CN111274100A - Light control method and device and computer readable storage medium - Google Patents

Abstract

The embodiment of the invention discloses a light control method, which is applied to a data center cabinet, wherein the data center cabinet comprises a first number of cabinet units, and the cabinet units are used for placing data equipment; a second quantity of strip indicating lamp sections are arranged on the outer side of the data center cabinet and comprise a first quantity of unit lamp sections, and the first quantity of unit lamp sections correspond to the first quantity of cabinet units one by one; the light control method comprises the following steps: acquiring environmental data of a data center cabinet, and acquiring an environmental state of the data center cabinet according to the environmental data; judging whether the environment state is a safe state; if yes, acquiring the unit use state of each cabinet unit, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state. The invention also discloses a light control device and a computer readable storage medium. The invention can effectively improve the inspection and measurement efficiency and reduce the probability of inspection misjudgment.

Description

Light control method and device and computer readable storage medium

Technical Field

The present invention relates to the field of lighting technologies, and in particular, to a lighting control method and apparatus, and a computer-readable storage medium.

Background

Data centers integrate a large number of servers, computers, and other IT (Information Technology) equipment, as well as a large number of data center infrastructure, including substation power distribution equipment, diesel generators, air conditioners, uninterruptible power supplies, fire fighting equipment, and the like. In order to ensure normal operation of equipment in the cabinet, equipment, environment, fire protection and the like in the cabinet are usually managed by multiple dimensions in cabinet management at present.

At present, the cabinet of the cabinet in the data center is basically provided with a large amount of equipment in the cabinet, inspection personnel can only open the cabinet door to inspect the equipment, and the inspection efficiency is lower.

Disclosure of Invention

In view of the above, it is necessary to provide a light control method and apparatus and a computer readable storage medium to address the above problems.

A light control method is applied to a data center cabinet, wherein the data center cabinet comprises a first number of cabinet units, and the cabinet units are used for placing data equipment; a second quantity of strip indicating lamp sections are arranged on the outer side of the data center cabinet and comprise a first quantity of strip unit lamp sections, and the first quantity of strip unit lamp sections correspond to the first quantity of cabinet units one by one; the light control method comprises the following steps: acquiring environmental data of the data center cabinet, and acquiring an environmental state of the data center cabinet according to the environmental data; judging whether the environment state is a safe state; and if the environment state is a safe state, acquiring the unit use state of each cabinet unit, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state.

Wherein the second number of indicator light segments comprises at least one ambient light segment; the environment data comprises temperature and humidity data in the data center cabinet, and the environment state comprises a temperature and humidity state of the data center cabinet; the temperature and humidity state comprises normal temperature and humidity, temperature and humidity early warning and temperature and humidity warning; the safety state comprises normal temperature and normal humidity; after the step of judging whether the environment state is a safe state, the method comprises the following steps: if the temperature and humidity state is temperature and humidity early warning, controlling the environment lamp section to display a first color state; and if the temperature and humidity state is a temperature and humidity alarm, controlling the environment lamp section to display a second color state.

Wherein the environmental status comprises a door magnetic status and/or a fire status of the data center cabinet; the door magnetic state comprises normal door magnetic state and abnormal door magnetic state, and the fire fighting state comprises normal fire fighting state and abnormal fire fighting state; the safety state comprises normal door magnetism and/or normal fire protection; after the step of judging whether the environment state is a safe state, the method comprises the following steps: if the door magnetic state is abnormal, controlling the environment lamp section to display a third color state; and if the fire fighting state is abnormal fire fighting, controlling the environment lamp section to display a second color state.

Wherein the cell usage state comprises: used, reserved and unused; the step of controlling the unit light segments corresponding to the cabinet units to display a first lighting state matched with the unit use state comprises the following steps: if the unit use state of the cabinet unit is reserved, controlling the unit lamp section corresponding to the cabinet unit to display a fourth color state; and if the unit using state of the cabinet unit is not used, controlling the unit lamp section corresponding to the cabinet unit to display a fifth color state.

Wherein, if the unit use status of the cabinet unit is used, after the step of controlling the unit light segment corresponding to the cabinet unit to display the first lighting status matched with the unit use status, the method comprises: acquiring the equipment use state of the data equipment in the cabinet unit; and controlling the unit lamp section corresponding to the cabinet unit to display a second lighting state matched with the equipment use state.

Wherein the using state of the equipment comprises normal use, early warning use and warning use; the device use state of the data device comprises a central processing unit use state and/or a memory use state of the data device; the step of controlling the unit lamp segments corresponding to the cabinet units to display a second lighting state matching the use state includes: if the use state of a central processing unit and/or the use state of a memory of the data equipment in the cabinet unit are normal, controlling the unit lamp section corresponding to the cabinet unit to display a sixth color state; if the use state of a central processing unit and/or the use state of a memory of the data equipment in the cabinet unit is a use early warning, controlling the unit lamp section corresponding to the cabinet unit to display a first color state; and if the use state of the central processing unit and/or the use state of the memory of the data equipment in the cabinet unit is a use alarm, controlling the unit lamp section corresponding to the cabinet unit to display a second color state.

Wherein, after the step of controlling the unit lamp segments corresponding to the cabinet units to exhibit the second lighting state matching the use state, the method comprises: and acquiring the state information of the data center cabinet according to the color state of the second number of indicator light segments, and sending the state information to a remote terminal.

A light control device is applied to a data center cabinet, wherein the data center cabinet comprises a first number of cabinet units, and the cabinet units are used for placing data equipment; a second quantity of strip indicating lamp sections are arranged on the outer side of the data center cabinet and comprise a first quantity of strip unit lamp sections, and the first quantity of strip unit lamp sections correspond to the first quantity of cabinet units one by one; the light control device includes: the acquisition module is used for acquiring the environmental data of the data center cabinet and acquiring the environmental state of the data center cabinet according to the environmental data; the judging module is used for judging whether the environment state is a safe state; and the lighting module is used for acquiring the unit use state of each cabinet unit if the environment state is the safe state, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state. A light control device comprising: a processor coupled to the memory and a memory having a computer program stored therein, the processor executing the computer program to implement the method as described above.

A computer-readable storage medium storing a computer program executable by a processor to implement a method as described above.

The embodiment of the invention has the following beneficial effects:

the data center rack outside sets up a quantity of indicator light sections as the unit light section, and with the unit one-to-one of a quantity of rack unit, when the environmental condition is the safe condition, to each rack unit, acquires the unit user state of this rack unit, the first state of lighting of unit light section show and unit user state matching that control corresponds with this rack unit can effectively improve and patrol and examine survey efficiency to reduce and patrol and examine the probability of erroneous judgement.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic flow chart of a first embodiment of a light control method provided by the present invention;

fig. 2 is a schematic flow chart of a light control method according to a second embodiment of the present invention;

fig. 3 is a schematic flow chart of a light control method according to a third embodiment of the present invention;

fig. 4 is a schematic flow chart of a light control method according to a fourth embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a first embodiment of a light control device provided by the present invention;

FIG. 6 is a schematic structural diagram of a second embodiment of a light control device provided by the present invention

FIG. 7 is a schematic structural diagram of an embodiment of a computer-readable storage medium provided by the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

At present, a cabinet in a data center is basically provided with a large amount of equipment inside, inspection personnel can only open the cabinet door to inspect the equipment, and inspection efficiency is low.

In this embodiment, in order to solve the above problem, a light control method is provided, which can effectively improve the work efficiency of the inspection personnel and the accuracy of state judgment of the cabinet unit and the data equipment thereof.

Referring to fig. 1, fig. 1 is a schematic flow chart of a light control method according to a first embodiment of the present invention. The light control method provided by the invention comprises the following steps:

s101: the method comprises the steps of obtaining environmental data of a data center cabinet, and obtaining an environmental state of the data center cabinet according to the environmental data.

In a specific implementation scenario, the environmental data includes at least one of temperature and humidity data, door magnetism data, and fire data. Temperature and humidity data can be acquired through a temperature and humidity sensor installed in a data center cabinet, and fire fighting data can be acquired through a smoke sensor installed in the data center cabinet. After the environmental data is acquired, the environmental state of the data center cabinet is acquired according to the environmental data, for example, whether the temperature and humidity are normal, temperature and humidity early warning or temperature and humidity warning is judged according to the temperature and humidity data.

For another example, it is determined whether the door magnet is in a normal state or an abnormal state based on the door magnet data.

For another example, whether the normal state or the abnormal state is the fire protection state is judged according to the fire protection data.

S102: and judging whether the environment state is a safe state or not. If yes, go to step S103.

In the implementation scenario, a plurality of states are preset as safe states, for example, normal temperature and humidity, normal door magnetism, normal fire protection, and the like. And judging whether the current environment state belongs to the safe state.

S103: and aiming at each cabinet unit, acquiring the unit use state of the cabinet unit, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state.

In this implementation scenario, the method is applied to a DC (Data Center) cabinet. The data center cabinet includes a first number of cabinet elements for housing data equipment, such as servers, computers, and the like. One data device can be placed in one cabinet unit, or one data device can be placed in a plurality of adjacent cabinet units. A second number of indicator light segments are arranged on the outer side of the data center cabinet, for example, the outer side of a cabinet door of the data center cabinet, and the second number is larger than or equal to the first number. For example, in the present implementation scenario, the data center cabinet is a 42U cabinet, that is, 42 cabinet units are disposed in the data center cabinet, the number of the indicator light sections disposed on the outer side of the data center cabinet is greater than or equal to 42, for example, 60. In the implementation scenario, the indicator light sections are distributed outside the cabinet door of the data center cabinet along the vertical direction, and in other implementation scenarios, the indicator light sections can also be distributed along the horizontal direction or the oblique direction, or can be distributed in a matrix form.

In this implementation scenario, a first number of indicator light segments are selected from a second number of indicator light segments as unit light segments. For example, 42 indicator light segments are selected from 60 indicator light segments as unit light segments, e.g., 11 th segment to 52 th segment. The 42 indicator light segments may or may not be arranged in series. 42 unit lamp sections and 42 rack units are in one-to-one correspondence, for example, the 11 th indicator lamp section corresponds to the 1 st rack unit, the 12 th indicator lamp section corresponds to the 2 nd rack unit, and so on.

In other embodiments, the first number of indicator light segments as unit light segments is preset. For example, a first number of indicator light segments are pre-designated as unit light segments before testing, and a one-to-one correspondence of each unit light segment to each cabinet unit is designated. Or default setting of the system can be adopted, for example, there are 42 indicator light sections, and the number of the indicator light sections is the same as that of the cabinet units, so that all the indicator light sections are unit light sections and correspond to the cabinet units one by one in sequence.

In the implementation scenario, the unit use state of the cabinet unit can be acquired by detecting whether the data equipment is placed in the cabinet unit, and the unit use state of each cabinet unit can also be acquired by a control system of the data center cabinet. And controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state. In this implementation scenario, the unit usage states of the cabinet unit include used, reserved used, and unused, and the different unit usage states correspond to different first lighting states. The first lighting state may be normally on, blinking, or displayed in a preset color, etc. For example, the 12 th and 24 th cabinet units are in a unit use state of unused, the 22 nd and 34 th indicator light segments corresponding to the 12 th and 24 th cabinet units exhibit a first lighting state matching the unused unit use state, for example, display green.

According to the above description, in this embodiment, the outside of the data center cabinet is provided with the first number of indicator light sections as the unit light sections, and the first number of cabinet units are in one-to-one correspondence, when the environmental status is the safe status, the unit use status of the cabinet unit is acquired for each cabinet unit, the first lighting status matched with the unit use status is displayed on the unit light sections corresponding to the cabinet unit, the inspection efficiency can be effectively improved, and the inspection misjudgment probability is reduced.

Referring to fig. 2, fig. 2 is a schematic flow chart of a light control method according to a second embodiment of the present invention. The light control method provided by the invention comprises the following steps:

s201: and acquiring the door magnetic state of the data center cabinet, and judging whether the door magnetic state is the door magnetic abnormal state. If yes, go to step S202, otherwise go to step S203.

In a specific implementation scenario, a door magnetic state of a data center cabinet is obtained, and whether the door magnetic state is an abnormal door magnetic state is judged, if a cabinet door of the data center cabinet is not closed, the door magnetic state is the abnormal door magnetic state, and if the cabinet door of the data center cabinet is closed, the door magnetic state is a normal door magnetic state.

S202: and controlling the environmental light section to display the third color state.

In this embodiment, the second number of indicator light segments is used as the ambient light segment. And if the door magnet state is the door magnet abnormal state, controlling a second number of indicator light sections to display a third color state, wherein in the implementation scene, the third color is white. In other implementation scenarios, several indicator light segments may be selected, for example, the 1 st to 10 th indicator light segments outside the data center cabinet are the ambient light segments.

S203: and acquiring the fire fighting state of the data center cabinet, and judging whether the fire fighting state is an abnormal fire fighting state. If yes, go to step S204, otherwise go to step S205.

In this implementation scenario, a fire protection state of the data center cabinet is obtained, specifically, fire protection data of the data center cabinet is obtained, the fire protection data is compared with a preset fire protection threshold, when the fire protection data is lower than or equal to the fire protection threshold, the environment state is a normal fire protection state, and when the fire protection data is higher than the fire protection threshold, the environment state is an abnormal fire protection state. And judging whether the fire fighting state is a fire fighting abnormal state or judging whether the fire fighting data is higher than a fire fighting threshold value.

S204: and controlling the environmental light section to display the second color state.

In this implementation scenario, the fire protection state is a fire protection abnormal state, and then the second number of indicator light segments are controlled to display the second color state, and in this implementation scenario, the second color is red. In other implementation scenarios, several indicator light segments, such as 1 st to 10 th indicator light segments outside the data center cabinet, may be selected as the environmental light segment.

S205: and acquiring the temperature and humidity state of the data center cabinet according to the temperature and humidity data, wherein the temperature and humidity state comprises normal temperature and humidity, temperature and humidity early warning and temperature and humidity warning.

In the present embodiment, at least one indicator light segment is selected as the ambient light segment. For example, the 1 st to 10 th indicator light segments outside the data center cabinets, or all of the indicator light segments may be selected as the ambient light segments. The ambient light segment may be preset. For example, one or more indicator light segments are pre-designated as ambient light segments prior to testing. Or system default settings may be employed, for example, to default to all indicator light segments as ambient light segments.

In the implementation scenario, temperature and humidity data are acquired through a temperature and humidity sensor installed in a data center cabinet. The temperature and humidity data are compared with a preset normal temperature and humidity threshold range, a normal temperature and humidity early warning threshold range and a preset temperature and humidity warning threshold range, if the temperature and humidity data belong to the normal temperature and humidity threshold range, the temperature and humidity state is normal temperature and humidity, if the temperature and humidity data belong to the normal temperature and humidity early warning threshold range, the temperature and humidity state is temperature and humidity early warning, and if the temperature and humidity data belong to the temperature and humidity warning threshold range, the temperature and humidity state is temperature and humidity warning.

In this implementation scenario, the temperature and humidity data includes temperature data and humidity data, and if one of the temperature data and the humidity data belongs to a temperature and humidity early warning threshold range, the temperature and humidity state is a temperature and humidity early warning, and if one of the temperature data and the humidity data belongs to a temperature and humidity alarm threshold range, the temperature and humidity state is a temperature and humidity alarm.

S206: and judging whether the temperature and humidity state is normal, if not, executing the step S207 or S208. If yes, go to step S209.

In the implementation scenario, whether the temperature and humidity state is normal or not is judged, or whether the temperature and humidity data belong to a normal temperature and humidity threshold range or not is judged.

S207: if the humiture state is humiture early warning, then control environment lamp section show first colour state.

In this implementation scenario, the humiture state is the humiture early warning, then control environment lamp section demonstration first color state, if the humiture state is not that the humiture is normal, then further judge whether the humiture state is the humiture early warning, if for the humiture early warning, then control environment lamp section demonstration first color state, in this implementation scenario, first color is yellow.

S208: if the temperature and humidity state is a temperature and humidity alarm, a temperature and humidity sensor for detecting the temperature and humidity alarm is obtained, and the environment lamp section corresponding to the temperature and humidity sensor is controlled to display a second color state.

In this implementation scene, be provided with a plurality of temperature and humidity sensors, the environment lamp section divide into a plurality of sub-environment lamp sections, and every sub-environment lamp section corresponds a temperature and humidity sensor, if the humiture state is the humiture and reports an emergency and asks for help or increased vigilance, then acquire to detect out the temperature and humidity sensor that the humiture was reported an emergency and asked for help or increased vigilance, the sub-environment lamp section that corresponds to this temperature and humidity sensor in the control environment lamp section demonstrates the second color state, and the second color is red.

In this implementation scenario, the second number of indicator light segments is 60 as the environmental light segments, and 3 temperature and humidity sensors are arranged in the data center cabinet, and the 1 st to 20 th indicator light segments, the 21 st to 40 th indicator light segments, and the 41 st to 60 th indicator light segments correspond to one temperature and humidity sensor respectively. When the temperature and humidity data detected by one or more temperature and humidity sensors are in a temperature and humidity alarm state, the indicator light sections corresponding to the temperature and humidity sensors are controlled to display a second color state, for example, the 1 st to 20 th indicator light sections display the second color state.

S209: and aiming at each cabinet unit, acquiring the unit use state of the cabinet unit, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state.

In this implementation scenario, the humiture state is humiture normal, and the environmental state of the data center cabinet is a safe state, then for each cabinet unit, the unit use state of this cabinet unit is obtained, and the first lighting state that the unit light section that the control corresponds with the cabinet unit shows and matches with the unit use state.

This step is substantially the same as step S103 of the second embodiment of the light control method provided by the present invention, and is not described here again.

According to the above description, in this embodiment, the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the device use state of the data device in the cabinet unit are obtained, the corresponding color state of the indicator light segment is controlled to be displayed, the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the device use state of the data device in the cabinet unit are obtained through the color state of the indicator light segment, the inspection efficiency can be effectively improved, and the inspection misjudgment probability is reduced.

Referring to fig. 3, fig. 3 is a schematic flow chart of a light control method according to a third embodiment of the present invention. The light control method provided by the invention comprises the following steps:

s301: the method comprises the steps of obtaining environmental data of a data center cabinet, and obtaining an environmental state of the data center cabinet according to the environmental data.

S302: and judging whether the environment state is a safe state or not. If yes, go to step S303.

In a specific implementation scenario, steps S301 to S302 are substantially the same as steps S101 to S102 of the second embodiment of the light control method provided by the present invention, and are not described herein again.

S303: and acquiring the unit use state of each cabinet unit, and judging whether the unit use state of each cabinet unit is used. If not, step S304 or step S305 is executed, and if yes, step S306 is executed.

In the implementation scenario, the unit use state of each cabinet unit in the data center cabinet is obtained. Whether the cabinet units are used or not can be determined by detecting whether the data equipment is placed in the cabinet units or not, so that the unit use states of the cabinet units can be acquired, and the unit use states of all the cabinet units can be acquired through a control system of the data center cabinet. In this implementation scenario, the unit usage status of the cabinet unit includes used, reserved, and unused. And judging whether the unit use state of the cabinet unit is used or not according to the acquired unit use state of the cabinet unit.

S304: and if the unit use state of the cabinet unit is reserved, controlling the unit lamp section corresponding to the cabinet unit to display a fourth color state.

In this implementation scenario, the unit usage status of the cabinet unit includes: used, reserved, and unused. If the unit use state of the cabinet unit is not reserved, whether the unit use state of the cabinet unit is reserved or not is further judged, and if the unit use state of the cabinet unit is reserved, the unit lamp section corresponding to the cabinet unit is controlled to display the fourth color state. In this implementation scenario, the fourth color is green.

S305: and if the unit using state of the cabinet unit is not used, controlling the unit lamp section corresponding to the cabinet unit to display a fifth color state.

In this implementation scenario, if the unit use status of the cabinet unit is not the used status or the reserved use status, the unit use status of the cabinet unit is not used, and the unit light segment corresponding to the cabinet unit is controlled to display the fifth color status, in this implementation scenario, the fifth color is light blue.

S306: and acquiring the equipment use state of the data equipment in the cabinet unit.

In this implementation scenario, if the unit use state of the cabinet unit is the used state, it indicates that the data device is placed in the cabinet unit. And acquiring the unit use state of the data equipment in the cabinet unit. The unit use state comprises normal use, early warning use and warning use. Specifically, the usage value of the data device, and the preset normal threshold range, early warning threshold range and warning threshold range for use may be obtained, and the data device may show the corresponding unit usage status if it is determined which threshold range the usage value belongs to. For example, if the usage value falls within the usage normal threshold range, the usage state of the unit of the data device is normal, and if the usage data falls within the usage alarm threshold range, the usage state of the unit of the data device is usage alarm. The usage value includes at least one of a current uploading and downloading speed, a current operation speed, a current occupied capacity, and a current remaining capacity.

In the implementation scenario, the unit use states include three states of normal use, early warning use and warning use, and three ranges of normal use threshold range, early warning use threshold range and warning use threshold range are correspondingly set. In other implementation scenarios, the unit usage status may also include two types, such as normal usage and abnormal usage, and the corresponding ranges are also set to two, such as a normal usage threshold range and an alarm usage threshold range. In other implementation scenarios, the unit usage status may also include four or more types, and the corresponding range is set to four or more.

S307: and controlling the unit lamp section corresponding to the cabinet unit to display a second lighting state matched with the unit use state.

In the present implementation scenario, the unit light segments corresponding to the cabinet units are controlled to exhibit the second lighting state matching the unit usage state. Specifically, if the unit use state of the cabinet unit is the use warning, the unit lamp segment corresponding to the cabinet unit displays a second lighting state matching the unit use state of the use warning, such as normally lighting, flashing, or displaying in a preset color. For example, if the unit usage status of the data equipment in the 13 th equipment unit of the data center equipment cabinet is the usage warning, and the unit usage status of the data equipment in the 14 th equipment unit is the usage warning, the 23 rd indicator light segment displays a second lighting status matching the usage warning, such as displaying yellow, and the 24 th indicator light segment displays a second lighting status matching the usage warning, such as displaying red.

In this implementation scenario, the Unit usage status of the cabinet Unit data device includes a CPU (central processing Unit) Unit usage status of the data device and/or a RAM (Random Access Memory) Unit usage status. In this implementation scenario, one of the CPU unit use state and the RAM unit use state shows the use warning, and then the unit light segment corresponding to the cabinet unit shows the second lighting state matching the use warning, and one of the CPU unit use state and the RAM unit use state shows the use warning, and then the unit light segment corresponding to the cabinet unit shows the second lighting state matching the use warning.

In this implementation scenario, the second lighting state is different from the first lighting state, so that a user can intuitively obtain the cabinet unit of the data center cabinet and the unit use state of the data equipment placed therein through the lighting state of the unit lamp segment.

According to the above description, in the present implementation scenario, the first lighting state matched with the unit use state is displayed by controlling the unit lamp section corresponding to the cabinet unit, and when the unit use state of the cabinet unit is used, the second lighting state matched with the equipment use state of the data equipment in the cabinet unit is displayed by controlling the unit lamp section corresponding to the cabinet unit, so that the data center cabinet does not need to be opened for inspection, the unit use state of the cabinet unit of the data center cabinet and the equipment use state of the data equipment in the cabinet unit can be acquired through the lighting state of the unit lamp section, the inspection efficiency can be effectively improved, and the inspection misjudgment probability is reduced.

Referring to fig. 4, fig. 4 is a schematic flowchart illustrating a light control method according to a fourth embodiment of the present invention. The light control method provided by the invention comprises the following steps:

s401: and acquiring the door magnetic state of the data center cabinet, and judging whether the door magnetic state is the door magnetic abnormal state. If yes, go to step S402, otherwise go to step S403.

S402: and controlling the environmental light section to display the third color state.

S403: and acquiring the fire fighting state of the data center cabinet, and judging whether the fire fighting state is an abnormal fire fighting state. If yes, go to step S404, otherwise go to step S405.

S405: and acquiring the temperature and humidity state of the data center cabinet according to the temperature and humidity data, wherein the temperature and humidity state comprises normal temperature and humidity, temperature and humidity early warning and temperature and humidity warning.

S406: and judging whether the temperature and humidity state is normal, if not, executing the step S407 or S408. If yes, go to step S409.

S407: if the humiture state is humiture early warning, then control environment lamp section show first colour state.

S408: if the temperature and humidity state is a temperature and humidity alarm, a temperature and humidity sensor for detecting the temperature and humidity alarm is obtained, and the environment lamp section corresponding to the temperature and humidity sensor is controlled to display a second color state.

In this implementation scenario, steps S401 to S408 are substantially the same as steps S201 to S208 in the second embodiment of the light control method provided by the present invention, and are not described herein again.

S409: and acquiring the unit use state of each cabinet unit, and judging whether the unit use state of each cabinet unit is used. If not, step S304 or S305 is executed, and if yes, step S305 is executed.

S410: and if the unit use state of the cabinet unit is reserved, controlling the unit lamp section corresponding to the cabinet unit to display a fourth color state.

S411: and if the unit using state of the cabinet unit is not used, controlling the unit lamp section corresponding to the cabinet unit to display a fifth color state.

S412: and acquiring the equipment use state of the data equipment in the cabinet unit.

In this implementation scenario, steps S409 to S412 are substantially the same as steps S303 to S306 in the second embodiment of the light control method provided by the present invention, and are not described herein again.

S413: and if the use state of the central processing unit and/or the use state of the memory of the data equipment in the cabinet unit are normal, controlling the unit lamp section corresponding to the cabinet unit to display the sixth color state.

In this implementation scenario, the Unit usage status of the cabinet Unit data device includes a CPU (Central Processing Unit) Unit usage status and/or a RAM (Random access memory) Unit usage status of the data device. And acquiring the use value of the CPU and/or the RAM, and a preset use normal threshold range, a preset use early warning threshold range and a preset use warning threshold range, and judging which threshold range the use value belongs to, so that the data equipment displays the corresponding unit use state. The usage value includes at least one of a current uploading and downloading speed, a current operation speed, a current occupied capacity, and a current remaining capacity.

In this implementation scenario, if the CPU usage status and the RAM usage status of the data device in the cabinet unit both belong to the usage normal threshold range, it is determined that the usage status of the data device unit in the cabinet unit is normal. And controlling the unit lamp segments corresponding to the cabinet units to display the sixth color state. In this implementation scenario, the sixth color is blue. In other implementation scenarios, the sixth color may be any other color different from the first color and the second color.

S414: and if the use state of the central processing unit and/or the use state of the memory of the data equipment in the cabinet unit is the use early warning, controlling the unit lamp section corresponding to the cabinet unit to display the first color state.

In this implementation scenario, if one of the RAM usage states in the CPU usage states of the data devices in the cabinet unit belongs to the usage warning threshold range, it is determined that the usage state of the data device unit in the cabinet unit is the usage warning. And controlling the unit lamp segments corresponding to the cabinet units to display the first color state. In this implementation scenario, the first color is yellow.

For example, if the current operation speed of the CPU of the data device in the 13 th cabinet unit of the data center cabinet falls within the usage warning threshold range, the CPU usage state of the data device in the 13 th cabinet unit is determined as the usage warning. And if the unit use state of the data equipment in the 13 th equipment cabinet unit of the data center equipment cabinet is the use early warning, the 23 rd indicator light section corresponding to the 13 th equipment cabinet unit displays a yellow state matched with the use early warning.

S415: and if the use state of the central processing unit and/or the use state of the memory of the data equipment in the cabinet unit is the use alarm, controlling the unit lamp section corresponding to the cabinet unit to display the second color state.

In this implementation scenario, if one of the RAM usage states in the CPU usage states of the data devices in the cabinet unit belongs to the usage alarm threshold range, it is determined that the data device unit usage state in the cabinet unit is a usage alarm. And controlling the unit lamp segments corresponding to the cabinet units to display the second color state. In this implementation scenario, the second color is red.

S416: and acquiring the state information of the data center cabinet according to the color state of the second number of indicator light segments, and sending the state information to the remote terminal.

In the implementation scenario, the color states of the second number of light segments outside the data center cabinet are obtained, for example, the color states of the second number of light segments are obtained through a camera or other image obtaining devices or a robot, the state information of the data center cabinet, which is represented by the color states of the second number of light segments, is analyzed according to the preset first to sixth colors, and the state information is sent to the remote terminal, so that a user does not need to go to the site to perform inspection, and the rapid inspection of the data center cabinet can be realized through remote.

For example, if the indicator light segments from item 1 to item 60 display white, the doors of the data center cabinets are shown in an open state. For another example, if the indicator light segments from item 1 to item 60 display red, the fire status of the data center cabinet is a fire hazard status. As another example, the 1 st to 20 th indicator light segments display yellow, the 22 nd and 34 th indicator light segments display light blue, the 46 th indicator light segment displays green, and the other indicator light segments display blue. The areas where the temperature and humidity sensors corresponding to the 1 st to 20 th indicator light sections are located are in a temperature and humidity early warning state, the 24 th and 12 th cabinet units are in an unused unit use state, and the 36 th cabinet unit displays a reserved unit use state. Also for example, the 22 th and 34 th indicator light segments display light blue, the 23 rd indicator light segment displays yellow, the 24 th indicator light segment displays red, the 46 th indicator light segment displays green, and the other indicator light segments display blue. The 24 th and 12 th cabinet units show the unused unit use status and the 36 th cabinet unit shows the reserved unit use status. The data equipment in the 13 th cabinet unit shows the equipment use state of the use early warning, and the data equipment in the 14 th cabinet unit shows the equipment use state of the use warning.

According to the above description, in this embodiment, the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the device use state of the data device in the cabinet unit are obtained, the corresponding color state of the indicator light segment is controlled to be displayed, the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the device use state of the data device in the cabinet unit are obtained through the color state of the indicator light segment, the inspection efficiency can be effectively improved, and the inspection misjudgment probability is reduced.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a light control device according to a first embodiment of the present invention. The light control device 10 is applied to a data center cabinet, wherein the data center cabinet comprises a first number of cabinet units, and the cabinet units are used for placing data equipment; the data center rack outside is provided with the second quantity strip pilot lamp section, and the second quantity strip pilot lamp section includes the unit lamp section of first quantity, first quantity strip unit lamp section and the unit one-to-one of first quantity rack.

The light control device 10 includes an acquisition module 11, a judgment module 12, and a lighting module 13. The obtaining module 11 is configured to obtain environmental data of the data center cabinet, and obtain an environmental status of the data center cabinet according to the environmental data. The judging module 12 is used for judging whether the environment state is a safe state. The lighting module 13 is configured to, if the environmental status is the safe status, acquire, for each cabinet unit, a unit use status of the cabinet unit, and control the unit light segment corresponding to the cabinet unit to display a first lighting status matching the unit use status.

Wherein the second number of indicator light segments comprises at least one ambient light segment.

The environment data comprises temperature and humidity data in the data center cabinet, and the environment state comprises a temperature and humidity state of the data center cabinet. The temperature and humidity state comprises normal temperature and humidity, temperature and humidity early warning and temperature and humidity warning. The safe state comprises normal temperature and normal humidity.

The lighting module 13 is further configured to control the environmental light section to display the first color state if the temperature and humidity state is the temperature and humidity early warning. And if the temperature and humidity state is temperature and humidity alarm, controlling the environment lamp section to display the second color state.

Wherein the environmental status includes a door magnetic status and/or a fire status of the data center cabinet. The door magnetic state comprises normal door magnetic state and abnormal door magnetic state, and the fire fighting state comprises normal fire fighting state and abnormal fire fighting state. The safety state comprises normal door magnetism and/or normal fire protection.

The lighting module 13 is further configured to control the environmental lamp section to display a third color state if the door magnet state is abnormal; and if the fire fighting state is abnormal fire fighting, controlling the environmental light section to display a second color state.

Wherein the cell usage states include: used, reserved and unused.

The lighting module 13 is further configured to control the unit light segment corresponding to the cabinet unit to display a fourth color state if the unit usage state of the cabinet unit is reserved for use. And if the unit using state of the cabinet unit is not used, controlling the unit lamp section corresponding to the cabinet unit to display a fifth color state.

The obtaining module 11 is also used for obtaining the device usage status of the data devices in the cabinet unit. The lighting module 13 is further configured to control the unit lamp segments corresponding to the cabinet units to display a second lighting state matching the equipment using state.

Wherein, the equipment use state comprises normal use, use early warning and use warning. The device usage status of the data device includes a central processor usage status and/or a memory usage status of the data device.

The lighting module 13 is further configured to control the unit light segment corresponding to the cabinet unit to display a sixth color state if the usage state of the central processing unit and/or the usage state of the memory of the data device in the cabinet unit are normal. If the use state of a central processing unit and/or the use state of a memory of the data equipment in the cabinet unit is a use early warning, controlling a unit lamp section corresponding to the cabinet unit to display a first color state; and if the use state of the central processing unit and/or the use state of the memory of the data equipment in the cabinet unit is the use alarm, controlling the unit lamp section corresponding to the cabinet unit to display the second color state.

The light control device 10 further includes a sending module 14, configured to obtain status information of the data center cabinet according to the color status of the second number of indicator light segments, and send the status information to the remote terminal.

According to the above description, in this embodiment, the lighting control device acquires the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the equipment use state of the data equipment in the cabinet unit, controls the corresponding indicator light section to display the corresponding color state, and acquires the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the equipment use state of the data equipment in the cabinet unit through the color state of the indicator light section, so that the inspection and measurement efficiency can be effectively improved, and the inspection and misjudgment probability is reduced.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a light control device according to a second embodiment of the present invention. The light control device 20 includes a processor 21 and a memory 22. The processor 21 is coupled to a memory 22. The memory 22 has stored therein a computer program which is executed by the processor 21 in operation to implement the method as shown in fig. 1-4. The detailed methods can be referred to above and are not described herein.

According to the above description, in this embodiment, the lighting control device acquires the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the equipment use state of the data equipment in the cabinet unit, controls the corresponding indicator light section to display the corresponding color state, and acquires the environmental state of the data center cabinet, the unit use state of the cabinet unit, and the equipment use state of the data equipment in the cabinet unit through the color state of the indicator light section, so that the inspection and measurement efficiency can be effectively improved, and the inspection and misjudgment probability is reduced.

Referring to fig. 7, fig. 7 is a schematic structural diagram of an embodiment of a computer-readable storage medium according to the present invention. The computer-readable storage medium 30 stores at least one computer program 31, and the computer program 31 is used for being executed by a processor to implement the method shown in fig. 1 to 4, and the detailed method can be referred to above and will not be described herein again. In one embodiment, the computer readable storage medium 30 may be a memory chip in a terminal, a hard disk, or other readable and writable storage tool such as a removable hard disk, a flash disk, an optical disk, or the like, and may also be a server or the like.

As can be seen from the above description, in this embodiment, the computer program stored in the computer-readable storage medium may be used to obtain the environment state of the data center cabinet, the unit usage state of the cabinet unit, and the device usage state of the data device in the cabinet unit, control the corresponding indicator light segment to display the corresponding color state, and obtain the environment state of the data center cabinet, the unit usage state of the cabinet unit, and the device usage state of the data device in the cabinet unit through the color state of the indicator light segment, so that the inspection efficiency can be effectively improved, and the probability of the inspection misjudgment is reduced.

Different from the prior art, the method and the device control the corresponding indicator light section to display the corresponding color state by acquiring the environment state of the data center cabinet, the unit use state of the cabinet unit and the equipment use state of the data equipment in the cabinet unit, and acquire the environment state of the data center cabinet, the unit use state of the cabinet unit and the equipment use state of the data equipment in the cabinet unit by the color state of the indicator light section, so that the inspection and detection efficiency can be effectively improved, and the inspection and misjudgment probability is reduced.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. The light control method is applied to data center cabinets, wherein each data center cabinet comprises a first number of cabinet units, and each cabinet unit is used for placing data equipment; a second quantity of strip indicating lamp sections are arranged on the outer side of the data center cabinet and comprise a first quantity of strip unit lamp sections, and the first quantity of strip unit lamp sections correspond to the first quantity of cabinet units one by one;

the light control method comprises the following steps:

acquiring environmental data of the data center cabinet, and acquiring an environmental state of the data center cabinet according to the environmental data;

judging whether the environment state is a safe state;

and if the environment state is a safe state, acquiring the unit use state of each cabinet unit, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state.

2. The light control method of claim 1, wherein the second number of indicator light segments comprises at least one ambient light segment;

the environment data comprises temperature and humidity data in the data center cabinet, and the environment state comprises a temperature and humidity state of the data center cabinet;

the temperature and humidity state comprises normal temperature and humidity, temperature and humidity early warning and temperature and humidity warning;

the safety state comprises normal temperature and normal humidity;

after the step of judging whether the environment state is a safe state, the method comprises the following steps:

if the temperature and humidity state is temperature and humidity early warning, controlling the environment lamp section to display a first color state;

and if the temperature and humidity state is a temperature and humidity alarm, controlling the environment lamp section to display a second color state.

3. The light control method of claim 2, wherein the environmental status comprises a door magnetic status and/or a fire status of a data center cabinet;

the door magnetic state comprises normal door magnetic state and abnormal door magnetic state, and the fire fighting state comprises normal fire fighting state and abnormal fire fighting state;

the safety state comprises normal door magnetism and/or normal fire protection;

after the step of judging whether the environment state is a safe state, the method comprises the following steps:

if the door magnetic state is abnormal, controlling the environment lamp section to display a third color state;

and if the fire fighting state is abnormal fire fighting, controlling the environment lamp section to display a second color state.

4. The light control method of claim 1, wherein the unit use state comprises: used, reserved and unused;

the step of controlling the unit light segments corresponding to the cabinet units to display a first lighting state matched with the unit use state comprises the following steps:

if the unit use state of the cabinet unit is reserved, controlling the unit lamp section corresponding to the cabinet unit to display a fourth color state;

and if the unit using state of the cabinet unit is not used, controlling the unit lamp section corresponding to the cabinet unit to display a fifth color state.

5. The light control method of claim 4, wherein if the unit usage status of the cabinet unit is used, the step of controlling the unit light segment corresponding to the cabinet unit to exhibit the first lighting status matching the unit usage status comprises:

acquiring the equipment use state of the data equipment in the cabinet unit;

and controlling the unit lamp section corresponding to the cabinet unit to display a second lighting state matched with the equipment use state.

6. The light control method of claim 5, wherein the device usage status comprises normal usage, early warning usage, and warning usage;

the device use state of the data device comprises a central processing unit use state and/or a memory use state of the data device;

the step of controlling the unit lamp segments corresponding to the cabinet units to display a second lighting state matching the use state includes:

if the use state of a central processing unit and/or the use state of a memory of the data equipment in the cabinet unit are normal, controlling the unit lamp section corresponding to the cabinet unit to display a sixth color state;

if the use state of a central processing unit and/or the use state of a memory of the data equipment in the cabinet unit is a use early warning, controlling the unit lamp section corresponding to the cabinet unit to display a first color state;

and if the use state of the central processing unit and/or the use state of the memory of the data equipment in the cabinet unit is a use alarm, controlling the unit lamp section corresponding to the cabinet unit to display a second color state.

7. The light control method of claim 6, wherein the step of controlling the unit light segments corresponding to the cabinet unit to exhibit the second lighting status matching the use status is followed by:

and acquiring the state information of the data center cabinet according to the color state of the second number of indicator light segments, and sending the state information to a remote terminal.

8. The light control device is applied to a data center cabinet, wherein the data center cabinet comprises a first number of cabinet units, and the cabinet units are used for placing data equipment; a second quantity of strip indicating lamp sections are arranged on the outer side of the data center cabinet and comprise a first quantity of strip unit lamp sections, and the first quantity of strip unit lamp sections correspond to the first quantity of cabinet units one by one;

the light control device includes:

the acquisition module is used for acquiring the environmental data of the data center cabinet and acquiring the environmental state of the data center cabinet according to the environmental data;

the judging module is used for judging whether the environment state is a safe state;

and the lighting module is used for acquiring the unit use state of each cabinet unit if the environment state is the safe state, and controlling the unit lamp section corresponding to the cabinet unit to display a first lighting state matched with the unit use state.

9. A light control device, comprising: a processor coupled to the memory and a memory having a computer program stored therein, the processor executing the computer program to implement the method of any of claims 1-7.

10. A computer-readable storage medium, in which a computer program is stored, which computer program is executable by a processor to implement the method according to any one of claims 1-7.

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