阅读说明：本技术 一种数据中心it设备u高检测方法、系统及功能码 (Data center IT equipment U height detection method, system and function code ) 是由 易南昌 卢鸣 曾祥应 林波 廖飞龙 于 2019-08-19 设计创作，主要内容包括：本发明中提供了一种数据中心IT设备U高检测方法、系统及功能码,所述方法包括检测IT设备的U高是否已存储；若否,则将IT设备进行U高初始化,并存储于电子标识主码和/或数据库中；检查IT设备的U高是否有误；当IT设备的U高有误时,则对错误的U高进行更正。实现当未存储有IT设备U高时,进行U高初始化,降低了U高数据录入工作的繁琐度；当存储有IT设备U高时,通过检查U高是否有误,并对错误U高进行更正,实现自动快速、精准、便捷地获取U高值,以及出错后便于校验和自动更正的效果。(The invention provides a method, a system and a functional code for detecting the U height of IT equipment of a data center, wherein the method comprises the steps of detecting whether the U height of the IT equipment is stored or not; if not, performing U-height initialization on the IT equipment, and storing the IT equipment in the electronic identification main code and/or the database; checking whether the U height of the IT equipment is wrong; when the U height of the IT equipment is wrong, the wrong U height is corrected. When the U height of the IT equipment is not stored, the U height initialization is carried out, and the complexity of the U height data entry work is reduced; when the IT equipment U height is stored, the U height is checked to determine whether the U height is wrong or not, the wrong U height is corrected, and the effects of automatically, quickly, accurately and conveniently acquiring the U height value and conveniently verifying and automatically correcting after the U height is wrong are achieved.)

1. A method for detecting the U height of IT equipment in a data center is used for jointly identifying the U height of the IT equipment in the data center in a cabinet by utilizing an electronic identification main code, a U height code, an error erasing code and an asset detection device, and is characterized by comprising the following steps of:

detecting whether the U height of the IT equipment is stored;

if not, performing U-height initialization on the IT equipment, and storing the IT equipment in the electronic identification main code and/or the database;

checking whether the U height of the IT equipment is wrong;

and when the U height of the IT equipment is wrong, correcting the wrong U height.

2. The method for detecting the U height of the IT equipment in the data center according to claim 1, wherein the detecting whether the U height of the IT equipment is stored specifically comprises:

connecting the electronic identification main code of the IT equipment with an asset detection device in a communication way;

the asset detection device reads and judges whether the U height of the IT equipment is stored in the electronic identification main code and/or the database;

if yes, the IT equipment has the U height, and the asset detection device sends out a first optical signal;

and if not, the IT equipment does not have the U height.

3. The method of claim 2, wherein if the IT device has a U height, the asset detection device sends the first optical signal, specifically including:

when the asset detection device reads that the IT equipment has the U height, the asset detection device controls the indicating lamps corresponding to the U positions with the U positions +/-U height of the electronic identification main code to present a first color state and a first lighting state.

4. The method for detecting the U height of the IT equipment in the data center according to claim 3, wherein if not, the IT equipment is initialized with the U height and stored in the electronic identification main code and/or the database, and specifically comprises:

detecting a starting U bit and a terminating U bit of the IT equipment;

and obtaining the U height of the IT equipment according to the starting U bit and the ending U bit, and storing the obtained U height in an electronic identification main code and/or a database.

5. The method for detecting the U height of the IT equipment in the data center according to claim 4, wherein the detecting the start U bit and the end U bit of the IT equipment specifically comprises:

detecting the bottom of the IT equipment, and confirming a U bit on an asset detection device corresponding to the bottom as an initial U bit;

and detecting the top of the IT equipment, and confirming the U bit on the asset detection device corresponding to the top as a termination U bit.

6. The method for detecting the U height of the IT equipment in the data center according to claim 4, wherein the detecting the start U bit and the end U bit of the IT equipment specifically comprises:

detecting the bottom of the IT equipment, and confirming a U bit on an asset detection device corresponding to the bottom as a termination U bit;

and detecting the top of the IT equipment, and confirming the U bit on the asset detection device corresponding to the top as a starting U bit.

7. The method for detecting the U height of the IT equipment in the data center according to claim 5 or 6, wherein the obtaining the U height of the IT equipment according to the starting U bit and the ending U bit and storing the obtained U height in an electronic identification main code and/or a database specifically comprises:

judging whether the starting U bit and the ending U bit are the same U bit;

if yes, the electronic identification main code is connected to the corresponding U bit in a communication mode;

and the asset detection device acquires that the U height of the IT equipment is 1U bit, and writes the U height into a database and/or an electronic identification main code.

8. The method for detecting the U height of the IT equipment in the data center according to claim 7, wherein the obtaining the U height of the IT equipment according to the starting U bit and the ending U bit and storing the obtained U height in the electronic identification main code and/or the database further comprises:

when the electronic identification main code is in communication connection with the initial U position or the termination U position, the asset detection device controls an indicator lamp corresponding to the U position where the electronic identification main code is located to send out a second light signal;

when the asset detection device obtains that the U height of the IT equipment is 1U bit and writes the U height into a database and/or an electronic identification main code, the asset detection device controls an indicator lamp corresponding to the U bit where the electronic identification main code is located to send out a first optical signal after preset time.

9. The data center IT device Uelevation detection method of claim 8,

the first optical signal is different from the second optical signal;

the first light signal is set to a first color state and a first lighting state;

the second light signal is set to a second color state and a second lighting state; or, set to a first color state and a second lighting state; or, set to a second color state and a first lighting state;

the first color state, the first lighting state, the second color state, the second lighting state and the preset time can be set in a user-defined mode;

the first and second color states comprise: blue, green, red or yellow; the first and second lighting states include blinking or normally on.

10. The method of claim 7, wherein the determining whether the start U bit and the end U bit are the same U bit further comprises:

if not, the electronic identification main code is connected to the initial U bit in a communication mode, and the U high code is connected to the termination U bit in a communication mode;

and the asset detection device obtains the U height of the IT equipment according to the electronic identification main code and the U height code, and stores the U height in the electronic identification main code and/or a database.

11. The method of claim 10, wherein if not, communicatively connecting the electronic identification master code to the start U bit and communicatively connecting the U-high code to the end U bit, specifically comprises:

when the starting U position and the ending U position are not the same U position, the electronic identification main code is connected to the starting U position in a communication mode, and the asset detection device controls an indicator lamp corresponding to the starting U position to send out a second light signal;

and connecting the U high code communication with the termination U position, and controlling the indicator lamps corresponding to all the U positions between the starting U position and the termination U position to send out second light signals by the asset detection device.

12. The method of claim 11, wherein when the starting U bit and the ending U bit are not the same U bit, the electronic identification master code is communicatively connected to the starting U bit, and the asset detection device controls an indicator light corresponding to the starting U bit to emit a second light signal, further comprising;

when the electronic identification main code is in communication connection with the initial U position for a preset time, the asset detection device controls an indicator lamp corresponding to the initial U position to send out a first optical signal;

and connecting the U high code communication with the termination U position, and controlling the indicator lamps corresponding to all the U positions between the starting U position and the termination U position to send out second light signals by the asset detection device.

13. The method as claimed in claim 11 or 12, wherein the U-high code is connected to the terminating U-bit in a communication manner, and the asset detection device controls the indicator lights corresponding to all U-bits between the starting U-bit and the terminating U-bit to emit the second light signal, and further comprising:

disconnecting the communication connection between the U high code and the asset detection device;

the asset detection device controls indicator lamps corresponding to all U positions between the starting U position and the ending U position to send out first optical signals; or the asset detection device controls the indicator lamps corresponding to the starting U bit and the ending U bit to send out a first light signal.

14. The method of claim 10, wherein the determining whether the start U bit and the end U bit are the same U bit further comprises:

if not, the electronic identification main code is connected to the termination U bit in a communication mode, and the U high code is connected to the starting U bit in a communication mode;

and the asset detection device obtains the U height of the IT equipment according to the starting U position and the ending U position, and stores the U height in the electronic identification main code and/or the database.

15. The method for detecting the U height of the IT equipment in the data center according to claim 1, wherein the step of detecting whether the U height of the IT equipment is wrong specifically comprises the following steps:

the asset detection device detects whether the electronic identification main code and/or the U high code are correctly connected with the initial U bit or the termination U bit in a communication way;

if yes, the U is high and error-free;

if not, the U height is wrong.

16. The method of claim 1, wherein when the U height of the IT device is incorrect, the correcting the incorrect U height comprises:

when the U height is wrong, detecting whether the U height is 1U bit;

if so, connecting the error erasing code to the adjacent U bit of the U bit where the electronic identification main code is located, carrying out U high initialization on the IT equipment again, and storing the U high initialization in the electronic identification main code and/or the database;

if not, the electronic identification main code and the U high code are connected to the correct U position in a communication mode, the equipment is initialized with the U high code again, and the U high code is stored in the electronic identification main code and/or the database.

17. The method of claim 16, wherein if yes, the error-erasing code is communicatively connected to a U bit adjacent to the U bit where the electronic identification main code is located, the IT device is initialized again with the U high and stored in the electronic identification main code and/or the database, and specifically includes:

when the U height is 1U bit, the error erasing code is connected to the adjacent U bit of the U bit where the electronic identification main code is located in a communication mode, and the asset detection device controls the indicator lamp corresponding to the U bit where the electronic identification main code and the error erasing code are located to send out a third optical signal;

and disconnecting the communication connection between the error erasing code and the asset detection device, and controlling an indicator lamp of a U position where the electronic identification main code is positioned to send a first optical signal by the asset detection device.

18. The method of claim 16, wherein if not, communicatively connecting the electronic identification main code and the U-height code to a correct U bit, performing U-height initialization on the device again, and storing the device in the electronic identification main code and/or a database specifically includes:

the electronic identification main code and/or the U high code with the communication connection error are respectively connected to the correct initial U bit or termination U bit in a communication mode again;

and performing U high initialization on the IT equipment again, and storing the IT equipment in the electronic identification main code and/or the database.

19. The method for detecting the U height of the IT equipment in the data center according to claim 1, wherein the detecting whether the U height of the IT equipment is stored further comprises:

detecting whether the electronic identification main code and an electronic identification code of the IT equipment corresponding to the electronic identification main code are stored in a database or not;

if yes, carrying out U height detection on the IT equipment;

if not, directly inputting the electronic identification code of the IT equipment into the electronic identification main code and the database.

20. The method for detecting the U height of the IT device in the data center of claim 19, wherein the detecting whether the electronic identification main code and the electronic identification code of the IT device corresponding to the electronic identification main code are stored in the database further comprises:

and bonding or binding one end of the electronic identification main code with the IT equipment.

21. A data center IT equipment U height detection system, characterized by includes: the system comprises an asset detection device, a rack, a database, an electronic identification main code, a U high code and an error erasing code;

the asset detection device is in communication connection with the database, is in communication connection with the electronic identification main code, the U height code and the error erasing code, and detects the U height of the IT equipment;

the rack is used for fixedly mounting the asset detection device and the IT equipment;

one end of the electronic identification main code is fixedly connected with the IT equipment, and the other end of the electronic identification main code is in communication connection with the asset detection device and is used for storing an electronic identification code and a U height of the IT equipment;

the U height code and the electronic identification main code are arranged in a split mode or fixedly connected through a connecting line and used for identifying the U height of the IT equipment;

the error erasing code is arranged with the electronic identification main code and/or the U high code in a separated manner or fixedly connected through a connecting wire; and is used for erasing the U height stored in the electronic identification main code and/or the database;

and the database is in communication connection with the asset detection device and stores the U height and the electronic identification code of the IT equipment.

22. The data center IT device Uelevation detection system of claim 21,

the electronic identification main code and the IT equipment are arranged in a one-to-one correspondence mode, and the U high code and the error erasing code comprise one or more.

23. A storage medium having stored thereon a computer program, wherein the computer program, when executed by a processor, implements the steps of the data center IT equipment U height detection method of any of claims 1 to 20.

24. A data center IT equipment U height detection function code, characterized by includes:

the electronic identification code comprises a unique identity electronic identification code and a U-height electronic identification main code, wherein the unique identity electronic identification code and the U-height electronic identification main code are used for storing IT equipment;

the U high code is integrally connected with the electronic identification main code or is arranged in a split mode and is used for identifying the U height of the IT equipment;

and the electronic mark main code and/or the U-height code are integrally connected or separately arranged and are used for erasing the U-height error erasing code.

Technical Field

The invention relates to the technical field of data centers, in particular to a method, a system and a function code for detecting the U height of IT equipment of a data center.

Background

At present, in order to realize efficient information management of asset life cycles and U-bit space resources of IT equipment of a data center, electronic identification codes which are fixed on the equipment for the whole life are often connected to U bits of asset strips in an asset detection device corresponding to an equipment installation position when the IT equipment is installed on a rack; for the multi-U asset detection device, the multi-U asset detection device is arranged on the U bit of one of the upper end and the lower end corresponding to the equipment, so that an asset management system can read the electronic identification code of the equipment, identify the position of the equipment and calculate the used rack U space resource from the height attribute (U height value) of the equipment in the database.

There are two input modes for the initialization of the U high data in the asset management of IT equipment of a data center: firstly, the manual input (or manual table import) of an interactive page is initialized through equipment data of an asset management system; secondly, manual input is carried out through a mobile terminal (the mode is usually used when only U-bit management is carried out); but both have the problems of complicated operation, inconvenience and easy error; the data center has huge number of IT equipment in a cabinet, is newly added and frequently placed off shelves, so that the complex manual data entry wastes manpower and is easy to make mistakes, and the wrong U-bit data cannot be simply verified and corrected.

Therefore, the prior art is in need of improvement.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method, a system and a function code for detecting the height of a data center IT device U, aiming at the above-mentioned defects in the prior art; the method aims to solve the problems that manual entry is needed during U height identification of IT equipment in data in the prior art, and data cannot be simply and conveniently verified and corrected after being mistaken.

The technical scheme adopted by the invention for solving the technical problem is as follows: a method for detecting U height of IT equipment in a data center is used for jointly identifying the U height of the IT equipment in the data center in a cabinet by utilizing an electronic identification main code, a U height code, an error erasing code and an asset detection device, and comprises the following steps:

detecting whether the U height of the IT equipment is stored;

if not, performing U-height initialization on the IT equipment, and storing the IT equipment in the electronic identification main code and/or the database;

checking whether the U height of the IT equipment is wrong;

and when the U height of the IT equipment is wrong, correcting the wrong U height.

Further, the detecting whether the U height of the IT device is stored specifically includes:

connecting the electronic identification main code of the IT equipment with an asset detection device in a communication way;

the asset detection device reads and judges whether the U height of the IT equipment is stored in the electronic identification main code and/or the database;

if yes, the IT equipment has the U height, and the asset detection device sends out a first optical signal;

and if not, the IT equipment does not have the U height.

Further, if yes, the IT device has a U-height, and the asset detection device sends out a first optical signal, specifically including:

indicating lamps are correspondingly arranged on all the U positions on the asset detection device one by one;

when the asset detection device reads that the IT equipment has the U height, the asset detection device controls the indicating lamps corresponding to the U positions with the U positions +/-U height of the electronic identification main code to present a first color state and a first lighting state.

Further, if not, the IT device is initialized to the U-high level and stored in the electronic identification main code and/or the database, specifically including:

detecting a starting U bit and a terminating U bit of the IT equipment;

and obtaining the U height of the IT equipment according to the starting U bit and the ending U bit, and storing the obtained U height in an electronic identification main code and/or a database.

Further, the detecting the start U bit and the end U bit of the IT device specifically includes:

detecting the bottom of the IT equipment, and confirming a U bit on an asset detection device corresponding to the bottom as an initial U bit;

and detecting the top of the IT equipment, and confirming the U bit on the asset detection device corresponding to the top as a termination U bit.

Further, the detecting the start U bit and the end U bit of the IT device specifically includes:

detecting the bottom of the IT equipment, and confirming a U bit on an asset detection device corresponding to the bottom as a termination U bit;

and detecting the top of the IT equipment, and confirming the U bit on the asset detection device corresponding to the top as a starting U bit.

Further, the obtaining of the U height of the IT device according to the starting U bit and the ending U bit and storing the obtained U height in the electronic identification main code and/or the database specifically include:

judging whether the starting U bit and the ending U bit are the same U bit;

if yes, the electronic identification main code is connected to the corresponding U bit in a communication mode;

and the asset detection device acquires that the U height of the IT equipment is 1U bit, and writes the U height into a database and/or an electronic identification main code.

Further, the obtaining of the U height of the IT device according to the starting U bit and the ending U bit, and storing the obtained U height in the electronic identification main code and/or the database, further includes:

when the electronic identification main code is in communication connection with the initial U position or the termination U position, the asset detection device controls an indicator lamp corresponding to the U position where the electronic identification main code is located to send out a second light signal;

when the asset detection device obtains that the U height of the IT equipment is 1U bit and writes the U height into a database and/or an electronic identification main code, the asset detection device controls an indicator lamp corresponding to the U bit where the electronic identification main code is located to send out a first optical signal after preset time.

Further, the first optical signal is different from the second optical signal;

the first light signal is set to a first color state and a first lighting state;

the second light signal is set to a second color state and a second lighting state; or, set to a first color state and a second lighting state; or, set to a second color state and a first lighting state;

the first color state, the first lighting state, the second color state, the second lighting state and the preset time can be set in a user-defined mode;

the first and second color states comprise: blue, green, red or yellow; the first and second lighting states include blinking or normally on.

Further, the determining whether the starting U bit and the terminating U bit are the same U bit further includes:

if not, the electronic identification main code is connected to the initial U bit in a communication mode, and the U high code is connected to the termination U bit in a communication mode;

and the asset detection device obtains the U height of the IT equipment according to the electronic identification main code and the U height code, and stores the U height in the electronic identification main code and/or a database.

Further, if not, the electronic identification main code is connected to the initial U bit in a communication manner, and the U high code is connected to the termination U bit in a communication manner, which specifically includes:

when the starting U position and the ending U position are not the same U position, the electronic identification main code is connected to the starting U position in a communication mode, and the asset detection device controls an indicator lamp corresponding to the starting U position to send out a second light signal;

and connecting the U high code communication with the termination U position, and controlling the indicator lamps corresponding to all the U positions between the starting U position and the termination U position to send out second light signals by the asset detection device.

Further, when the starting U bit and the ending U bit are not the same U bit, the electronic identification main code is connected to the starting U bit in a communication mode, the asset detection device controls an indicator lamp corresponding to the starting U bit to send out a second light signal, and the method further comprises the following steps;

when the electronic identification main code is in communication connection with the initial U position for a preset time, the asset detection device controls an indicator lamp corresponding to the initial U position to send out a first optical signal;

and connecting the U high code communication with the termination U position, and controlling the indicator lamps corresponding to all the U positions between the starting U position and the termination U position to send out second light signals by the asset detection device.

Further, the connecting the U-high code to the terminating U-bit and the asset detecting device controlling the indicator lights corresponding to all U-bits between the starting U-bit and the terminating U-bit to emit the second light signal further comprises:

disconnecting the communication connection between the U high code and the asset detection device;

the asset detection device controls indicator lamps corresponding to all U positions between the starting U position and the ending U position to send out first optical signals; or the asset detection device controls the indicator lamps corresponding to the starting U bit and the ending U bit to send out a first light signal.

Further, the determining whether the starting U bit and the terminating U bit are the same U bit further includes:

if not, the electronic identification main code is connected to the termination U bit in a communication mode, and the U high code is connected to the starting U bit in a communication mode;

and the asset detection device obtains the U height of the IT equipment according to the starting U position and the ending U position, and stores the U height in the electronic identification main code and/or the database.

Further, the checking whether the U height of the IT device is incorrect specifically includes:

the asset detection device detects whether the electronic identification main code and/or the U high code are correctly connected with the initial U bit or the termination U bit in a communication way;

if yes, the U is high and error-free;

if not, the U height is wrong.

Further, if the U height is incorrect if the result is no, correcting the incorrect U height, specifically including:

when the U height is wrong, detecting whether the U height is 1U bit;

if so, connecting the error erasing code to the adjacent U bit of the U bit where the electronic identification main code is located, carrying out U high initialization on the IT equipment again, and storing the U high initialization in the electronic identification main code and/or the database;

if not, the electronic identification main code and the U high code are connected to the correct U position in a communication mode, the equipment is initialized with the U high code again, and the U high code is stored in the electronic identification main code and/or the database.

Further, if yes, the error erasing code is connected to the adjacent U bit of the U bit where the electronic identification main code is located in a communication manner, and the IT device is initialized again with the U high level and stored in the electronic identification main code and/or the database, which specifically includes:

when the U height is 1U bit, the error erasing code is connected to the adjacent U bit of the U bit where the electronic identification main code is located in a communication mode, and the asset detection device controls the indicator lamp corresponding to the U bit where the electronic identification main code and the error erasing code are located to send out a third optical signal;

and disconnecting the communication connection between the error erasing code and the asset detection device, wherein the asset detection device controls an indicator lamp of a U position where the electronic identification main code is located to send a first optical signal.

Further, if not, the electronic identification main code and the U-high code are communicatively connected to the correct U bit, and the device is initialized again with the U-high code and stored in the electronic identification main code and/or the database, which specifically includes:

the electronic identification main code and/or the U high code with the communication connection error are respectively connected to the correct initial U bit or termination U bit in a communication mode again;

and performing U high initialization on the IT equipment again, and storing the IT equipment in the electronic identification main code and/or the database.

Further, the detecting whether the U height of the IT device is stored previously further includes:

detecting whether the electronic identification main code and an electronic identification code of the IT equipment corresponding to the electronic identification main code are stored in a database or not;

if yes, carrying out U height detection on the IT equipment;

if not, directly inputting the electronic identification code of the IT equipment into the electronic identification main code and the database.

Further, the detecting whether the electronic identifier main code and the electronic identifier code of the IT device corresponding to the electronic identifier main code are stored in the database or not further includes:

and bonding or binding one end of the electronic identification main code with the IT equipment.

The invention adopts another technical scheme for solving the technical problem as follows: a data center IT equipment U height detection system, IT includes: the system comprises an asset detection device, a rack, a database, an electronic identification main code, a U high code and an error erasing code;

the asset detection device is in communication connection with the database, is in communication connection with the electronic identification main code, the U height code and the error erasing code, and detects the U height of the IT equipment;

the rack is used for fixedly mounting the asset detection device and the IT equipment;

one end of the electronic identification main code is fixedly connected with the IT equipment, and the other end of the electronic identification main code is in communication connection with the asset detection device and is used for storing an electronic identification code and a U height of the IT equipment;

the U height code and the electronic identification main code are arranged in a split mode or fixedly connected through a connecting line and used for identifying the U height of the IT equipment;

the error erasing code is arranged with the electronic identification main code and/or the U high code in a separated manner or fixedly connected through a connecting wire; and is used for erasing the U height stored in the electronic identification main code and/or the database;

and the database is in communication connection with the asset detection device and stores the U height and the electronic identification code of the IT equipment.

Furthermore, the electronic identification main code and the IT equipment are arranged in a one-to-one correspondence mode, and the U high code and the error erasing code comprise one or more codes.

The invention adopts another technical scheme for solving the technical problem as follows: a storage medium having stored thereon a computer program, wherein the computer program, when executed by a processor, implements the steps of a data center IT equipment uhp detection method as defined in any one of the preceding claims.

The invention adopts another technical scheme for solving the technical problem as follows: a data center IT equipment U height detection function code, IT includes: the electronic identification code comprises a unique identity electronic identification code and a U-height electronic identification main code, wherein the unique identity electronic identification code and the U-height electronic identification main code are used for storing IT equipment; the U high code is integrally connected with the electronic identification main code or is arranged in a split mode and is used for identifying the U height of the IT equipment; and the electronic mark main code and/or the U-height code are integrally connected or separately arranged and are used for erasing the U-height error erasing code.

Compared with the prior art, the invention provides a method, a system and a functional code for detecting the U height of IT equipment of a data center, wherein the method for detecting the U height of the IT equipment of the data center comprises the following steps: detecting whether the U height of the IT equipment is stored; if not, performing U-height initialization on the IT equipment, and storing the IT equipment in the electronic identification main code and/or the database; checking whether the U height of the IT equipment is wrong; and when the U height of the IT equipment is wrong, correcting the wrong U height. IT can be understood that the situation of off-shelf maintenance of the IT equipment of the data center exists, and therefore when the maintained IT equipment is on shelf again, the U height data of the IT equipment is already stored in the database or the database and the electronic identification main code; by detecting whether the U height in the IT equipment is stored or not in advance, the U height initialization of the IT equipment is realized if and only if the U height data in the equipment is not stored, so that the complexity of the U height data entry work of the IT equipment of a data center is greatly reduced; the U height data of the IT equipment is effectively obtained by initializing the IT equipment, and meanwhile, the U height data of the IT equipment in a data center is quickly input by storing the U height data in an electronic identification main code and/or a database, so that the U height management of the IT equipment is facilitated; whether the U height of the IT equipment is wrong or not is checked, so that whether the U height data of the IT equipment is wrong or not is timely and quickly checked, and the accuracy of the U height data of the IT equipment is effectively guaranteed; the U height of the IT equipment with the U height error is corrected, so that the U height data of the IT equipment of the data center are accurately recorded and stored in a database and/or an electronic identification main code; in summary, compared with the problems that in the prior art, the work is tedious in a manual entry mode, mistakes are easy to occur, and the method for detecting the height of the IT equipment U in the data center is unknown after the mistakes, the method for detecting the height of the IT equipment U in the data center can achieve the effects of being automatic, rapid, accurate and convenient, and facilitating verification and automatic correction after the mistakes are made.

Drawings

FIG. 1 is a schematic flow chart of a method for detecting the height of a data center IT device U according to the present invention;

FIG. 2 is a schematic diagram of a U height detection system of data center IT equipment in the invention;

FIG. 3 is a schematic perspective view of a matching relationship between a main electronic identification code, a U-height code and an error code in a U-height detection system of a data center IT device according to the present invention;

FIG. 4a is a schematic diagram of a three-dimensional structure of a U height detection function code of a data center IT device in the invention;

FIG. 4b is a schematic diagram of a three-dimensional structure of a U height detection function code of a data center IT device in the invention;

FIG. 5 is a schematic diagram of a three-dimensional structure of a U height detection function code of a data center IT device in the invention;

FIG. 6 is a schematic diagram of a three-dimensional structure of a U height detection function code of a data center IT device in the invention;

description of reference numerals:

10. a data center IT device U height detection system; 11. an asset detection device; 12. an IT device; 13. u bit; 14. an indicator light; 15. an electronic identification master code; 16. a U high code; 17. error code erasing; 18. a frame; 19. a database; 151. an IT equipment fixing end; 152. asset detection equipment fixed end.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the present invention provides a method for detecting a U height of IT equipment in a data center, which performs U height detection on IT equipment erected in the data center or on IT equipment pre-erected in the data center through an electronic identification main code, a U height code, an error code and an asset detection device, that is, the IT equipment performs U height value detection of the asset detection device corresponding to the height, and records the U height value into a database and/or the electronic identification main code; IT can be understood that, when the IT equipment and the asset detection device are installed on a cabinet of a data center, the spatial height of the IT equipment corresponds to several U bits on the asset detection device; that is, the U height of the asset detection device corresponding to the IT device.

Further, the method for detecting the height of the data center IT device U comprises the following steps:

step S13, detecting whether the U height of the IT equipment is stored;

step S14, if not, the IT equipment is initialized to U height and stored in the electronic identification main code and/or the database;

step S15, checking whether the U height of the IT equipment is wrong;

and step S16, when the U height of the IT equipment is wrong, correcting the wrong U height.

IT can be understood that the situation of off-shelf maintenance of the IT equipment of the data center exists, and therefore when the maintained IT equipment is on shelf again, the U height data of the IT equipment is already stored in the database or the database and the electronic identification main code; by detecting whether the U height in the IT equipment is stored or not in advance, the U height initialization of the IT equipment is realized if and only if the U height data in the equipment is not stored, so that the complexity of the U height data entry work of the IT equipment of a data center is greatly reduced; the U height data of the IT equipment is effectively obtained by initializing the IT equipment, and meanwhile, the U height data of the IT equipment in a data center is quickly input by storing the U height data in an electronic identification main code and/or a database, so that the U height management of the IT equipment is facilitated; whether the U height of the IT equipment is wrong or not is checked, so that whether the U height data of the IT equipment is wrong or not is timely and quickly checked, and the accuracy of the U height data of the IT equipment is effectively guaranteed; the U height of the IT equipment with the U height error is corrected, so that the U height data of the IT equipment of the data center are accurately recorded and stored in a database and/or an electronic identification main code; in summary, compared with the problems that in the prior art, the work is tedious in a manual entry mode, mistakes are easy to occur, and the method for detecting the height of the IT equipment U in the data center is unknown after the mistakes, the method for detecting the height of the IT equipment U in the data center can achieve the effects of being automatic, rapid, accurate and convenient, and facilitating verification and automatic correction after the mistakes are made.

Referring to fig. 2, in some preferred embodiments, the step S13 specifically includes:

s131, connecting the electronic identification main code of the IT equipment with an asset detection device in a communication way;

step S132, the asset detection device reads and judges whether the U height of the IT equipment is stored in the electronic identification main code and/or the database;

step S133, if yes, the IT equipment has a U height, and the asset detection device sends out a first optical signal;

and S134, if not, the IT equipment does not have the U height.

The asset detection device is provided with a plurality of U-bit asset strips, and the asset strips are in communication connection with a database and can be in communication connection with the electronic identification main code, the U-high code and the error correction code; the asset detection device reads the information stored in the electronic identification main code and reads the information in the data after the electronic identification main code is in communication connection; that is, after the asset detection device is in communication connection with the electronic identification main code, whether the electronic identification main code stores the U height of the IT device or not can be read.

Meanwhile, each U position of the asset detection device is provided with an indicator light in a one-to-one correspondence manner; the indicating lamp is controlled to send different light signals, so that whether the U height of the IT equipment is stored in the electronic identification main code or not can be intuitively and quickly indicated. When the asset detection device reads that the IT equipment has the U height, the asset detection device controls the indicating lamps corresponding to the U positions with the U positions +/-U height of the electronic identification main code to present a first color state and a first lighting state. That is, when the IT device has a U height, the asset detection device controls several indicator lamps with the same number as the U height to emit first light signals; specifically, when the IT device has a U-height, the asset detection device controls the U-position of the electronic identification main code to send a first optical signal, and controls the indicator light on one side of the electronic identification main code to send a first optical signal, and the number of the U-positions corresponding to the indicator light sending the first optical signal is the U-height of the IT device.

Further, the first optical signal in step S133 is specifically a first color state and a first lighting state; the first color state and the first lighting state can be set by a user; specifically, the first color state includes colors such as blue, red, green or yellow; the first lighting state comprises flashing or normally lighting and the like, wherein in the flashing state, the single lighting state can be set by a user.

In another preferred embodiment, the step S14 specifically includes:

step S141, detecting the initial U bit and the termination U bit of the IT equipment;

and S142, obtaining the U height of the IT equipment according to the starting U bit and the ending U bit, and storing the obtained U height in the electronic identification main code and/or the database.

IT can be understood that the IT device has a space height, and the space height corresponds to the number of U bits on the asset detection device, and the U height of the IT device is several corresponding to several U bits; for example, the IT device corresponds to N bits of U, where the U height of the IT device is N, and N is a positive integer; meanwhile, the U bits corresponding to the device have a U bit of a starting point and a U bit of a terminating point, namely a starting U bit and a terminating U bit; and then the asset detection device reads the starting U bit and the ending U bit to further acquire the U bit number of the IT equipment, namely, the U height of the IT equipment is automatically detected and acquired.

In an embodiment, the step S141 specifically includes:

detecting the bottom of the IT equipment, and confirming a U bit on an asset detection device corresponding to the bottom as an initial U bit;

and detecting the top of the IT equipment, and confirming the U bit on the asset detection device corresponding to the top as a termination U bit.

In another embodiment, the step S141 specifically includes:

detecting the bottom of the IT equipment, and confirming a U bit on an asset detection device corresponding to the bottom as a termination U bit;

and detecting the top of the IT equipment, and confirming the U bit on the asset detection device corresponding to the top as a starting U bit.

IT is understood that the start U bit may be set to correspond to the top or bottom U bit of the IT device, and the end U bit may also correspond to the bottom or top U bit of the IT device.

Further, in a preferred embodiment, the step S142 specifically includes:

step S1421, determining whether the starting U bit and the ending U bit are the same U bit;

step S1422a, if yes, connecting the electronic identification main code to a corresponding U bit in a communication manner;

step S1423a, the asset detection apparatus obtains that the U height of the IT device is 1U bit, and writes the U height into a database and/or an electronic identification master code.

IT should be noted that, there is a possibility that the U height of the IT device is 1, and at this time, the starting U bit and the ending U bit are the same U bit; that is, the IT device corresponds to only one U bit on the asset detection device. Furthermore, when the starting U bit and the ending U bit are the same U bit, the electronic identification main code is directly connected to the U bit corresponding to the asset detection device in a communication mode, and the asset detection device can acquire the U height of the IT equipment as 1 and stores the U height into the electronic identification main code and/or the database.

Furthermore, when the electronic identification main code is in communication connection with the initial U bit or the termination U bit, the asset detection device controls an indicator lamp corresponding to the U bit where the electronic identification main code is located to send out a second light signal;

when the asset detection device obtains that the U height of the IT equipment is 1U bit and writes the U height into a database and/or an electronic identification main code, the asset detection device controls an indicator lamp corresponding to the U bit where the electronic identification main code is located to send out a first optical signal after preset time.

Wherein the first optical signal is different from the second optical signal; the first light signal is set to a first color state and a first lighting state; the second light signal is set to a second color state and a second lighting state; or, set to a first color state and a second lighting state; or, set to a second color state and a first lighting state; the first color state, the first lighting state, the second color state, the second lighting state and the preset time can be set in a user-defined mode.

Specifically, the first color state and the second color state include colors such as blue, red, green or yellow, and the first color state and the second color state are different; the first lighting state and the second lighting state comprise flickering or normal lighting and the like, and the first lighting state and the second lighting state are different; and, the state is lighted to single in the scintillation state, and the user can set up by oneself. IT can be understood that according to the data center IT equipment U height automatic detection method provided by the invention, the asset detection device can send an optical signal when reading the electronic identification main code; when the asset detection device obtains the U height of the IT equipment through the electronic identification main code, and the U height is stored and written into a database and/or a database, another different optical signal is sent out after a preset time; and then each process of high automated inspection of effectual feedback U, the high efficiency of detecting of effectual promotion data center IT equipment U.

In another embodiment, the step S1421 is followed by:

step S1422b, if not, connecting the electronic identification main code to the initial U bit in a communication manner, and connecting the U high code to the termination U bit in a communication manner;

step S1423b, the asset detection apparatus obtains the U height of the IT device according to the start U bit and the end U bit, and stores the U height in the electronic identification main code and/or the database.

IT can be understood that when the U height corresponding to the IT device is greater than 1, the electronic identification main code and the U height code need to be simultaneously connected with the asset detection device in a communication manner when the U height of the IT device is automatically detected; and then the asset detection device automatically obtains the U height of the IT equipment through the electronic identification main code on the starting U position and the U height code on the ending U position, and stores the U height in the electronic identification main code and/or the database.

Further, the step S1422b specifically includes:

when the starting U position and the ending U position are not the same U position, the electronic identification main code is connected to the starting U position in a communication mode, and the asset detection device controls an indicator lamp corresponding to the starting U position to send out a second light signal;

and connecting the U high code communication with the termination U position, and controlling the indicator lamps corresponding to all the U positions between the starting U position and the termination U position to send out second light signals by the asset detection device.

It can be understood that the asset detection device sends a second optical signal at the indicator lamp corresponding to the U bit of the electronic identification main code communication connection by controlling the indicator lamp, thereby prompting the electronic identification main code to be in communication connection with the initial U bit; when the U high code communication is connected to the ending U position of the asset detection device, all the indicating lamps corresponding to the U positions between the starting U position and the ending U position on the asset detection device send out second light signals; and then the process that the asset detection device is automatically indicated to read the height of the IT equipment U is greatly reduced, the error rate of the high storage data of the IT equipment U is greatly reduced, and the efficiency of the high automatic detection of the IT equipment U is improved.

Further, the step S1422b specifically includes:

when the starting U position and the ending U position are not the same U position, the electronic identification main code is connected to the starting U position in a communication mode, and the asset detection device controls an indicator lamp corresponding to the starting U position to send out a second light signal;

when the electronic identification main code is in communication connection with the initial U position for a preset time, the asset detection device controls an indicator lamp corresponding to the initial U position to send out a first optical signal;

and connecting the U high code communication with the termination U position, and controlling the indicator lamps corresponding to all the U positions between the starting U position and the termination U position to send out second light signals by the asset detection device.

It can be understood that when the electronic identification main code is connected to the U position of the asset detection device in a communication manner for a certain time, the asset detection device controls the indicator lamp of the U position where the electronic identification main code is located to send out a first optical signal.

Further, the steps S1423a and S1423b are followed by:

step S1424, disconnecting the communication connection between the U high code and the asset detection device;

the asset detection device controls indicator lamps corresponding to all U positions between the starting U position and the ending U position to send out first optical signals; or the asset detection device controls the indicator lamps corresponding to the starting U bit and the ending U bit to send out a first light signal.

IT can be understood that, after the asset detection device detects and stores the U height of the IT device, the asset detection device controls the indicator light corresponding to the U bit of the electronic identification main code to send out a first light signal; or the asset detection device controls all the indicating lamps corresponding to the U bits between the electronic identification main code and the U high code to send out first light signals. Meanwhile, after the IT equipment U is stored highly, the asset detection device can control all the indicator lamps between the starting U position and the ending U position to send out first light signals; or after the IT equipment U is stored highly, the asset detection device can control the starting U bit and the indicating lamp corresponding to the ending U bit to send out the first light signal, and therefore energy consumption of the indicating lamp is effectively reduced.

Preferably, the step S1422b may further be configured to:

if not, the electronic identification main code is connected to the termination U bit in a communication mode, and the U high code is connected to the starting U bit in a communication mode.

IT can be understood that, when the IT device corresponds to multiple U bits, that is, when the U height of the device is greater than 1, the asset detection device needs to detect the electronic identification main code and the U height code at the same time; the electronic identification main code can be connected to one of the initial U bit or the termination U bit in any communication mode, and the U high code is correspondingly connected to the termination U bit and the initial U bit in communication mode; therefore, the U height detection operation of the IT equipment is greatly facilitated, and the U height detection efficiency is improved.

In a preferred embodiment, the step S15 specifically includes:

s151, detecting whether the electronic identification main code and/or the U high code are correctly connected with the starting U bit or the ending U bit in a communication way by the asset detection device;

step S152a, if yes, the U is high and correct;

and step S153b, if not, the U height is wrong.

IT can be understood that whether the electronic identification main code and the U high code are correctly connected to the initial U bit or the termination U bit is judged, so that the communication connection state of the electronic identification main code and the U high code with the asset detection device can be intuitively and quickly acquired, and whether the U high of the IT equipment is wrong or not is effectively checked.

Further, step S153b is followed by:

and when the U height is wrong, the asset detection device controls the indicator lamps corresponding to all the U bits between the starting U bit and the ending U bit to send out a third light signal.

It can be understood that, when the U-height is wrong, the resource self-detection device controls the indicator lamps corresponding to all U-bits between the starting U-bit and the ending U-bit to send out a third light signal; further intuitively and quickly prompting the IT equipment with the U-height error; and then the high accuracy of U of data center IT equipment has effectively been guaranteed.

It should be noted that the third optical signal is different from both the first optical signal and the second optical signal, but the third optical signal is also set to the user-definable setting; meanwhile, the third light signal comprises a third color state and a first lighting state or a second lighting state; the third color state comprises one of blue, red, green or yellow and the like, and the first color state, the second color state and the third color state are all different.

In another preferred embodiment, the step S16 specifically includes:

step S161, when the U height is wrong, detecting whether the U height is 1U bit;

step S162, if yes, the error erasing code is connected to the adjacent U bit of the U bit where the electronic identification main code is located in a communication mode, U high initialization is carried out on the IT equipment again, and the IT equipment is stored in the electronic identification main code and/or the database;

and step S163, if not, connecting the electronic identification main code and the U high code to a correct U position in a communication way, carrying out U high initialization on the equipment again, and storing the equipment in the electronic identification main code and/or the database.

IT can be understood that when an error occurs in the U height of the IT device, if the actual U height is 1U bit, the U height needs to be communicatively connected to the asset detection device by using an error erasure code, and further, the error erasure code is communicatively connected to the U bit adjacent to the U bit where the electronic identification main code is located, that is, the U bit in the ascending direction of the electronic identification main code, or the U bit in the descending direction of the electronic identification main code, so as to delete the error U height stored in the electronic identification main code and/or the database; and the quick deletion of the wrong U height is realized, and the guarantee is provided for the subsequent timely correction of the correct U height.

Meanwhile, when the U height is not 1U position, the electronic identification main code and/or the U height code with wrong communication connection position with the asset detection device can be directly moved to the correct U position, and the U height of the IT equipment can be corrected.

Further, step S162 specifically includes:

step S1621, when the U height is 1U bit, the error erasing code is connected to the adjacent U bit of the U bit where the electronic identification main code is located, namely, the U bit of the ascending direction of the electronic identification main code or the U bit of the descending direction of the electronic identification main code, and the asset detection device controls the indicator lamps corresponding to the U bits where the electronic identification main code and the error erasing code are located to send out a third optical signal;

and S1622, disconnecting the communication connection between the error erasing code and the asset detection device, and controlling an indicator lamp of a U position where the electronic identification main code is positioned to send a first optical signal by the asset detection device.

It can be understood that the asset detection device sends different light signals by controlling the indicating lamp corresponding to the U position on the asset detection device, so that the U height error condition can be intuitively and quickly prompted, and the state in each step can be indicated. Meanwhile, when the U height of 1 is erased, the error erasing code and the electronic identification main code need to be simultaneously connected to the asset detection device in a communication manner, and meanwhile, the asset detection device controls an indicator lamp corresponding to the U position where the error erasing code and the electronic identification main code are located to send out a third optical signal; it should be noted that the error-erasing code is connected to the adjacent U bit of the U bit where the electronic identification main code is located.

Further, the step S163 specifically includes:

step S1631, the electronic identification main code and/or the U high code with the wrong communication connection are respectively connected to the correct initial U bit or the correct termination U bit in a communication mode again;

step S1632, the IT device is initialized again with U high, and stored in the electronic identifier main code and/or the database.

IT should be noted that, when there are multiple U bits of the IT device, the correct U height of the IT device error can be realized only by communicatively connecting the electronic identification main code and/or the U height code with the wrong connection position to the correct U bit again. For the re-U high initialization of the IT device in step S1632, the process is the same as the U high initialization process in the above embodiment of the present invention, and is not described herein again.

In other embodiments, step S12 is further included before step S13 of the data center IT equipment U height detection method, where step S12 specifically includes:

step S121, detecting whether the electronic identification main code and the electronic identification code of the IT equipment corresponding to the electronic identification main code are stored in a database;

step S122, if yes, carrying out U height detection on the IT equipment;

and S123, if not, directly inputting the electronic identification code of the IT equipment into the electronic identification main code and the database.

IT should be noted that the electronic identification main code and the IT device are arranged in a one-to-one correspondence manner; the electronic identification main code can store U high data and a unique identity code of the IT equipment, namely the U high and the electronic identification code; the electronic identification code is stored with the identity information of the IT equipment, so that when the U height detection is carried out for recording, the information of the IT equipment can be acquired, and the follow-up U height and identity information of the IT equipment can be accurately detected.

Further, the step S12 is preceded by a step S11, and the step S11 includes:

and one end of the electronic identification main code is bonded or tied with the IT equipment, and the other end of the electronic identification main code is in communication connection with the asset detection device.

IT can be understood that the electronic identifier is fixedly connected with the IT equipment in a one-to-one correspondence manner, and is in communication connection with the asset detection device; IT should be noted that one end of the electronic identification main code is fixedly bonded with the IT equipment, or is fixed by a binding wire; and when the electronic identification main code is in communication connection with the asset detection equipment, the electronic identification main code and the asset detection device are fixed through magnetic attraction, buckling or bonding and the like.

Referring to fig. 2, the present invention further provides a system 10 for detecting a height of an IT device U in a data center, which includes: asset detection device 11, rack 18, database, electronic identification master code 15, U high code 16, and error correction code 17.

The asset detection device 11 is in communication connection with the database, is in communication connection with the electronic identification main code 15, the U height code 16 and the error erasing code, and detects the U height of the IT equipment 12; specifically, the asset detection device 11 detects the U position of the electronic identification main code 15 and the U height code 16, and further obtains the U height of the IT device 12.

The rack 18 is used for fixedly mounting the asset detection device 11 and the IT equipment 12;

one end of the electronic identification main code 15 is fixedly connected to the IT equipment 12, and the other end of the electronic identification main code is in communication connection with the asset detection device 11 and is used for storing an electronic identification code and a U height of the IT equipment 12;

the U-height code 16 and the electronic identification main code 15 are arranged in a split manner or fixedly connected through a connecting line and are used for identifying the U height of the IT equipment 12;

the error erasing code 17 and the electronic identification main code 15 and/or the U-shaped high code 16 are arranged separately or fixedly connected through a connecting line; and for erasing the U-height stored in the electronic identity master 15 and/or the database;

the database is in communication connection with the asset detection device 11 and stores the U height and the electronic identification code of the IT device 12.

IT can be understood that the electronic identification main code 15, the U-high code 16 and the error code 17 in the data center IT equipment height detection system 10 provided by the invention can be arranged separately from each other; further, the U-shaped high code 16 and the error-erasing code 17 can be integrally connected through a connecting wire, and the integrally connected U-shaped high code 16 and the error-erasing code 17 are arranged separately from the electronic identification main code 15; furthermore, the U-shaped high code 16 and the electronic identification main code 15 can be integrally connected through a connecting wire, and the integrally connected U-shaped high code 16 and the electronic identification main code 15 are arranged separately from the error erasing code 17; furthermore, the electronic identification main code 15, the U-high code 16 and the error code 17 can be integrally connected through a connecting wire.

IT should be noted that, in the above embodiment, the connection line is an elastic connection line, so that the U height detection operation on the IT device 12 of the data center is facilitated; meanwhile, the electronic identification main codes 15 correspond to the IT equipment 12 in number one by one; the number of the U high codes 16 and the error-erasing codes 17 can be set as a group, and can also be set in one-to-one correspondence with the number of the electronic identification main codes 15; that is, the U-high code 16 and the error code 17 include one or more. Meanwhile, the U-height code 16, the electronic identification error erasing code 17 and the asset detection device 11 are connected through magnetic attraction, buckled or bonded through adhesive, and then are in data communication through a wired communication mode or a wireless communication mode, wherein the wireless communication mode comprises EIC, RFID or NFC and the like. The data center IT equipment 12 provided by the invention can realize that when the U height is not stored in the IT equipment 12, the U height initialization is carried out on the IT equipment 12, so that the complexity of the U height data entry work is reduced; u high data is quickly detected by carrying out U high initialization on the IT equipment 12, and the U high data is recorded; whether the U height is wrong or not is detected, and the U height is initialized again after the U height is wrong, so that the effects of being automatic, fast, accurate and convenient to use, and facilitating verification and automatic correction after errors occur are achieved.

The present invention also provides a storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the steps of the data center IT equipment 12U height detection method described in the above embodiments of the present invention.

Referring to fig. 3, the present invention further provides a functional code for detecting a height of an IT device U in a data center, which includes: the electronic identification code 15 is used for storing the unique identity electronic identification code of the IT equipment and the electronic identification main code with the height of U; a U high code 16 integrally or separately connected with the electronic identification main code 15 and used for identifying the U height of the IT equipment; and the electronic mark main code 15 and/or the U-height code 16 are integrally connected or separately arranged and are used for erasing the U-height error erasing code 17. The data center IT equipment U height detection function code provided by the invention can effectively identify the identity information of the IT equipment and can conveniently and quickly detect the U height data of the IT equipment; in addition, wrong U height data can be quickly erased, and further the U height of the IT equipment can be quickly and accurately detected.

In a specific embodiment, the electronic identification main code 15 includes an IT device fixing end 151 for fixedly connecting the IT device 12, and an asset detection device fixing end 152 for communicatively connecting the asset detection device 11; the U high code 16, the error erasing code 17 and the electronic identification main code 15 are arranged separately. Further, the asset detection device fixing end 152 of the electronic identification main code 15 is set as a magnetic attraction end, and the IT device fixing end 151 of the electronic identification main code 15 is set as a bonding end; the IT device fixing end 151 of the electronic identification main code 15 is fixed on the IT device 12 in an adhering mode, and the asset detection device fixing end 152 is connected to the U position of the asset detection device 11 in a magnetic absorption mode.

IT can be understood that one end of the electronic identification main code 15 is bonded to the IT device 12, and the other end is magnetically connected with the asset detection device 11; thereby effectively facilitating the operation of loading and unloading the IT equipment 12; meanwhile, the U high code 16, the error erasing code 17 and the electronic identification main code 15 are separately arranged, so that after the IT equipment 12 is subjected to U high detection and entry, the U high code 16 and the error erasing code 17 can be used for U high detection and entry of other IT equipment 12 again; that is to say, the electronic identification main codes 15 in the data center IT equipment height detection system 10 in the present invention are fixed on the IT equipment 12 in a one-to-one correspondence, and the U height code 16 and the error code 17 may be only set as one set; and further, the cost of the data center IT equipment high detection system 10 is effectively reduced.

Referring to fig. 4a and 4b, in another preferred embodiment, the electronic identification main code 15 and the U-shaped high code 16 are integrally connected by a connecting wire, and the error erasing code 17 is separately arranged from the integrally connected U-shaped high code 16 and the electronic identification main code 15.

Specifically, the U-high code 16 is connected to the fixed end of the IT device 12 of the electronic identification main code 15 through a connecting line; further, the U-high code 16 is connected to the asset device fixing end of the electronic identification main code 15 through a connecting line.

Referring to fig. 5, in another preferred embodiment, the electronic identification main code 15, the U-high code 16 and the error code 17 are connected by a connecting wire.

Specifically, the electronic identification main code 15 and the U-shaped high code 16 are integrally connected through a connecting wire, and the error erasing code 17 and the U-shaped high code 16 are integrally connected through a connecting wire.

Further, the electronic identification main code 15 and the U-shaped high code 16 are integrally connected through a connecting wire, and the electronic identification main code 15 and the error erasing code 17 are integrally connected through a connecting wire.

Referring to fig. 6, in another preferred embodiment, the error-erasing code 17 and the U-high code 16 are integrally connected by a connecting wire, and the electronic identification main code 15 is separately disposed from the integrally connected error-erasing code 17 and U-high code 16.

Compared with the prior art, the invention provides a method and a system for detecting the U height of data center IT equipment and a U height detection function code, wherein the method for detecting the U height of the data center IT equipment comprises the following steps: detecting whether the U height of the IT equipment is stored; if not, performing U-height initialization on the IT equipment, and storing the IT equipment in the electronic identification main code and/or the database; checking whether the U height of the IT equipment is wrong; and when the U height of the IT equipment is wrong, correcting the wrong U height. IT can be understood that the situation of off-shelf maintenance of the IT equipment of the data center exists, and therefore when the maintained IT equipment is on shelf again, the U height data of the IT equipment is already stored in the database or the database and the electronic identification main code; by detecting whether the U height in the IT equipment is stored or not in advance, the U height initialization of the IT equipment is realized if and only if the U height data in the equipment is not stored, so that the complexity of the U height data entry work of the IT equipment of a data center is greatly reduced; the U height data of the IT equipment is effectively obtained by initializing the IT equipment, and meanwhile, the U height data of the IT equipment in the data center is quickly input by storing the U height data in the electronic identification main code and/or the database, so that the U height management of the IT equipment is facilitated; whether the U height of the IT equipment is wrong or not is checked, so that whether the U height data of the IT equipment is wrong or not is timely and quickly checked, and the accuracy of the U height data of the IT equipment is effectively guaranteed; the U height of the IT equipment with the U height error is corrected, so that the U height data of the IT equipment of the data center are accurately recorded and stored in a database and/or an electronic identification main code; in summary, compared with the problems of tedious work, high possibility of error and agnostic after error caused by a manual entry mode in the prior art, the method for detecting the U height of the IT equipment of the data center provided by the invention can realize the effects of automatic rapidness, accuracy, convenience and convenience, and convenience for verification and automatic correction after error.

It is to be understood that the invention is not limited in its application to the details of the foregoing description, and that modifications and variations may be effected by those skilled in the art in light of the above teachings, all within the scope and range of equivalents of the appended claims.