CN211786661U - Micromodule control panel - Google Patents

Abstract

The utility model discloses a micromodule control panel, including the micromodule control panel, micromodule control panel integrated switch power, door magnetic state acquisition interface, temperature and humidity sensor interface, smoke transducer interface, U position sensor interface, entrance guard's interface, illumination interface, atmosphere lamp interface, emergent fan interface, reputation warning interface, communication interface, address are pulled out the code switch. Compared with the prior art, the utility model the advantage lie in: the temperature and the humidity inside a single micro-module cabinet and smoke are collected, the switch state of a cabinet door is collected through a door magnetic sensor, the capacity information of the cabinet is collected through a U-position sensor, the entrance guard, the lighting, the atmosphere lamp and the sound and light alarm of the micro-module cabinet are controlled in a linkage mode, a unified standard interface is provided, the cabinet is used as a module unit to be connected into a centralized monitoring host, and modular monitoring is achieved.

Description

Micromodule control panel

Technical Field

The utility model relates to a micromodule data center control technical field specifically indicates a micromodule control panel.

Background

The micro-module data center is a data center construction solution for solving the operation efficiency of the data center, reducing energy consumption and realizing rapid deployment, and most of the existing newly-built data centers meet the energy-saving and emission-relieving requirements. The micro-module data center is a complete data center formed by arranging and combining a plurality of modules with independent functions, such as a power distribution module, a refrigeration module, an uninterruptible power supply, a cabinet and the like. The mainstream mode in the micro-module data center monitoring industry is still the traditional monitoring mode, for example, temperature and humidity sensors are required to be installed on all cabinets for temperature monitoring and then connected into a monitoring host, smoke sensors are required to be arranged on single sensors and then connected into a movable ring host, each sensor is required to be independently wired, construction is complex and poor in reliability, and the traditional monitoring scheme cannot meet the design concept of unified interfaces and unified standards among all functional modules of the micro-module data center.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome above technical defect, provide a micromodule control panel that realizes the modularization control.

In order to solve the technical problem, the utility model provides a technical scheme does: a micro-module control panel comprises a micro-module control panel, wherein the micro-module control panel integrates a switching power supply, a door magnetic state acquisition interface, a temperature and humidity sensor interface, a smoke sensor interface, a U-position sensor interface, an entrance guard interface, a lighting interface, an atmosphere lamp interface, an emergency fan interface, an acousto-optic alarm interface, a communication interface and an address pull-out switch, the micro-module control panel is arranged inside a micro-module cabinet and is used for acquiring information such as a microenvironment and space capacity inside the cabinet and has a linkage control output function, the micro-module control panel is provided with 2 communication interfaces, the communication interfaces adopt an RS485/RS422 communication mode, when a plurality of cabinets are connected into a centralized monitoring host, the micro-module control panel can be connected in a hand-in cascade mode, the address pull-out switch is used for setting the RS485/RS422 communication address of the micro-module control panel, and the centralized monitoring host, the switch power supply is integrated in the interior of the micro-module control board and is externally connected with a 220V alternating current power supply, and the 220V alternating current power supply is converted into direct current power by the switch power supply to supply power for the micro-module control board and various external sensors.

As an improvement, the door magnetic state acquisition interface is externally connected with a door magnetic state sensor to acquire the door opening and closing states of a front door and a rear door of the micro-module cabinet.

As an improvement, the temperature and humidity sensor interface can be externally connected with a plurality of temperature and humidity sensors to collect the temperature and humidity of each part of the cabinet.

As an improvement, the smoke sensor interface is externally connected with a smoke sensor to collect the smoke alarm information in the cabinet.

As an improvement, the U-bit sensor interface is connected into the U-bit sensor to collect information of the rack-mounting condition and space capacity of the current equipment of the cabinet.

As an improvement, the entrance guard interface is accessed into the entrance guard controller to authorize the opening of the front door and the rear door of the cabinet and record information such as opening time and personnel.

As an improvement, the lighting interface is connected with the lighting lamp tubes of the front door and the rear door of the cabinet, and the lighting lamp tubes are controlled to be on and off in a linkage manner by the door magnetic state sensor, so that the lighting lamp is on when the door is opened, and the lighting lamp is off when the door is closed.

As the improvement, the atmosphere lamp interface can external LED lamp area, and LED lamp area can provide RGB three-colour and show, and micromodule control panel output linkage signal control LED lamp area discolours when reporting an emergency and asking for help or increased vigilance or trouble production.

As an improvement, the emergency fan interface is externally connected with an emergency ventilation fan of the cabinet, and when the air conditioner fails or the temperature in the cabinet rises to a set value, the micro-module control panel outputs a linkage signal to control the emergency ventilation fan to be started, so that the temperature rise in the cabinet is delayed.

As an improvement, the sound-light alarm interface is externally connected with a sound-light alarm, and the sound-light alarm is started when an alarm or a fault occurs.

Compared with the prior art, the utility model the advantage lie in: the temperature and the humidity inside a single micro-module cabinet and smoke are collected, the switch state of a cabinet door is collected through a door magnetic sensor, the capacity information of the cabinet is collected through a U-position sensor, the entrance guard, the lighting, the atmosphere lamp and the sound and light alarm of the micro-module cabinet are controlled in a linkage mode, a unified standard interface is provided, the cabinet is used as a module unit to be connected into a centralized monitoring host, and modular monitoring is achieved.

Drawings

FIG. 1 is a schematic diagram of a micro-module control board system.

FIG. 2 is a diagram of a centralized monitoring system for micro-modules.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-2, a micro-module control panel comprises a micro-module control panel integrated with a switching power supply, a door magnetic state acquisition interface, a temperature and humidity sensor interface, a smoke sensor interface, a U-position sensor interface, an entrance guard interface, a lighting interface, an atmosphere lamp interface, an emergency fan interface, an audio-visual alarm interface, a communication interface, and an address pull switch, wherein the micro-module control panel is installed inside a micro-module cabinet, acquires information such as microenvironment and space capacity inside the cabinet, and has a linkage control output function, the micro-module control panel has 2 communication interfaces, the communication interfaces adopt an RS485/RS422 communication mode, when a plurality of cabinets are connected to a centralized monitoring host, the communication interfaces adopt a hand-in-hand cascade mode, and the address pull switch is used for setting the RS485/RS422 communication address of the micro-module control panel, the centralized monitoring host machine carries out uniqueness recognition on the micro-module control panel through a communication address, the switching power supply is integrated in the interior of the micro-module control panel and externally connected with a 220V alternating current power supply, and the switching power supply converts 220V alternating current into direct current to supply power for the micro-module control panel and various external sensors.

The door magnetic state acquisition interface is externally connected with a door magnetic state sensor to acquire door opening and door closing states of a front door, a rear door and a rear door of a micro-module cabinet, the temperature and humidity sensor interface can be externally connected with a plurality of temperature and humidity sensors to acquire temperature and humidity of each part of the cabinet, the smoke sensor interface is externally connected with a smoke sensor to acquire smoke alarm information in the cabinet, the U-position sensor interface is connected with a U-position sensor to acquire information of the rack-up condition and space capacity of current equipment of the cabinet, the door access door access controller authorizes the door opening of the front door and the rear door of the cabinet and records information of door opening time, personnel and the like, the illumination interface is connected with front and rear door illumination lamp tubes of the cabinet, the door magnetic state sensor is linked to control the lamp tubes to be on and off, RGB (red, green, blue, green and blue) illumination lamps are on when the door is closed, the external emergent ventilation fan of rack of emergent fan interface, when air conditioner trouble or the inside temperature of rack rise to the setting value, the emergent ventilation fan of micromodule control panel output linkage signal control is opened, delays the inside intensification of rack, and the external audible-visual annunciator of audible-visual alarm interface starts when reporting an emergency or the trouble takes place.

The utility model discloses when concrete implementation: the micro-module control board is installed inside the micro-module cabinet, and the micro-module control board internally integrates a switch power supply to supply power for the micro-module control board mainboard and the external sensor.

The micro-module control panel integrates a door magnetic state acquisition interface, a temperature and humidity sensor interface, a smoke sensor interface, a U-position sensor interface and an entrance guard interface, acquires information such as a microenvironment in the cabinet, space capacity of the cabinet, entrance guard record and the like through an external sensor, and uploads the acquired information to the central control host through the communication interface.

The micro-module control panel is further integrated with an illumination interface, an atmosphere lamp interface, an emergency ventilation interface and an acousto-optic alarm interface, has an autonomous control function, can perform linkage control on the interface access equipment, and can also perform remote linkage control through a centralized monitoring host. When the door magnetic state acquisition interface acquires that the cabinet door is opened, the illumination interface controls illumination to be opened, and when the cabinet door is closed, the illumination interface controls illumination to be closed. When the centralized monitoring host monitors that the sensor or the equipment in the micro-module cabinet gives an abnormal alarm, the micro-module control panel outputs a linkage control signal, the atmosphere lamp interface controls the LED lamp strip to change color, the acousto-optic alarm interface controls the acousto-optic alarm to start, and the emergency ventilation interface controls the emergency fan to start simultaneously when the alarm information is an overhigh temperature alarm.

The centralized monitoring host can be connected with 1 or N micro-module cabinets, and when a plurality of micro-module cabinets need to be connected with the centralized monitoring host, the micro-module control boards can be connected in a hand-in-hand cascade mode through the communication interfaces. The address dial switch is used for setting a communication address of the micro-module control panel, and the centralized monitoring host machine carries out uniqueness recognition on the micro-module control panel through the communication address.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (10)

1. A micromodule control panel, includes micromodule control panel, its characterized in that: the micro-module control panel is integrated with a switch power supply, a door magnetic state acquisition interface, a temperature and humidity sensor interface, a smoke sensor interface, a U-position sensor interface, an entrance guard interface, a lighting interface, an atmosphere lamp interface, an emergency fan interface, an acousto-optic alarm interface, a communication interface and an address code pulling switch, the micro-module control panel is arranged inside a micro-module cabinet, acquires micro-environment and space capacity information inside the cabinet and has a linkage control output function, the micro-module control panel is provided with 2 communication interfaces, the communication interfaces adopt an RS485/RS422 communication mode, when a plurality of cabinets are connected into a centralized monitoring host, the centralized monitoring host adopts a hand-in-hand cascade mode to be connected, the address code pulling switch is used for setting the RS485/RS422 communication address of the micro-module control panel, the centralized monitoring host carries out unique identification on the micro-module control panel through the communication address, the switch power supply is integrated, 220V alternating current is converted into direct current by a switching power supply to supply power for the micro-module control board and various external sensors.

2. A micromodule control board according to claim 1, wherein: the door magnetic state acquisition interface is externally connected with a door magnetic state sensor to acquire the door opening and closing states of a front door and a rear door of the micro-module cabinet.

3. A micromodule control board according to claim 1, wherein: the temperature and humidity sensor interface is externally connected with a plurality of temperature and humidity sensors to collect the temperature and humidity of each part of the cabinet.

4. A micromodule control board according to claim 1, wherein: the smoke sensor interface is externally connected with a smoke sensor to collect smoke alarm information in the cabinet.

5. A micromodule control board according to claim 1, wherein: and the U-position sensor interface is accessed into the U-position sensor to collect information of the current equipment racking condition and the space capacity of the cabinet.

6. A micromodule control board according to claim 1, wherein: the entrance guard interface is accessed into the entrance guard controller to authorize the opening of the front door and the rear door of the cabinet, and the door opening time and the personnel information are recorded.

7. A micromodule control board according to claim 1, wherein: the illumination interface is connected with the illumination lamp tubes of the front door and the rear door of the cabinet, the door magnetic state sensor controls the lamp tubes to be on and off in a linkage mode, the illumination lamp is on when the door is opened, and the illumination lamp is off when the door is closed.

8. A micromodule control board according to claim 1, wherein: the external LED lamp area of atmosphere lamp interface, LED lamp area provide RGB three-colour and show, and micromodule control panel output linkage signal control LED lamp area discolours when reporting an emergency and asking for help or increased vigilance or trouble production.

9. A micromodule control board according to claim 1, wherein: the emergent ventilation fan of external rack of emergent fan interface, when air conditioner trouble or the inside temperature of rack rise to the setting value, the emergent ventilation fan of micromodule control panel output linkage signal control is opened, delays the inside intensification of rack.

10. A micromodule control board according to claim 1, wherein: the acousto-optic alarm interface is externally connected with an acousto-optic alarm, and the acousto-optic alarm is started when an alarm or a fault occurs.

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