CN218866328U - Intelligent laboratory management system - Google Patents

Abstract

The utility model discloses a wisdom laboratory management system, including centralized control host computer, thing allies oneself with terminal, intelligent entrance guard, noninductive attendance, centralized control panel, the centralized control host computer passes through bus connection centralized control panel, thing allies oneself with terminal, intelligent entrance guard, noninductive attendance all with centralized control host computer communication connection, simple structure realizes high-efficient control.

Description

Intelligent laboratory management system

Technical Field

The utility model relates to a management system, more specifically say a bit, relate to a wisdom laboratory management system, belong to wisdom laboratory management system field.

Background

Along with the continuous deepening of colleges and universities 'education informationization construction, the scale of colleges and universities' laboratory constantly enlarges, and experimental facilities quantity and informationization degree constantly promote, though promoted the teaching quality, the management level and the service level of laboratory to a certain extent, but also ubiquitous weak point: the laboratory lacks centralized and unified management platform, does not realize the information-based, intelligent management to equipment, in order to promote the managerial efficiency in laboratory to and realize the comprehensive intelligent management in laboratory, so need improve.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior art problem, the utility model provides a have simple structure, the practicality is strong, can be with the organic integration of new generation information technology and intelligent equipment and laboratory, construct open, interactive, shared comprehensive experiment information service platform based on the internet, construct a wisdom laboratory management system of technical characterstic such as visual, intelligent automated management based on intelligent control technique.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model provides a wisdom laboratory management system, includes centralized control host computer, thing allies oneself with terminal, intelligent entrance guard, noninductive attendance, centralized control panel, the centralized control host computer passes through bus connection centralized control panel, thing allies oneself with terminal, intelligent entrance guard, noninductive attendance all with centralized control host computer communication connection.

Preferably, the centralized control panel comprises a touch screen display module 1, an RFID induction module 1, an intercom induction module and a bottom communication module, and the touch screen display module 1, the RFID induction module 1, the intercom induction module and the bottom communication module are electrically connected.

Preferably, the centralized control host comprises a main control panel module, a multimedia control module, an internet of things gateway module, a network switching module and an intercom control module, and the main control panel module, the multimedia control module, the internet of things gateway module, the network switching module and the intercom control module are electrically connected.

Preferably, the internet of things terminal comprises an electric appliance control module and an environment monitoring module, and the electric appliance control module and the environment monitoring module are electrically connected with each other.

Preferably, intelligent entrance guard includes touch display module 2, RFID response module 2, electromagnetism lock, electric connection between touch display module 2, RFID response module 2, the electromagnetism lock.

Preferably, the noninductive attendance comprises a camera module and an image recognition module, wherein the camera module and the image recognition module are electrically connected and are responsible for grabbing and recognizing the human face.

Preferably, the main control panel module comprises a 1.8ghz 64-bit ARM chip, the main control panel module is connected with the internet of things gateway module through an LAN network interface, the main control panel module is connected with the multimedia control module through a serial port 1 ((a)), and the main control panel module is connected with the talkback control module through an LAN network interface; the main control panel module is connected with the centralized control panel through the serial port 2 (B) and the HDMI.

Preferably, the internet of things gateway module includes a Zigbee SOC based on CC2530, and is responsible for data interaction with the internet of things terminal; the multimedia control module comprises a 4-in 2-out video switching module, a 2-in 1-out voice module, a 2-path 220V power control module, a 1-path RS232 serial port module, a 433 radio frequency module and a 4-path GPIO module which are electrically connected; the network switching module comprises a network switching mainboard and is responsible for providing a switch function for network equipment; the talkback control module comprises a digital talkback main board and is responsible for voice interaction with the talkback host.

Preferably, the touch display module 1 comprises a 10-inch screen and a touch module 1 electrically connected with the screen, and the touch display module 1 is responsible for human-computer interaction; the RFID sensing module 1 comprises an RFID module suitable for EM4100 and Mifare standards, and the RFID sensing module 1 is responsible for identifying an authorized IC card; the talkback induction module comprises a voice output loudspeaker and a voice receiving module electrically connected with the voice output loudspeaker, and is responsible for outputting and receiving voice; the bottom layer communication module is responsible for carrying out data communication with the centralized control host;

the touch display module 2 comprises a 13-inch screen and a touch module 2 electrically connected with the screen and is responsible for displaying functions of the electronic class board and inputting door opening passwords; the RFID induction module 2 comprises an RFID module suitable for EM4100 and Mifare standards and is responsible for identifying an authorized IC card and opening a laboratory door after successful authorization.

Preferably, the electric appliance control module comprises a Zigbee-based 86-type switch, an infrared forwarding and metering socket and a windowThe curtain motor is responsible for the on-off control of indoor electrical equipment; the environment monitoring module comprises a smoke sensor based on Zigbee and a 5-in-1 sensor for simultaneously detecting temperature, humidity, formaldehyde, PM2.5 and CO ₂ 。

Has the advantages that: simple structure, the practicality is strong, can form unified management platform, promotes the managerial efficiency in laboratory.

Drawings

FIG. 1 is a functional schematic of a platform framework of the present invention.

Detailed Description

The present invention will be further described with reference to the drawings attached to the specification, but the present invention is not limited to the following embodiments.

The invention provides an intelligent laboratory management system which mainly comprises a centralized control host (server), a centralized control panel, an intelligent access control, an internet of things terminal and a non-inductive attendance check;

1. the centralized control host comprises the following components:

1) The main control panel module comprises a 1.8Ghz 64-bit ARM chip which is connected with the Internet of things gateway through an LAN network interface; it is connected with a multimedia control module through a serial port 1; the system is connected with a talkback control module through a LAN network interface; the centralized control panel is connected with the serial port 2 and the HDMI. The main control panel module is responsible for data interaction and processing among the internet of things gateway, the multimedia control module, the talkback control module and the centralized control panel.

2) The gateway module of the internet of things comprises a Zigbee SOC based on CC2530 and is responsible for data interaction with the terminal equipment of the internet of things;

3) The multimedia control module comprises a 4-in 2-out video switching module, a 2-in 1-out voice module, a 2-path 220V power supply control module, a 1-path RS232 serial port module, a 433 radio frequency module and a 4-path GPIO module, and is responsible for controlling multimedia devices such as a projector, an electric curtain, a teaching computer, a notebook computer and the like;

4) The talkback control module comprises a digital talkback main board and is responsible for voice interaction with the talkback host; belongs to the prior art and can be selected conventionally.

2) The network switching module comprises a network switching mainboard and is responsible for providing a switch function for the network equipment to use. Belongs to the prior art and can be selected conventionally.

2. Centralized control panel includes as follows:

1) The touch display module 1 (A) comprises a 10-inch screen and a touch module group and is responsible for man-machine interaction;

2) The RFID induction module 1 (A) comprises an RFID module which is applicable to EM4100 and Mifare standards and is used for identifying an authorized IC card, and the operation authority of the centralized control panel can be obtained only after authorization;

3) The talkback induction module comprises a voice output loudspeaker and a voice receiving module and is responsible for outputting and receiving voice;

4) And the bottom communication module is responsible for carrying out data communication with the centralized control server. Belongs to the prior art and can be selected conventionally.

3. Intelligent entrance guard includes as follows: the touch display module 2 (B) comprises a 13-inch screen and a touch module and is responsible for displaying functions of the electronic class board and inputting door opening passwords;

2) The RFID induction module 2 (B) comprises an RFID module which is suitable for EM4100 and Mifare standards and is used for identifying an authorized IC card and opening a laboratory door after successful authorization;

3) The electromagnetic door lock consists of a lock body, a lock cylinder and a door magnet, can be controlled by an electric signal, also has the function of unlocking by a traditional key, and can monitor the opening and closing state of the door. Belongs to the prior art and can be selected conventionally.

4. The internet of things terminal comprises the following components:

1) The electric appliance control module comprises a 86-type switch based on Zigbee, an infrared forwarding and metering socket, a curtain motor and the like and is responsible for the switch control of indoor electric appliances;

2) And the environment monitoring module comprises a smoke sensor based on Zigbee and a 5-in-1 sensor (temperature, humidity, formaldehyde, PM2.5 and CO 2).

5. The noninductive attendance checking system comprises a camera with 200 ten thousand pixels and an image recognition module, and is responsible for capturing and recognizing human faces.

As shown in fig. 1, the present embodiment provides an intelligent laboratory management system, which is applied in a laboratory of a college. The intelligent entrance guard swipes the card on the intelligent entrance guard by holding the authorization IC, or inputs the password on the intelligent entrance guard, the intelligent entrance guard receives the IC card authorization information or the password, and transmitting the data to a centralized control host, comparing the data by the centralized control host, and opening a laboratory door after the comparison is successful.

The present application describes an operation manner, which is only to express an operation flow, but not to describe the operation of the protection program of the present application, and the present application still protects a system structure:

(1) The IC card is held and the card is swiped on the RFID induction module 1 of the centralized control panel for authorization, and after the authorization is successful, all equipment can be controlled through the centralized control panel;

(2) The touch display module 1 on the centralized control panel is used for clicking a button for starting the multimedia equipment, the centralized control panel transmits a control instruction to the centralized control host through a bus, and after the centralized control host receives the control instruction of the centralized control panel, the multimedia control module of the centralized control host can start equipment such as a projector, an electric curtain, a teaching computer and the like;

(3) The method comprises the steps that buttons of electrical equipment such as a lamp, an air conditioner and a curtain are clicked through a touch display module 1 on a centralized control panel, the centralized control panel transmits a control instruction to a centralized control host through a bus, and after the centralized control host receives the control instruction of the centralized control panel, an internet of things gateway module of the centralized control host transmits a control signal to an internet of things terminal such as a 86-type switch, an infrared repeater and a curtain motor through a Zigbee wireless network to respectively start the lamp, the air conditioner and the curtain;

(4) For indoor data such as smoke, temperature and humidity, formaldehyde, PM2.5, CO2 and the like, the internet of things terminal can transmit the data to the internet of things gateway module of the centralized control host through the Zigbee wireless network, and the centralized control host can transmit the data to the touch display module 1 of the centralized control panel for display.

(5) Automatic instructions aiming at the class schedule are preset in the centralized control host, all equipment can be automatically controlled according to the class schedule, and for example, a strategy of a teaching environment in a laboratory is prepared according to the class schedule preset 10 minutes before a lesson;

(6) The centralized control host prepares the instruction of the teaching environment 10 minutes before the class according to the strategy;

(7) The centralized control host sends a laboratory door opening instruction to the intelligent entrance guard through the LAN network, and the intelligent entrance guard opens the laboratory door after receiving the instruction;

(8) After the centralized control host sends an instruction for turning on the lamp, the air conditioner and the curtain through the gateway module of the internet of things, the terminal of the internet of things turns on the lamp, the air conditioner, the curtain and other equipment;

(9) The centralized control host sends an instruction to start the projector, the electric curtain, the teaching computer and other equipment through the multimedia control module.

Finally, it should be noted that the present invention is not limited to the above embodiments, and many variations are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (5)

1. The utility model provides an intelligence laboratory management system which characterized in that: the system comprises a centralized control host, an internet of things terminal, an intelligent access control, a non-inductive attendance check panel and a centralized control panel, wherein the centralized control host is connected with the centralized control panel through a bus, and the internet of things terminal, the intelligent access control and the non-inductive attendance check panel are all in communication connection with the centralized control host; the centralized control panel comprises a touch screen display module A, RFID induction module A, an intercom induction module and a bottom layer communication module, wherein the touch screen display module A, RFID induction module A, the intercom induction module and the bottom layer communication module are electrically connected; the Internet of things terminal comprises an electric appliance control module and an environment monitoring module, and the electric appliance control module and the environment monitoring module are electrically connected; the intelligent door control system comprises a touch display module B, RFID induction module B and an electromagnetic door lock, wherein the touch display module B, RFID induction module B is electrically connected with the electromagnetic door lock; the noninductive attendance checking system comprises a camera module and an image recognition module, wherein the camera module and the image recognition module are electrically connected and are responsible for grabbing and recognizing human faces.

2. The intelligent laboratory management system according to claim 1, wherein: the centralized control host comprises a main control panel module, a multimedia control module, an internet of things gateway module, a network switching module and an intercom control module, wherein the main control panel module, the multimedia control module, the internet of things gateway module, the network switching module and the intercom control module are electrically connected.

3. The intelligent laboratory management system according to claim 2, wherein: the main control panel module comprises a 1.8Ghz 64-bit ARM chip, is connected with the Internet of things gateway module through an LAN (local area network) interface, is connected with the multimedia control module through a serial port A, and is connected with the talkback control module through an LAN (local area network) interface; the main control panel module is connected with the centralized control panel through a serial port B, HDMI.

4. The intelligent laboratory management system according to claim 2, wherein: the Internet of things gateway module comprises a Zigbee SOC based on CC2530 and is responsible for data interaction with the Internet of things terminal; the multimedia control module comprises a 4-in 2-out video switching module, a 2-in 1-out voice module, a 2-path 220V power control module, a 1-path RS232 serial port module, a 433 radio frequency module and a 4-path GPIO module which are electrically connected; the network switching module comprises a network switching mainboard and is responsible for providing a switch function for network equipment; the talkback control module comprises a digital talkback main board and is responsible for voice interaction with the talkback host.

5. The intelligent laboratory management system according to claim 1, wherein: the touch display module A comprises a 10-inch screen and a touch module A electrically connected with the screen, and the touch display module A is responsible for man-machine interaction; the RFID sensing module A comprises an RFID module suitable for EM4100 and Mifare standards, and is responsible for identifying an authorized IC card; the talkback induction module comprises a voice output loudspeaker and a voice receiving module electrically connected with the voice output loudspeaker, and is responsible for outputting and receiving voice; the bottom layer communication module is responsible for carrying out data communication with the centralized control host; the touch display module B comprises a 13-inch screen and a touch module B electrically connected with the screen and is responsible for displaying the functions of the electronic class board and inputting door opening passwords; the RFID sensing module B comprises an RFID module which is suitable for EM4100 and Mifare standards and is responsible for identifying an authorized IC card, and a laboratory door is opened after the authorization is successful.

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