CN218299138U - Ann lamp system - Google Patents

Abstract

The application relates to the technical field of production line management, and discloses an ann's lamp system, includes: equipment; the intelligent warning lamp is connected with the equipment and used for changing the lighting state according to the state signal of the equipment and acquiring the state information of the equipment; the intelligent gateway is connected with the intelligent warning lamp and used for acquiring state information or lighting state information from the intelligent warning lamp and sending the state information or lighting state information to the management platform; and the management platform is connected with the intelligent gateway and is used for acquiring the state information or the lighting state information and processing the state information or the lighting state information. By the aid of the mode, rapid feedback of alarm information is achieved, and online collection and transmission of data are achieved.

Description

Ann lamp system

Technical Field

The application relates to the technical field of production line management, in particular to an ampere lamp system.

Background

The light-setting system is a light and sound alarm system distributed everywhere in a workshop for an enterprise, and can show the state of related equipment on a production line and the information such as the production quality of the related equipment through the light display of a warning light. The warning lamp in the prior art does not have a communication function, so that online acquisition and data transmission of equipment cannot be performed.

SUMMERY OF THE UTILITY MODEL

The main technical problem who solves of this application provides an ann's lamp system, can solve among the prior art warning light can not the online problem of gathering and transmitting data.

In order to solve the above technical problem, a technical solution adopted in the first aspect of the present application is: the utility model provides an ann's lamp system, this ann's lamp system include intelligent warning light, and intelligent warning light includes:

the lamp body is connected with the equipment and changes the lighting state according to the state signal of the equipment; wherein the lighting state comprises lighting or extinguishing; the receiving module is used for connecting with the equipment and acquiring the state information of the equipment; or, the lighting control device is connected with the lamp main body and used for acquiring the lighting state information of the lamp main body; and the sending module is connected with the receiving module and used for sending the state information or the lighting state information to the intelligent gateway.

Optionally, the receiving module is further configured to receive a control instruction sent by the intelligent gateway, so that the lighting state of the lighting fixture main body is changed according to the control instruction.

Optionally, the color types of the lamp body include a first color lamp, a second color lamp, a third color lamp, a fourth color lamp and a fifth color lamp.

In order to solve the above technical problem, a technical solution adopted by the second aspect of the present application is: the utility model provides an ann's lamp system, this ann's lamp system includes intelligent gateway, and intelligent gateway includes:

the collecting module is used for collecting the state information of the equipment connected with the sending module of the intelligent warning lamp or the lighting state information of the intelligent warning lamp; and the transmission module is connected with the collection module and is used for transmitting the state information of the equipment connected with the transmission module of the intelligent warning lamp or the lighting state information of the intelligent warning lamp to the management platform.

Optionally, the transmission module is further configured to acquire a control instruction sent by the management platform, and send the control instruction to the receiving module of the intelligent warning light.

In order to solve the above technical problem, a technical solution adopted by the third aspect of the present application is: there is provided a light system comprising an apparatus comprising:

an apparatus body for generating a status signal; the output module is connected with the equipment main body and used for outputting a state signal of the equipment to the lamp main body of the intelligent warning lamp so that the lamp main body changes the lighting state according to the state signal; or the intelligent warning lamp is used for being connected with the receiving module of the intelligent warning lamp and outputting the state information of the equipment to the receiving module.

In order to solve the above technical problem, a technical solution adopted in the fourth aspect of the present application is: there is provided a light system comprising a management platform, the management platform comprising:

the transmission module is used for acquiring the state information of equipment connected with the transmission module of the intelligent warning lamp or the lighting state information of the intelligent warning lamp, which is transmitted by the intelligent gateway; and the processing module is connected with the transmission module and is used for processing the state information or the lighting state information.

Optionally, the processing module is further configured to generate a control instruction; the transmission module is also used for sending the control instruction to the intelligent gateway.

Optionally, the management platform further comprises:

and the display module is connected with the processing module and used for displaying the result obtained by processing the state information or the lighting state information by the processing module.

In order to solve the above technical problem, a technical solution adopted in the fifth aspect of the present application is: there is provided a light system comprising:

equipment; the intelligent warning lamp is connected with the equipment and used for changing the lighting state according to the state signal of the equipment and acquiring the state information of the equipment; the intelligent gateway is connected with the intelligent warning lamp and used for acquiring state information or lighting state information from the intelligent warning lamp and sending the state information or lighting state information to the management platform; and the management platform is connected with the intelligent gateway and is used for acquiring the state information or the lighting state information and processing the state information or the lighting state information.

Optionally, the management platform is further configured to generate a control instruction, and send the control instruction to the intelligent gateway; the intelligent gateway is also used for acquiring a control instruction and sending the control instruction to the intelligent warning lamp; the intelligent warning lamp is also used for acquiring a control instruction and changing the lighting state according to the control instruction.

Being different from prior art, the ann's lamp system that this application provided includes: equipment; the intelligent warning lamp is connected with the equipment and used for changing the lighting state according to the state signal of the equipment and acquiring the state information of the equipment; the intelligent gateway is connected with the intelligent warning lamp and used for acquiring state information or lighting state information from the intelligent warning lamp and sending the state information or lighting state information to the management platform; and the management platform is connected with the intelligent gateway and is used for acquiring the state information or the lighting state information and processing the state information or the lighting state information. By the mode, the intelligent warning lamp in the safety lamp system is directly installed on the equipment, so that the equipment is convenient to upgrade; the intelligent warning lamp can change the lighting state according to the equipment state signal and acquire the state information of the equipment; the intelligent gateway can acquire the state information of the equipment or the lighting state information of the intelligent warning lamps from the intelligent warning lamps, so that the equipment coverage in a wider range is realized; the intelligent gateway can also upload the state information or the information of the lighting state to a management platform, so that the rapid feedback of alarm information is realized, and the online acquisition and transmission of data are realized.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic diagram of an embodiment of a light system provided herein;

FIG. 2 is a schematic diagram of the structure of the device of the light installation system provided in the present application;

FIG. 3 is a schematic structural diagram of an intelligent warning light of the light security system provided in the present application;

FIG. 4 is a schematic structural diagram of an intelligent gateway of the light security system provided in the present application;

fig. 5 is a schematic structural diagram of a management platform of the ampere lamp system provided by the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a light security system provided in the present application, where the light security system 100 includes a device 110, an intelligent warning light 120, an intelligent gateway 130, and a management platform 140.

Alternatively, the device 110 may be various devices that need to be monitored in a factory workshop, such as a robot, a production line, an instrument, a lathe, a machining center, and the like, without being limited in particular.

Alternatively, the intelligent warning lamp 120 is mounted on the device 110, and is connected to the control signal terminal of the device 110 through a control line, so as to change the lighting state according to the state signal of the device 110, and can acquire the state information of the device 110. The lighting state of the intelligent warning lamp 120 includes lighting or extinguishing.

Optionally, the intelligent warning light 120 is a standard diameter warning light, and may be directly replaced for the original existing warning light of some devices. The color types of the intelligent warning lamp 120 include a first color lamp, a second color lamp, a third color lamp, a fourth color lamp and a fifth color lamp, and the intelligent warning lamp can be installed in a proper style according to the actual requirements of the field device. It is understood that different colors of the intelligent warning light 120 represent different states of the device 110, and generally, a bright green light represents normal operation of the device, a bright yellow light represents standby of the device, and a bright red light or flashing red light represents abnormal operation of the device. The on-site personnel can determine the status of the device 110 according to the lighting status of the intelligent warning lamp 120.

Optionally, the intelligent warning light 120 may have a built-in wireless communication module, and when the device 110 is powered on, the intelligent warning light 120 is powered on, and at this time, the wireless communication module starts to operate, and may be connected to the intelligent gateway 130 based on the LoRa wireless communication function, and send the state information of the device 110 or the information of the lighting state of the intelligent warning light 120 to the intelligent gateway 130.

Optionally, the intelligent warning light 120 may send corresponding information to the intelligent gateway 130 after the lighting state is changed each time, or may send the state information of the device 110 or the lighting state information of the intelligent warning light 120 to the intelligent gateway 130 according to a preset time interval. The preset time interval may be 1 minute, 3 minutes, 5 minutes, and the like, and may be set according to actual conditions, and is not specifically limited herein.

Specifically, loRa is a low-power consumption local area network wireless standard developed by Semtech corporation, and aims to solve the problem of contradiction between power consumption and transmission difficult coverage distance. Generally, the transmission distance is short under low power consumption, and the transmission distance is long under high power consumption, so that the technical problem that the transmission distance is longer than that of other wireless modes under the same power consumption condition is solved by developing the LoRa technology, and the unification of low power consumption and long distance is realized. LoRa is actually an internet of things (IoT) wireless platform. The LoRa chipset of Semtech connects the sensors to the cloud, enabling real-time communication of data and analysis, thereby improving efficiency and productivity.

Optionally, the intelligent gateway 130 and the intelligent warning light 120 are wirelessly connected based on the LoRa technology, and in some other embodiments, may be connected by wire. The intelligent gateway 130 may manage a plurality of intelligent warning lamps 120 in one area at the same time, and may obtain status information of the device 110 or lighting status information of the intelligent warning lamps 120 from one or more intelligent warning lamps 120 and upload the information to the management platform 140.

Optionally, the management platform 140 is connected to the intelligent gateway 130 through a network (ethernet, wifi,4g,5 g) based on an internet of things protocol MQTT, and is configured to obtain status information of the device 110 or lighting status information of the intelligent warning light 120 from the intelligent gateway 130, and process the information, for example, associate the status information of the device and the lighting status information of the intelligent warning light with the corresponding device, and display the information on a user interface; and alarming and prompting the abnormal information, and automatically pushing the abnormal information to a related person in charge, and the like.

In particular, MQTT (message queue telemetry transport) is a publish/subscribe paradigm based messaging protocol under the ISO standard (ISO/IEC PRF 20922). It works on the TCP/IP suite, a publish/subscribe messaging protocol designed for remote devices with poor hardware performance and in case of poor network conditions, for which it requires a message middleware. MQTT is a client-server based message publish/subscribe transport protocol. The MQTT protocol is lightweight, simple, open, and easy to implement, which makes it very versatile. In many cases, including in restricted environments, such as: machine-to-machine (M2M) communication and internet of things (IoT). It has found widespread use in communication sensors via satellite links, occasionally dial-up medical devices, smart homes, and some miniaturized devices.

Optionally, the user may further perform an operation on the management platform 140 to generate a control instruction, for example, when the management platform 140 needs to reversely control the intelligent warning lamp 120 to turn on the intelligent warning lamp, a corresponding control instruction is generated and sent to the intelligent gateway 130, after the intelligent gateway 130 obtains the control instruction, the control instruction is sent to the corresponding intelligent warning lamp 120, and after receiving the control instruction, the intelligent warning lamp 120 turns on the intelligent warning lamp 120 from off according to the control instruction; after the lighting state is changed, the intelligent warning light 120 may also feed back the information of the lighting state to the management platform 140 through the intelligent gateway 130, so as to complete a closed loop of control. The function of 'safety light' is realized through the cooperative cooperation of the intelligent warning light 120, the intelligent gateway 130 and the management platform 140.

Compared with the prior art, the ampere lamp system provided by the embodiment comprises: equipment; the intelligent warning lamp is connected with the equipment and used for changing the lighting state according to the state signal of the equipment and acquiring the state information of the equipment; the intelligent gateway is connected with the intelligent warning lamp and used for acquiring state information or lighting state information from the intelligent warning lamp and sending the state information or lighting state information to the management platform; and the management platform is connected with the intelligent gateway and is used for acquiring the state information or the lighting state information and processing the state information or the lighting state information. By the mode, the intelligent warning lamp in the safety lamp system is directly installed on the equipment, so that the equipment is convenient to upgrade; the intelligent warning lamp can change the lighting state according to the equipment state signal and acquire the state information of the equipment; the intelligent gateway can acquire the state information of the equipment or the lighting state information of the intelligent warning lamps from the intelligent warning lamps, so that the equipment coverage in a wider range is realized; the intelligent gateway can also upload the state information or the information of the lighting state to a management platform, so that the rapid feedback of alarm information is realized, and the online acquisition and transmission of data are realized.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an apparatus in an embodiment of the present application, and the apparatus 110 includes an apparatus main body 111 and an output module 112.

Alternatively, the devices 110 may be various devices that need to be monitored in a factory floor, such as robots, production lines, instruments, lathes, machining centers, and the like.

Optionally, the equipment body 111 is used to generate status signals, such as temperature, vibration, fault information, etc. of the equipment, which are related to the safe operation of the production line.

Optionally, the device body 111 may include various sensors, such as temperature sensors, vibration sensors, chemical sensors, acoustic sensors, etc., which may provide continuous or timed monitoring of various conditions of the device while the device is in an operational state.

Specifically, a sensor (known by the english name: transducer/sensor) is a detection device, which can sense measured information and convert the sensed information into an electrical signal or other information in a required form according to a certain rule for outputting, so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like. The sensor is characterized in that: miniaturization, digitalization, intellectualization, multifunction, systematization and networking. The method is the first link for realizing automatic detection and automatic control. The existence and development of the sensor enable the object to have the senses of touch, taste, smell and the like, and the object slowly becomes alive. Generally, the sensor is classified into ten categories, i.e., a thermosensitive element, a photosensitive element, a gas-sensitive element, a force-sensitive element, a magnetic-sensitive element, a humidity-sensitive element, a sound-sensitive element, a radiation-sensitive element, a color-sensitive element, and a taste-sensitive element, according to their basic sensing functions.

In particular, a temperature sensor refers to a sensor that senses temperature and converts it into a usable output signal. The temperature sensor is the core part of the temperature measuring instrument and has a plurality of varieties. The measurement method can be divided into a contact type and a non-contact type, and the measurement method can be divided into a thermal resistor and a thermocouple according to the characteristics of sensor materials and electronic elements. The vibration sensor is a commonly used alarm detection sensor at present, which senses parameters (such as vibration speed, frequency, acceleration and the like) of mechanical motion vibration through an internal piezoelectric ceramic piece and spring heavy hammer structure, converts the parameters into usable output signals, and then amplifies the signals through an LM358 and other operational amplifiers and outputs control signals. Can be divided into three major categories, mechanical, optical and electrical. The principles and classification of still other sensors are not described in detail herein.

Optionally, for different devices, application scenarios and operating environments of the devices are different, and different parameters need to be monitored, so that the types, the number, the installation positions, and the like of the sensors on the device main body 111 may be set according to actual needs, which is not specifically limited herein.

Optionally, the output module 112 is connected to the device body 111, and is configured to output a status signal of the device 110 to a lamp body of the intelligent warning light, so that the lamp body changes an illumination status according to the status signal. For example, in a specific embodiment, if the temperature of the device 110 exceeds a preset alarm temperature, the output module 112 will output a temperature alarm status signal to the lamp main body of the intelligent warning light after acquiring the information, and the lamp main body turns on the red light according to the status signal, so as to prompt the production staff to pay attention and timely perform an operation to handle the over-temperature.

Optionally, the output module 112 may also be connected to a receiving module of the intelligent warning light, for outputting the status information of the device 110 to the receiving module. For example, in a specific embodiment, when the device 110 has a fault, the output module 112 outputs the status information of the fault to the receiving module of the intelligent warning light after acquiring the information, so that after the receiving module acquires the status information, the sending module of the intelligent warning light sends the status information to the intelligent gateway through the sending module of the intelligent warning light and the like, and then the status information is uploaded to the management platform through the intelligent gateway, thereby reminding a manager of paying attention, checking the fault information of the device 110 in time, and performing processing to ensure the normal operation of the production line.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an intelligent warning light in an embodiment of the present application, where the intelligent warning light 120 includes a light fixture body 121, a receiving module 122, and a sending module 123.

Optionally, the lamp body 121 is configured to connect to a device and change a lighting state according to a status signal of the device, where the lighting state includes on or off.

Optionally, the color types of the lamp body 121 include a first color lamp, a second color lamp, a third color lamp, a fourth color lamp, and a fifth color lamp, and fig. 3 shows the third color lamp, which can be selected according to the requirements of the field device in an actual scene. It can be understood that different information can be represented according to the combination of the lamps with different colors, and the corresponding relationship between the different color combinations of the lamp main body 121 and the device status information can be formulated according to actual situations, so as to improve the adaptability and flexibility of the intelligent warning lamp 120 to various application scenarios.

Optionally, the receiving module 122 connects to the device and obtains status information of the device. It is understood that the status information of the device may include normal operation, failure, maintenance shutdown, etc., and the receiving module 122 may continuously obtain the status information from the device, or may obtain the status information from the device at preset time intervals. The preset time interval may be 1 minute, 3 minutes, 5 minutes, etc., and is not particularly limited herein.

Optionally, the receiving module 122 may also be connected to the lamp main body 121, and is configured to acquire information of the lighting state of the lamp main body 121. It can be understood that the lighting state information of the lamp body 121 and the state information of the device are in a one-to-one correspondence relationship, that is, the lighting state information of the lamp body 121 can reflect the state information of the device, so the receiving module 122 can also fetch the lighting state information from the lamp body 121, and the receiving module 122 can continuously fetch the lighting state information from the lamp body 121, and can also fetch the lighting state information from the lamp body 121 at preset time intervals. The preset time interval may be 1 minute, 3 minutes, 5 minutes, etc., and is not limited in particular.

Optionally, the sending module 123 is connected to the receiving module 122, and is configured to send the status information of the device or the lighting status information of the luminaire main body 121 to the intelligent gateway. After the receiving module 122 acquires the status information from the device or acquires the lighting status information from the lamp main body 121 each time, the sending module 123 immediately sends the status information of the device or the lighting status information of the lamp main body 121 to the intelligent gateway, so as to ensure the timeliness of information transmission.

Optionally, the intelligent warning lamp 120 may further include a button, so that when a production person finds an emergency situation in the field, the lighting state of the main body of the lamp can be changed through the button. In the multicolor lamp, the button can be arranged in a way that one button is used for directional control corresponding to one color lamp, or the buttons can be arranged in a way that the lamps in a plurality of colors corresponding to one button are used for alternate control, and the button can be arranged according to actual requirements. For example, if a manufacturer finds that a workpiece of the lathe is not fixed firmly, the green light and the red light of the lamp body 121 can be turned off and turned on immediately through the buttons on the intelligent warning light, so as to prompt the dangerous situation on site; meanwhile, the receiving module 122 acquires the information of the lighting state of the lamp main body 121, the sending module 123 sends the information to the intelligent gateway, and the intelligent gateway uploads the information to the management platform to prompt all workers to pay attention, so that the rapid feedback of the alarm information is ensured. After the production personnel stop to fix the machined part of the lathe again, the red light and the green light of the lamp body 121 can be turned off and turned on through the buttons on the intelligent warning light, so that the situation that dangerous conditions on site are processed is prompted; meanwhile, the receiving module 122 acquires information of the lighting state of the lamp body 121, the sending module 123 sends the information to the intelligent gateway, and the intelligent gateway uploads the information to the management platform to inform all workers that the emergency situation is processed and the production can continue.

Optionally, the receiving module 122 may be further configured to receive a control instruction sent by the intelligent gateway, so that the light fixture main body 121 changes the lighting state according to the control instruction. For example, when a certain device needs to be overhauled and should be stopped, a manager can operate on the management platform to generate a control instruction and send the control instruction to the intelligent gateway, and then the intelligent gateway sends the control instruction to the corresponding intelligent warning lamp 120, and after the receiving module 122 receives the control instruction, the lamp main body 121 turns off the green lamp and turns on the red lamp according to the control instruction to prompt the field production personnel that the device is in an overhauled state and is forbidden to use; meanwhile, the sending module 123 sends the information of the lighting state to the intelligent gateway, and the intelligent gateway uploads the information to the management platform to complete the closed loop of control. After the maintenance work is completed, the manager obtains a message, the manager can operate on the management platform again, the production control instruction is sent to the intelligent gateway, and then the intelligent gateway sends the production control instruction to the corresponding intelligent warning light 120, and after the receiving module 122 receives the control instruction, the light fixture body 121 turns off the red light and turns on the green light according to the control instruction, so as to prompt the field production personnel that the equipment maintenance is completed and the equipment is recovered to a normal operation state.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an intelligent gateway in an embodiment of the present application, and the intelligent gateway 130 includes a collection module 131 and a delivery module 132.

Optionally, the intelligent gateway 130 is a network device, is a key of the local area network intellectualization, generally supports virtual network access, wifi access, wired broadband access, and the like, and can implement functions of information acquisition, information input, information output, centralized control, remote control, coordinated control, and the like for each sensor, network device, camera, host, and the like in the local area network.

Optionally, the collecting module 131 is configured to collect status information of devices connected to the sending module of the intelligent warning light in one area or lighting status information of the intelligent warning light. The collection module 131 can establish wireless connection with intelligent warning lamps in one area, and continuously collect the state information of the devices connected with the intelligent warning lamps or the lighting state information of the intelligent warning lamps sent by the sending modules of the intelligent warning lamps; the collecting module 131 may also collect the status information of the devices connected to the sending modules of the intelligent warning lamps or the lighting status information of the intelligent warning lamps according to a preset time interval.

Optionally, the transmitting module 132 is connected to the collecting module 131, and configured to transmit the status information of the device connected to the sending module of the intelligent warning lamp or the lighting status information of the intelligent warning lamp to the management platform.

Optionally, the transmission module 132 is further configured to obtain a control instruction sent by the management platform, and send the control instruction to the receiving module of the intelligent warning light, so that after the intelligent warning light receives the control instruction, the lighting state is changed according to the control instruction, and a "light-down" function is implemented.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a management platform in an embodiment of the present application, where the management platform 140 includes a transmission module 141 and a processing module 142.

Optionally, the transmission module 141 is configured to obtain status information of a device connected to the intelligent warning light, which is sent by the intelligent gateway and sent by the sending module of the intelligent warning light, or information of a lighting state of the intelligent warning light.

Optionally, the processing module 142 is connected to the transmission module 141, and is configured to process the status information or the lighting status information.

Alternatively, the processing module 142 may be a Central Processing Unit (CPU), which is one of the main devices of an electronic computer, and is a core accessory in the computer. Its functions are mainly to interpret computer instructions and to process data in computer software. The CPU is the core component of the computer responsible for reading, decoding and executing instructions. The central processor mainly comprises two parts, namely a controller and an arithmetic unit, and also comprises a cache memory and a bus for realizing data and control of the connection between the cache memory and the arithmetic unit. The central processing unit mainly has the functions of processing instructions, executing operations, controlling time and processing data. In a computer architecture, a CPU is a core hardware unit that performs control and allocation of all hardware resources (such as memory and input/output units) of a computer and performs general operations. The CPU is the computational and control core of the computer. The operation of all software layers in the computer system will eventually be mapped to the operation of the CPU by the instruction set.

Optionally, the management platform 140 may further include a display module 143, where the display module 143 is connected to the processing module 142, and is configured to display a result obtained by processing the state information or the lighting state information by the processing module 142. For example, a statistical table of devices on a production line may be displayed, status information of each device may be displayed in a corresponding area of each device, or alarm information may be highlighted in a pop-up window manner.

Alternatively, the display module 143 may be a display, which belongs to an I/O device of a computer, i.e., an input/output device. The electronic document display tool is a display tool which displays a certain electronic document on a screen through a specific transmission device and reflects the electronic document to human eyes. It can be divided into CRT display, LCD display, LED display and so on.

Optionally, the management platform 140 further includes a storage module, configured to store the state information of the device or the lighting state information of the intelligent warning light acquired by the transmission module 141, and store a result obtained by processing the state information of the device or the lighting state information of the intelligent warning light by the processing module 142. The storage module may update the stored data information after the status information of the device or the lighting status information of the intelligent warning light changes each time, so as to ensure that the data information in the management platform 140 is always up-to-date and is always consistent with the production line. When a control command needs to be generated to control the intelligent warning lamp, a manager directly operates according to the stored latest equipment state information or the information of the lighting state of the intelligent warning lamp, does not need to call the real-time equipment state information or the lighting state information of the intelligent warning lamp from a production line again, and can improve the production speed of the control command.

Alternatively, the storage module may be a memory, including a Read Only Memory (ROM) or a Random Access Memory (RAM), which is a memory device in the computer system and is mainly used for storing programs and data. All information in the computer, including the input raw data, the computer program, the intermediate run results, and the final run results, is stored in memory. It is based on the position of controller to store and take out information.

Optionally, the management platform 140 may also include peripherals such as a mouse, a keyboard, etc., through which a user may operate.

Optionally, the processing module 142 is further configured to generate a control instruction based on an operation of a user; the transmission module 141 is further configured to send the control command to the intelligent gateway, and the control command is sent to the corresponding intelligent warning light by the intelligent gateway, so as to complete a corresponding "light security" operation.

The above description is only for the purpose of illustrating embodiments of the present invention and is not intended to limit the scope of the present invention, which is defined by the claims and their equivalents, or by direct or indirect application to other related arts.

Claims (10)

1. The utility model provides an ann's lamp system which characterized in that, ann's lamp system includes intelligent warning light, intelligent warning light includes:

the lamp body is connected with the equipment and changes the lighting state according to the state signal of the equipment; wherein the lighting state comprises lighting on or off;

the receiving module is used for connecting with the equipment and acquiring the state information of the equipment; or, the lighting control device is connected with the lamp main body and used for acquiring the information of the lighting state of the lamp main body;

and the sending module is connected with the receiving module and used for sending the state information or the information of the lighting state to the intelligent gateway.

2. The Ann lamp system according to claim 1, wherein the receiving module is further configured to receive a control instruction sent by the intelligent gateway, so that the lamp main body changes an illumination state according to the control instruction.

3. A light system comprising an apparatus, the apparatus comprising:

an apparatus body for generating a status signal;

the output module is connected with the equipment main body and used for outputting a state signal of the equipment to a lamp main body of the intelligent warning lamp so that the lamp main body changes a lighting state according to the state signal; or the intelligent warning light is used for being connected with a receiving module of the intelligent warning light and outputting the state information of the equipment to the receiving module; wherein the intelligent warning light is as claimed in claim 1 or claim 2.

4. A light system, characterized in that, light system includes intelligent gateway, intelligent gateway includes:

the collecting module is used for collecting the state information of the equipment connected with the sending module of the intelligent warning lamp or the lighting state information of the intelligent warning lamp;

and the transmission module is connected with the collection module and used for transmitting the state information of the equipment connected with the transmission module of the intelligent warning lamp or the information of the lighting state of the intelligent warning lamp to the management platform.

5. The amp system of claim 4,

the transmission module is also used for acquiring a control instruction sent by the management platform and sending the control instruction to the receiving module of the intelligent warning lamp.

6. A light system, comprising a management platform, the management platform comprising:

the transmission module is used for acquiring the state information of equipment connected with the transmission module of the intelligent warning lamp or the lighting state information of the intelligent warning lamp, which is transmitted by the intelligent gateway;

and the processing module is connected with the transmission module and used for processing the state information or the lighting state information.

7. The amp system of claim 6,

the processing module is also used for generating a control instruction;

and the transmission module is also used for sending the control instruction to the intelligent gateway.

8. The amp system of claim 6,

the management platform further comprises:

and the display module is connected with the processing module and used for displaying a result obtained by processing the state information or the lighting state information by the processing module.

9. A light system, comprising:

equipment;

the intelligent warning lamp is connected with the equipment and used for changing the lighting state according to the state signal of the equipment and acquiring the state information of the equipment;

the intelligent gateway is connected with the intelligent warning lamp and used for acquiring the state information or the lighting state information from the intelligent warning lamp and sending the state information or the lighting state information to a management platform;

and the management platform is connected with the intelligent gateway and is used for acquiring the state information or the lighting state information and processing the state information or the lighting state information.

10. The amp system of claim 9,

the management platform is also used for generating a control instruction and sending the control instruction to the intelligent gateway;

the intelligent gateway is also used for acquiring the control instruction and sending the control instruction to the intelligent warning lamp;

the intelligent warning lamp is further used for obtaining the control instruction and changing the lighting state according to the control instruction.

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