with the information reading terminal 1 through a cable, and an operator operates the control switch to send a signal for turning on or off the information reading terminal 1.

In the embodiment shown in fig. 4, the control switch is a touch switch 7 disposed on the outer surface of the index finger cylinder 3 near the thumb side, and the touch switch 7 is electrically connected to the information reading module 1, that is, connected to the signal reading module 1 through a transmission cable. When the thumb touches the touch switch 7, the touch switch 7 sends a signal for starting or stopping information reading to the information reading terminal 1 to wake up the information reading terminal 1 or put the information reading terminal 1 into sleep. Then, the right-hand reading terminal can be moved to read information such as bar codes or two-dimensional codes on the vehicle body. When the information reading is completed, the operator touches the touch switch 7 to cause the information reading terminal 1 to end the information reading operation and enter a standby state.

As shown in fig. 4, in the present embodiment, the touch switch 7 is a cylindrical protrusion connected to the surface of the finger tube 3.

In order to avoid the problem of erroneous touch caused by the hand movement, the touch switch 7 is connected to a force feedback unit in the present embodiment. As shown in fig. 5, the bottom of the touch switch 7 is connected to an elastic sheet 8, when the pressure applied to the elastic sheet 8 exceeds the deformation threshold of the elastic sheet 8, the elastic sheet 8 deforms and makes a "click" sound, and sends a signal to the standby information reading module 1 that needs to read information, and the information reading module 1 is awakened and enters an information reading mode.

Specifically, the elastic sheet 8 is electrically connected to the information reading module 1. The spring plate 8 comprises a middle boss and a support part connected at the bottom of the boss, and the support part extends along the radial direction of the spring plate 8. When the convex part is subjected to a pressure value which exceeds the deformation of the convex part, the convex part deforms along the pressure direction and generates a 'click' sound, and when the pressure is reduced or removed, the convex part recovers.

The pressure value of the deformation of the elastic sheet 8 is adjusted to be larger than the pressure generated by the contact between fingers when the fingers perform actions such as grasping and the like, so that the standby information reading module 1 is prevented from being awakened when an operator performs assembly operation, and the use flexibility of the information reading module 1 is improved. When the code is scanned to read information, the finger touches the touch switch 7 and applies pressure to read the information.

In another exemplary embodiment, the force feedback unit on the touch switch 7 is a pressure-sensitive element connected to the touch switch 7, the pressure-sensitive element is electrically connected to the information reading terminal 1, and when the pressure-sensitive element detects that the pressure on the touch switch 7 reaches or exceeds the pressure value of the awakening information reading terminal 1, the pressure-sensitive element sends an awakening signal to the information reading terminal 1. The pressure sensitive element is a piezoresistor.

In another alternative embodiment, the touch switch 7 is set to require touching for 1 second or more until the touch switch 7 sends a control signal to the information reading terminal 1.

In another alternative embodiment, the touch switch 7 may be set to continuously touch the touch switch 7, so that the information reading terminal 1 enters the information reading operation mode, and when the finger no longer touches the touch switch 7, the information reading is immediately ended.

In order to make the information reading terminal 1 more convenient to use, in other embodiments, one or more of a speaker, a signal indicator light, a vibration motor, and the like for prompting are further configured on the information reading terminal 1. When the information reading terminal 1 enters the information reading mode, a signal indicating lamp on the information reading terminal 1 is turned on, and after the information reading is finished, the signal indicating lamp flickers to prompt an operator that the information reading is finished. In another embodiment, when the information reading terminal 1 enters the information reading mode, the vibration motor drives the information reading terminal 1 to vibrate briefly, and after the information reading is completed, the vibration motor drives the information reading terminal 1 to vibrate intermittently to prompt the operator that the information reading is completed.

In other embodiments, the operation glove comprises a back hand portion 2 and a middle finger sleeve connected to the front end of the back hand portion 2, the back hand portion 2 is connected to the wrist binding band 4 at the rear end, in this embodiment, the back hand portion 2 is substantially triangular, and the cross-sectional area of the back hand portion 2 is gradually enlarged from the front end to the rear end. In this embodiment, the operating glove forms a stable three-point support structure, which can ensure a stable wearing on the hand of the operator, and accordingly, the control switch is disposed on the side of the finger cylinder 3 close to the thumb.

It is believed that glove-like structures that can be stably worn on the hand are all useful in the wearable structure of the present invention.

In order to enable the information reading terminal 1 to satisfy the long-term usage requirement, in some embodiments, a power receiving coil is disposed on the information reading terminal 1, the power receiving coil is electrically connected to a battery of the information reading terminal 1, and the power receiving coil is coupled to a wireless charger, that is, the power receiving coil can receive power transmitted by the wireless charger through wireless transmission.

The Power receiving coil on the information reading terminal 1 and the Wireless charger for wirelessly charging the information reading terminal 1 satisfy one or more technical standards of the Qi standard, the Power matrices Alliance standard, the Alliance for Wireless Power standard, the iNPOFi technology and the Wi-Po technology.

In other embodiments, the charging interface on the information reading terminal 1 may also be a MiniUSB, type-C interface, or other common data interface. The information reading terminal 1 can be also provided with a wireless communication module, and information interaction with a display screen and a data storage reading terminal is realized through the wireless communication module. The wireless communication module can be a ZigBee wireless communication module, a Wifi wireless communication module, a Bluetooth wireless communication module and other wireless communication modules.

Through will be used for sweeping information reading terminal 1 that the sign indicating number read information place on the operating glove, do not influence the normal production operation action of operating personnel, also avoided needing to take repeatedly many times and place the loaded down with trivial details operation of sweeping the sign indicating number rifle, improved the convenience of operating personnel's work, effectively improved operating personnel's work efficiency. And compare common handheld yard rifle of sweeping, the utility model discloses an information reading terminal 1 of installing on wearable structure that uses among the production management system has characteristics small, portable, has also reduced operating personnel's work load. On the other hand, compare in the gloves or common dew finger gloves of parcel whole hand, the utility model discloses a wearable structure only needs wherein part finger to stretch into and indicates that a section of thick bamboo 3 is fixed, and the structure is simpler, and restriction to finger and palm is less, has reduced the influence of wearable structure to operating personnel hand action, and is applicable to and uses for a long time in the higher environment of temperature.

The information reading terminal 1 may be one of scanning devices such as a barcode scanning means, a two-dimensional code scanning means, a laser scanning means, or an infrared scanning means.

The utility model discloses a display screen among the production system can be one of LED display screen, LCD display screen, OLED display screen or liquid crystal display.

In an exemplary embodiment, the processor is an STM32 singlechip or an MSP430 singlechip or other common control chip.

In an exemplary embodiment, the server may employ a CISC architecture server or a RISC architecture server or a VLIW architecture server.

In an exemplary embodiment, the display screen of the information display terminal is arranged at one side of the assembling station, so that an operator can conveniently check the assembling information.

The foregoing description and description of the embodiments are provided to facilitate understanding and application of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications can be made to these teachings and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. The present invention is not limited to the above description and the description of the embodiments, and modifications and changes made by those skilled in the art without departing from the scope of the present invention should be considered within the protection scope of the present invention.

Claims (10)

1. A production management system, comprising: the system comprises a server, a processor, an information reading terminal and an information display terminal;

the information reading terminal is in communication connection with the processor, acquires the pattern identification code on the product and sends the acquired pattern identification code to the processor;

the server is in communication connection with the processor, receives the configuration requirement information and the assembly information acquisition request sent by the processor, and sends the assembly information to the processor;

the information display terminal is in communication connection with the processor, receives the assembly information sent by the processor and displays the assembly information on a display screen;

the information reading terminal is provided with a charging interface and an electric quantity indicator lamp.

2. The production management system according to claim 1, wherein: the information reading terminal is mounted on a wearable structure.

3. The production management system according to claim 2, wherein: the wearable structure is provided with a hand back part covering the hand back part, the back end of the hand back part is connected with a wrist binding belt, and the front end of the hand back part is connected with at least one finger cylinder.

4. The production management system according to claim 3, wherein: and a touch switch is arranged on the surface of one side of the finger cylinder close to the thumb and is electrically connected with the information reading terminal.

5. The production management system according to claim 4, wherein: the touch switch is connected with an elastic sheet or a pressure-sensitive element, and the elastic sheet or the pressure-sensitive element is electrically connected with the information reading terminal.

6. The production management system according to claim 3, wherein: the back of the hand is connected with a placing bag used for placing an information reading terminal, and a scanning window is formed at the front end of the placing bag.

7. The production management system according to claim 6, wherein: the top end of the placing bag is provided with an observation port.

8. The production management system according to claim 1, wherein: the display screen is one of an LED display screen, an LCD display screen, an OLED display screen or a liquid crystal display screen.

9. The production management system according to claim 1, wherein: and a receiving coil is configured on the information reading terminal and is coupled with a wireless charger.

10. The production management system according to any one of claims 1 to 2 or 4 to 6, wherein: the information reading terminal is one of a barcode scanning part, a two-dimensional code scanning part, an infrared scanning part, or a laser scanning part.

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