CN214955272U

CN214955272U - Machine room unattended terminal system

Info

Publication number: CN214955272U
Application number: CN202120033084.4U
Authority: CN
Inventors: 丁承君; 朱雪宏; 贾丽臻
Original assignee: Taihua Hongye Tianjin Intelligent Technology Co ltd; Hebei University of Technology
Current assignee: Taihua Hongye Tianjin Intelligent Technology Co ltd; Hebei University of Technology
Priority date: 2021-01-07
Filing date: 2021-01-07
Publication date: 2021-11-30
Anticipated expiration: 2031-01-07

Abstract

The utility model relates to a computer lab unmanned on duty terminal system, include: host computer, smoke transducer, temperature sensor, humidity transducer, high definition network camera, water sensor and power detector, the utility model provides a computer lab unmanned on duty terminal adopts 32 position ARM treaters of high performance, based on embedded Linux platform, collects data acquisition, processing, storage, control, network communication new generation monitoring host computer as an organic whole. The utility model discloses a 32 ARM processors of high performance choose professional environmental monitoring sensors such as high accuracy humiture, smoke detector, water logging, commercial power for use, and hardware interface is reliable and stable, adopts the open design standard of international industrial monitoring simultaneously, and the WEB platform and the user's cell-phone App customer end of cooperation development, the user can master the running state parameter and the computer lab environmental aspect of the relevant equipment in computer lab center constantly, realizes humanized management.

Description

Machine room unattended terminal system

Technical Field

The utility model relates to an unmanned monitoring technology field especially relates to a computer lab unmanned on duty terminal system.

Background

With the development and wide application of information technology, a computer room center has become an important part for maintaining normal business work of large institutions, schools, enterprise units and the like, and with the increasing number of computer devices, in order to ensure the safe and stable operation of the computer room of the information data center, a computer room power system (such as power distribution, UPS and air conditioner) and the internal environment state of the computer room matched with the computer room must be kept normal and stable all the time. Once the power of the machine room fails, the abnormal environment of the machine room affects the normal operation of the computer system, and threatens the data processing, transmission and storage of the whole system, and if the failure cannot be found and processed in time, the failure or even scrapping of the computer and the communication equipment can be caused, and serious consequences and irrecoverable loss can be caused. Therefore, unattended environmental control of the machine room is particularly important.

Some machine rooms at present adopt a mode that 24 hours of personnel take turns to be on duty to patrol the machine rooms at regular time, and some machine rooms carry out live monitoring on the machine rooms through network cameras. However, not only is the burden on the manager increased, but also the operation faults of the equipment in the machine room (such as power supply abnormity, UPS or air conditioner working abnormity) and the environment abnormity of the machine room (such as exceeding of the temperature and humidity of the machine room, water leakage, smoke fire and the like) cannot be found in time, and the time, frequency and reason of the accident cannot be scientifically analyzed. Therefore, real-time monitoring and management of the power system and the environmental conditions in the machine room center are extremely necessary.

Disclosure of Invention

Therefore, the utility model provides a computer lab unmanned on duty terminal system for overcome among the prior art personnel patrol the computer lab and lead to the untimely problem of computer lab equipment trouble or potential safety hazard discovery.

In order to achieve the above object, the utility model provides a computer lab unmanned on duty end system, include:

the host is arranged in the machine room to be monitored and is a terminal carrier of the terminal system, the host is provided with a plurality of sensor signal interfaces, each transmission interface is connected with a corresponding sensor, and a wireless communication module is also arranged in the host; the host machine is provided with a network system and a power system which are independent from a machine room, and can continue to work when the machine room is powered off and disconnected; the host shell adopts a standard 1U case, so that the installation and the replacement are convenient;

the smoke sensor is arranged at the top of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting the smoke condition in the machine room and feeding back the detection result to the client through the wireless communication module so as to prevent fire;

the water immersion sensor is arranged at the corner of the bottom of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting the water immersion condition of the ground of the machine room and feeding back a detection result to the client through the wireless communication module so as to prevent equipment from being flooded due to water leakage;

the temperature sensor is arranged at the top of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting the temperature condition of the machine room and feeding back a detection result to a client through the wireless communication module so as to prevent the machine room from damaging equipment due to abnormal temperature;

the power supply detector is arranged on the main power supply in the machine room and connected with the host machine, and is used for monitoring the condition of the main power supply of the machine room in real time;

the humidity sensor is arranged at the top of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting the humidity condition of the machine room and feeding back a detection result to the client through the wireless communication module so as to prevent the machine room from damaging equipment due to abnormal humidity;

the client is in wireless connection with the wireless communication module, and a user detects the internal condition of the machine room in real time through the client;

the high-definition network camera is arranged at the top of the machine room and connected with the host through a connecting wire, detects the interior of the machine room in real time and feeds a monitoring result back to the client through the wireless communication module.

Furthermore, the host adopts a 32-bit ARM processor, is a new generation monitoring host which is based on an embedded Linux platform and integrates data acquisition, processing, storage, control and network communication into a whole, namely the embedded monitoring host.

Furthermore, the terminal system is provided with designated software, the client is wirelessly connected with the terminal system through the designated software, and the client can be a mobile phone, a desktop or a notebook.

Furthermore, the whole case is a standard 1U case, the power supply and the UPS are both arranged in the case, the interfaces of the sensors are high-quality aviation plug interfaces, and the interfaces of the sensors with the same specification and different parameters are distinguished by the number of aviation plug cores.

Furthermore, each sensor and host computer connecting wire are bright color system, and high protection waterproof three way connection is adopted to sensor extension node.

Furthermore, a debugging interface used for connecting a field detection machine is arranged outside the case.

Furthermore, a state display screen is arranged on the outer side of the case, and the data of each local sensor are displayed in a carousel mode.

Furthermore, an alarm device connected with the case is further arranged in the machine room, when the environment of the machine room is abnormal, the host machine sends information to the client through the wireless communication module, and meanwhile, the alarm device is started to send out sound and light warning.

Compared with the prior art, the beneficial effects of the utility model reside in that, this computer lab unmanned on duty terminal adopts high performance 32 bit ARM treater, chooses professional environmental monitoring sensors such as high accuracy humiture, smoke, water logging, commercial power for use, and hardware interface is reliable and stable, adopts international industry control open design standard simultaneously, and modular structure is favorable to the extension and maintains. By matching with a developed WEB platform and a user mobile phone App client, a user can constantly master the running state parameters of relevant equipment in a machine room center and the environmental condition of the machine room, and humanized management is realized.

Furthermore, the unattended terminal of the machine room provided by the invention adopts a high-performance 32-bit ARM processor, and is based on an embedded Linux platform, and a new generation monitoring host which integrates data acquisition, processing, storage, control and network communication is an embedded monitoring host. The product function covers common functions required by the machine room environment monitoring system. The computer room environment monitoring system has the characteristics of high reliability, convenience in maintenance, attractive interface, strong usability and flexibility in expansion, and is a new generation product of the traditional computer room environment monitoring host. The terminal can realize the monitoring function of the important environment of the machine room, including environmental equipment monitoring (temperature, humidity, smoke, commercial power, water immersion and the like). When the monitored parameters exceed the set allowable value, the system diagnoses that a fault (alarm) event occurs, and the monitoring host informs a manager to perform alarm processing in time through various modes such as a mobile phone APP, sound and light and the like. The monitoring host has double network ports, can realize redundant backup of links, improves the operation reliability of the monitoring system, and adapts to the intelligent trend of data center equipment.

Drawings

Fig. 1 is the utility model relates to a computer lab structure schematic diagram of computer lab unmanned on duty terminal system.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be further described with reference to the following embodiments; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Please refer to fig. 1, it is the machine room structure diagram of a machine room unattended terminal system, the utility model relates to a machine room unattended terminal system, include: the monitoring system comprises a host 1, a smoke sensor 2, a temperature sensor 3, a humidity sensor 4, a high-definition network camera 5, a water sensor 6 and a power supply detector 7, wherein the host 1 is arranged inside a machine room to be monitored and is a terminal carrier of a terminal system, the host 1 is provided with a plurality of sensor signal interfaces, each transmission interface is connected with a corresponding sensor, and a wireless communication module is further arranged in the host 1; the host 1 is provided with a network system and a power system which are independent from a machine room, and can continue to work when the machine room is powered off and disconnected; the shell of the host 1 adopts a standard 1U case, so that the installation and the replacement are convenient; the smoke sensor 2 is arranged at the top of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting smoke conditions in the machine room and feeding back detection results to a client through the wireless communication module so as to prevent fire; the water immersion sensors 6 are arranged at corners of the bottom of the machine room, are connected with the sensor signal interfaces through connecting wires and are used for periodically detecting the water immersion condition of the ground of the machine room and feeding back detection results to the client through the wireless communication module, so that equipment water immersion caused by water leakage is prevented; the temperature sensor 3 is arranged at the top of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting the temperature condition of the machine room and feeding back a detection result to a client through a wireless communication module so as to prevent the machine room from damaging equipment due to abnormal temperature; the power supply detector 7 is arranged on a main power supply in the machine room and connected with the host 1 to monitor the condition of the main power supply of the machine room in real time; the humidity sensor 4 is arranged at the top of the machine room, is connected with the sensor signal interface through a connecting wire and is used for periodically detecting the humidity condition of the machine room and feeding back a detection result to a client through a wireless communication module so as to prevent the machine room from damaging equipment due to abnormal humidity; the high-definition network camera 5 is arranged at the top of the machine room and connected with the host 1 through a connecting wire, detects the interior of the machine room in real time and feeds monitoring results back to the client through the wireless communication module.

specifically, the host 1 adopts a 32-bit ARM processor, and is a new generation monitoring host 1, namely an embedded monitoring host 1, which is based on an embedded Linux platform and integrates data acquisition, processing, storage, control and network communication.

Specifically, the terminal system is provided with designated software, the client is wirelessly connected with the terminal system through the designated software, and the client can be a mobile phone, a desktop computer or a notebook computer.

Specifically, the whole case is a standard 1U case, the power supply and the UPS are both arranged in the case, the interfaces of the sensors are high-quality aviation plug interfaces, and the interfaces of the sensors with the same specification and different parameters are distinguished by the number of aviation plug cores.

Specifically, each sensor and the connecting line of the host 1 are in bright color, and a high-protection waterproof three-way joint is adopted at the extending node of the sensor.

Specifically, a debugging interface for connecting a field detection machine is arranged outside the case.

Specifically, a state display screen is arranged on the outer side of the case, and the carousel displays local sensor data.

Specifically, still be equipped with in the computer lab with alarm device that the machine case links to each other, when the computer lab environment appeared unusually, host computer 1 passed through wireless communication module to the customer end sends information, alarm device starts simultaneously, sends acousto-optic warning.

When the machine room unattended terminal system is used, the terminal can realize the monitoring function of important environment of the machine room, including environmental equipment monitoring (temperature, humidity, smoke, commercial power, water immersion and the like). When the monitored parameters exceed the set allowable values, the system diagnoses that a fault (alarm) event occurs, and the monitoring host informs a manager to perform alarm processing in time through a plurality of modes such as a mobile phone APP, sound and light and the like. The monitoring host has double network ports, can realize redundant backup of links, improves the operation reliability of the monitoring system, and adapts to the intelligent trend of data center equipment.

The sending and processing of "statement of health" is taken as a logical relationship description. The health report is defined as the result of analyzing and analyzing the running state of each sensor and machine which is automatically completed by the terminal equipment, and the running and monitoring condition report which is displayed to a user in a friendly interface is extracted by the APP after the result is sent to the server.

And (3) periodic reporting: i.e. regular reports sent to the server every 10 minutes, the cycle time can be flexibly set by the user.

Triggering report: and when the machine has an operation problem, the sensor monitoring exceeds the upper and lower limits of the set threshold value, and the normal threshold value is returned through intervention, a triggering report is sent to the server.

The "statement-of-health" provides sensor status information such as: and the terminal supports three groups of related sensors with different types to be accessed on line and off line.

Distinguishing user account levels and distributing authority:

the equipment side mainly provides equipment and corresponding technical support for the primary account. Multiple secondary accounts can be created for the primary account, and the equipment can be distributed according to the needs. Binding an MN serial number to each piece of equipment by an equipment party when the equipment leaves a factory; the primary account has the highest authority, can manage all devices corresponding to the MN number and device value management, and distributes devices binding the MN number to the secondary account (the final user). The authority of the secondary account is limited to the equipment allocated by the primary account. The secondary account may view a corresponding list of devices, including: real-time data, alarm information, threshold information, etc. And the third-level account is assigned with authority by the second-level account, the second-level account is provided for the equipment monitoring personnel to use, the use range is limited to check the numerical value and the video, and the alarm information and the health report information are received.

The Web end is the only way for account management creation, and the permission distribution is carried out on the primary account and the secondary account through the Web end, so that the equipment list of the corresponding binding MN number is obtained. The MN number is bound with a unique device list and is a unique mark for distinguishing each device.

The user login process firstly acquires the user right of the user, takes the corresponding MN list and associates the corresponding equipment, and therefore the equipment under the user right is managed and operated.

The data uplink flow is that data is bound with an MN number, and different equipment represented by the MN number is bound with a manufacturer and a user right. Thereby distinguishing the device under the user management authority corresponding to each data report.

And judging whether the real-time data triggers the alarm or not, and if the real-time data triggers the alarm, inserting alarm information into an alarm table in a database by a rear-end real-time data receiver, wherein the alarm threshold value is judged by extracting the MN number according to the transmitted field so as to find the threshold value of the corresponding equipment.

After the user logs in the APP, the user enters an equipment list page, the state of each piece of equipment is displayed on the equipment list page, and after the user enters a certain equipment list, the sensor information under the equipment can be displayed. The App automatically pushes alarm information, and meanwhile, the alarm threshold value can be set, live machine room videos can be checked, and the unattended terminal program of the machine room can be remotely upgraded.

The whole 1U quick-witted case that is standard of quick-witted case, power, UPS all are in quick-witted incasement portion, can monitor quick-witted case power supply state simultaneously, and sensor interfaces such as smoke detector, water logging, humiture are high quality air insertion interface, distinguish through air insertion inner core number between the different parameter sensor interfaces of same specification, prevent that the user from inserting the mistake. The connecting lines of the sensors and the host are bright color systems (orange, yellow, green, blue and the like) and can achieve a more striking effect in a complex line environment of a machine room, and meanwhile, the high-protection waterproof tee joint is adopted at the extension node of the sensor, so that the safety and the stability are realized. The outside of the case is provided with a field debugging interface, so that the running condition and the data transmission condition of the machine can be detected on site, simple conversation can be realized through a plurality of commands, and meanwhile, the outside of the case is provided with a state display screen for displaying local sensor data in a carousel mode.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims

1. The utility model provides a computer lab unmanned on duty terminal system which characterized in that includes:

the host is arranged in the machine room to be monitored and is used as a terminal carrier of the terminal system, the host is provided with a plurality of sensor signal interfaces, each sensor signal interface is connected with a corresponding sensor, and a wireless communication module is also arranged in the host; the host machine is provided with a network system and a power system which are independent from a machine room, and can continue to work when the machine room is powered off and disconnected; the host shell adopts a standard 1U case;

the smoke sensor is arranged at the top of the machine room and is connected with the sensor signal interface through a connecting wire;

the water immersion sensors are arranged at corners of the bottom of the machine room and are connected with the sensor signal interfaces through connecting wires;

the temperature sensor is arranged at the top of the machine room and is connected with the sensor signal interface through a connecting wire;

the humidity sensor is arranged at the top of the machine room and is connected with the sensor signal interface through a connecting wire;

the power supply detector is arranged on a main power supply in the machine room and is connected with the host;

the client is in wireless connection with the wireless communication module;

and the high-definition network camera is arranged at the top of the machine room and is connected with the host through a connecting wire.

2. The machine room unattended terminal system according to claim 1, wherein the host machine employs a 32-bit ARM processor.

3. The machine room unattended terminal system according to claim 1, wherein the terminal system is provided with designated software, the client is wirelessly connected with the terminal system through the designated software, and the client can be a mobile phone, a desktop computer or a notebook computer.

4. The machine room unattended terminal system according to claim 1, wherein a power supply and a UPS are arranged inside the machine box, interfaces of the sensors are high-quality aviation interfaces, and the interfaces of the sensors with the same specification and different parameters are distinguished by aviation plug core numbers.

5. The machine room unattended terminal system according to claim 1, wherein each sensor and host machine connecting line is of a bright color system, and a high-protection waterproof three-way joint is adopted at a sensor extension node.

6. The machine room unattended terminal system according to claim 1, wherein a debugging interface for connecting a field detection machine is arranged outside the machine room.

7. The machine room unattended terminal system according to claim 1, wherein a status display screen is arranged outside the machine box, and local sensor data are displayed in a carousel mode.

8. The machine room unattended terminal system according to claim 1, wherein an alarm device connected to the cabinet is further provided in the machine room.