CN115883331A - Communication equipment fault monitoring system for design unit - Google Patents

Abstract

The invention relates to a communication equipment fault monitoring system for a design unit, which belongs to the technical field of electric digital data processing, and is characterized in that a collision detection unit, an equipment position acquisition unit, an equipment running state detection unit, an equipment electrifying detection unit, an image data calling unit and an equipment damage analysis and judgment unit are designed to be started in order cooperation, so that the situation that too many detection units are in an invalid action state for a long time can be avoided, the situation that a system acquires a large amount of invalid data can be avoided, the energy consumption of the equipment is reduced, and the data storage space of the system is saved. When communication operation and maintenance personnel or cleaning personnel and the like perform related operations in the machine room, the detection result of the collision detection unit is used as the trigger condition of the whole system, so that the misoperation of the whole system can be avoided.

Description

Communication equipment fault monitoring system for design unit

Technical Field

The invention belongs to the technical field of electric digital data processing, and particularly relates to a communication equipment fault monitoring system for a design unit.

Background

For design enterprises, a machine room for storing communication equipment such as servers and communication switches is used as a background support for IT service of the enterprises, wherein the larger the enterprise scale is, the more the number of the corresponding communication equipment such as the servers and the communication switches is.

However, the reserved space of the enterprise computer room is often small, and when communication operation and maintenance personnel or cleaning personnel perform related operations in the computer room, the communication operation and maintenance personnel or the cleaning personnel easily collide with related communication equipment in the computer room unintentionally to cause communication equipment failure, and at the present stage, a communication equipment failure monitoring scheme for the above situations is not designed.

Therefore, at present, a communication equipment fault monitoring system for a design unit needs to be designed to solve the above problems.

Disclosure of Invention

The invention aims to provide a communication equipment fault monitoring system and method for a design unit, which are used for solving the technical problems in the prior art, the reserved space of an enterprise machine room is often small, communication operation and maintenance personnel or cleaning personnel and the like are easy to collide with relevant communication equipment in the machine room unintentionally to cause communication equipment faults when carrying out relevant operations in the machine room, and a communication equipment fault monitoring scheme aiming at the situations is not designed at present.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the communication equipment fault monitoring system for the design unit comprises a collision detection unit, an equipment position acquisition unit, an equipment running state detection unit, an equipment electrifying detection unit, an image data calling unit, an equipment damage analysis and judgment unit and a control unit; the control unit is respectively connected with the collision detection unit, the equipment position acquisition unit, the equipment running state detection unit, the equipment electrifying detection unit, the image data retrieval unit and the equipment damage analysis and judgment unit;

the collision detection unit is used for detecting whether the communication equipment collides;

the equipment position acquisition unit is used for acquiring real-time position data of the collided communication equipment and judging whether the real-time position data is abnormal or not;

the equipment running state detection unit is used for detecting whether the running state of the communication equipment is abnormal or not;

the equipment power-on detection unit is used for detecting whether power-on failure abnormality occurs in the communication equipment;

the image data calling unit is used for calling real-time image data of the communication equipment;

the equipment damage analysis and judgment unit is used for analyzing and judging whether the communication equipment has deformation damage abnormity according to the real-time image data of the communication equipment.

Further, the control unit controls the working state of the collision detection unit to be normally open, and controls the working states of the equipment position acquisition unit, the equipment running state detection unit, the equipment electrifying detection unit, the image data retrieval unit and the equipment damage analysis and judgment unit to be normally closed;

when the collision detection unit detects that the communication equipment collides, the control unit controls the equipment position acquisition unit to be started;

when the equipment position acquisition unit judges that the real-time position data is abnormal, the control unit controls the equipment running state detection unit to be started;

when the device running state detection unit detects that the running state of the communication device is abnormal, the control unit controls the device power-on detection unit to be started;

when the equipment power-on detection unit detects that the power-on fault of the communication equipment is not abnormal, the control unit controls the image data calling unit and the equipment damage analysis and judgment unit to be started.

Further, the device comprises a device reset auxiliary unit;

the control unit is connected with the equipment resetting auxiliary unit;

the device reset assisting unit is used for resetting the communication device to a set position.

Further, the control unit controls the working state of the equipment reset auxiliary unit to be normally closed;

when the equipment damage analyzing and judging unit analyzes and judges that the communication equipment is not deformed and damaged according to the real-time image data of the communication equipment, the control unit controls the equipment reset auxiliary unit to be started.

Further, the device also comprises a displacement distance detection unit, wherein the displacement distance detection unit is connected with the control unit;

the displacement distance detection unit is used for judging whether the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit.

Further, the control unit controls the working state of the displacement distance detection unit to be normally closed;

when the equipment damage analyzing and judging unit analyzes and judges that the communication equipment is not deformed and damaged according to the real-time image data of the communication equipment, the control unit controls the displacement distance detection unit to be started;

when the displacement distance detection unit judges that the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit, the control unit controls the equipment reset auxiliary unit to be started.

Furthermore, the device also comprises a reset obstacle detection unit, wherein the reset obstacle detection unit is connected with the control unit;

the reset obstacle detection unit is used for detecting whether an obstacle exists on a path of the communication equipment reset to a set position by the equipment reset auxiliary unit;

the control unit controls the reset obstacle detection unit to be normally closed;

when the displacement distance detection unit judges that the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit, the control unit controls the reset obstacle detection unit to be started;

when the reset obstacle detection unit detects that no obstacle exists on a path of the communication equipment reset to the set position by the equipment reset auxiliary unit, the control unit controls the equipment reset auxiliary unit to be started.

The system further comprises a manager interaction unit, wherein the manager interaction unit is connected with the control unit;

and the manager interaction unit is used for the manager to actively manage.

Compared with the prior art, the invention has the following beneficial effects:

one of the beneficial effects of this scheme lies in, through collision detecting element, equipment position acquisition unit, equipment running state detecting element, equipment circular telegram detecting element, image data transfer unit, equipment damage analysis judges the unit and constructs communication equipment trouble monitoring scheme, when communication fortune dimension personnel or personnel of keeping a public place clean etc. carry out relevant operation in the computer lab, can carry out quick control and quick fault location to the trouble that communication equipment in the computer lab probably appears, be convenient for relevant staff carries out emergency treatment, will lose to minimum, ensure enterprise's interests. The collision detection unit, the equipment position acquisition unit, the equipment running state detection unit, the equipment electrifying detection unit, the image data calling unit and the equipment damage analysis and judgment unit are designed to be started in order, so that the situation that too many detection units are in an invalid action state for a long time can be avoided, the situation that a large amount of invalid data are collected by a system can be avoided, the energy consumption of the equipment is reduced, and the data storage space of the system is saved.

Drawings

Fig. 1 is a schematic system structure diagram according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of the system operation principle according to the embodiment of the present invention.

Detailed description of the preferred embodiments

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to fig. 1 to 2 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 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.

As shown in fig. 1, a communication device failure monitoring system for a design unit is provided, which includes a collision detection unit, a device position acquisition unit, a device operation state detection unit, a device power-on detection unit, an image data retrieval unit, a device damage analysis and determination unit, and a control unit; the control unit is respectively connected with the collision detection unit, the equipment position acquisition unit, the equipment running state detection unit, the equipment electrifying detection unit, the image data retrieval unit and the equipment damage analysis and judgment unit;

the collision detection unit is used for detecting whether the communication equipment collides;

the device position acquisition unit is used for acquiring real-time position data of the communication device in collision and judging whether the real-time position data is abnormal or not (the device position acquisition unit stores fixed position data of the communication device, and when the real-time position data is not matched with the fixed position data, whether the real-time position data is abnormal or not is judged);

the equipment running state detection unit is used for detecting whether the running state of the communication equipment is abnormal or not;

the equipment power-on detection unit is used for detecting whether power-on fault abnormality occurs to the communication equipment;

the image data calling unit is used for calling real-time image data of the communication equipment;

the equipment damage analyzing and judging unit is used for analyzing and judging whether the communication equipment has deformation damage abnormity according to the real-time image data of the communication equipment.

Among the above-mentioned scheme, through collision detecting element, equipment position acquisition unit, equipment running state detecting element, equipment circular telegram detecting element, image data transfer unit, equipment damage analysis judge unit and establish communication equipment fault monitoring scheme, when communication fortune dimension personnel or personnel of keeping a public place clean etc. carry out relevant operation in the computer lab, can carry out quick control and quick fault location to the trouble that communication equipment in the computer lab probably appears, be convenient for relevant staff carries out emergency treatment, will lose to minimum, ensure enterprise's interests.

Further, as shown in fig. 2, the control unit controls the working state of the collision detection unit to be normally open, and controls the working states of the device position acquisition unit, the device running state detection unit, the device energization detection unit, the image data retrieval unit, and the device damage analysis and determination unit to be normally closed;

when the collision detection unit detects that the communication equipment collides, the control unit controls the equipment position acquisition unit to be started;

when the equipment position acquisition unit judges that the real-time position data is abnormal, the control unit controls the equipment running state detection unit to be started;

when the device running state detection unit detects that the running state of the communication device is abnormal, the control unit controls the device power-on detection unit to be started;

when the equipment power-on detection unit detects that the communication equipment has no power-on fault abnormality, the control unit controls the image data calling unit and the equipment damage analysis and judgment unit to be started.

In the scheme, the collision detection unit, the equipment position acquisition unit, the equipment running state detection unit, the equipment electrifying detection unit, the image data calling unit and the equipment damage analysis and judgment unit are designed to be started in order, so that the situation that too many detection units are in an invalid action state for a long time can be avoided, the situation that a large amount of invalid data are collected by a system can be avoided, the energy consumption of the equipment is reduced, and the storage space of system data is saved. When communication operation and maintenance personnel or cleaning personnel perform related operations in the machine room, the detection result of the collision detection unit is used as the trigger condition of the whole system, so that the false operation of the whole system can be avoided; after a person collides with the communication equipment, whether the position of the communication equipment is changed or not is detected through the equipment position acquisition unit, if the position is detected to be changed, whether the working state of the communication equipment is abnormal or not is detected through the equipment running state detection unit, if the running state of the communication equipment is abnormal or not is detected, whether the communication equipment is abnormal in power-on fault or not is detected through the equipment power-on detection unit, if the communication equipment is not abnormal in power-on fault or not is detected, whether the communication equipment is abnormal in deformation and damage or not is detected through the image data calling unit and the equipment damage analysis and judgment unit, and therefore abnormal fault positioning of the communication equipment is completed.

Further, the device comprises a device resetting auxiliary unit;

the control unit is connected with the equipment resetting auxiliary unit;

the device reset assisting unit is used for resetting the communication device to a set position.

In the above scheme, the set position is a fixed position before the communication equipment is not displaced, and the communication equipment can be reset through the equipment resetting auxiliary unit, so that whether the communication equipment can normally operate again is tried, and if the communication equipment cannot normally operate after being reset, the communication equipment can be manually repaired only by related workers.

Further, the control unit controls the working state of the equipment reset auxiliary unit to be normally closed;

when the equipment damage analyzing and judging unit analyzes and judges that the communication equipment is not deformed and damaged according to the real-time image data of the communication equipment, the control unit controls the equipment reset auxiliary unit to be started.

In the above scheme, if the device damage analysis and judgment unit judges that the communication device is deformed and damaged, the probability that the communication device can run normally again after being reset is low, so that the device reset auxiliary unit is started only when the communication device is judged that the communication device is not deformed and damaged, and the device reset auxiliary unit can be prevented from starting certain invalid actions.

Further, the device also comprises a displacement distance detection unit, wherein the displacement distance detection unit is connected with the control unit;

the displacement distance detection unit is used for judging whether the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit.

Further, the control unit controls the working state of the displacement distance detection unit to be normally closed;

when the equipment damage analysis and judgment unit analyzes and judges that the communication equipment is not deformed and damaged according to the real-time image data of the communication equipment, the control unit controls the displacement distance detection unit to be started;

when the displacement distance detection unit judges that the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit, the control unit controls the equipment reset auxiliary unit to be started.

In the above-described aspect, since it is considered that the reset range of the device-resetting assisting unit is limited, if the positional deviation of the communication device is excessively large (the reset range of the device-resetting assisting unit has been exceeded), the reset action of the displacement distance detecting unit belongs to the ineffective action.

Furthermore, the device also comprises a reset obstacle detection unit, wherein the reset obstacle detection unit is connected with the control unit;

the reset obstacle detection unit is used for detecting whether an obstacle exists on a path of the communication equipment reset to a set position by the equipment reset auxiliary unit;

the control unit controls the reset obstacle detection unit to be normally closed;

when the displacement distance detection unit judges that the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit, the control unit controls the reset obstacle detection unit to be started;

when the reset obstacle detection unit detects that no obstacle exists on a path of the communication equipment reset to the set position by the equipment reset auxiliary unit, the control unit controls the equipment reset auxiliary unit to be started.

In the above-described aspect, it is possible to prevent the device resetting assisting unit from being interfered by an obstacle and from performing an ineffective operation when the communication device is reset to the set position.

The system further comprises a manager interaction unit, wherein the manager interaction unit is connected with the control unit; the manager interaction unit is used for the manager to actively manage and can select a touch screen.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (8)

1. The communication equipment fault monitoring system for the design unit is characterized by comprising a collision detection unit, an equipment position acquisition unit, an equipment running state detection unit, an equipment electrifying detection unit, an image data calling unit, an equipment damage analysis and judgment unit and a control unit; the control unit is respectively connected with the collision detection unit, the equipment position acquisition unit, the equipment running state detection unit, the equipment electrifying detection unit, the image data retrieval unit and the equipment damage analysis and judgment unit;

the collision detection unit is used for detecting whether the communication equipment collides;

the equipment position acquisition unit is used for acquiring real-time position data of the communication equipment which is collided and judging whether the real-time position data is abnormal or not;

the equipment running state detection unit is used for detecting whether the running state of the communication equipment is abnormal or not;

the equipment power-on detection unit is used for detecting whether power-on fault abnormality occurs to the communication equipment;

the image data calling unit is used for calling real-time image data of the communication equipment;

the equipment damage analysis and judgment unit is used for analyzing and judging whether the communication equipment has deformation damage abnormity according to the real-time image data of the communication equipment.

2. The communication equipment failure monitoring system for a design unit according to claim 1, wherein the control unit controls the working state of the collision detection unit to be normally open, and controls the working states of the equipment position acquisition unit, the equipment operating state detection unit, the equipment energization detection unit, the image data retrieval unit, and the equipment breakage analysis determination unit to be normally closed;

when the collision detection unit detects that the communication equipment collides, the control unit controls the equipment position acquisition unit to be started;

when the equipment position acquisition unit judges that the real-time position data is abnormal, the control unit controls the equipment running state detection unit to be started;

when the device running state detection unit detects that the running state of the communication device is abnormal, the control unit controls the device power-on detection unit to be started;

when the equipment power-on detection unit detects that the communication equipment has no power-on fault abnormality, the control unit controls the image data calling unit and the equipment damage analysis and judgment unit to be started.

3. The communication equipment failure monitoring system for a design entity of claim 2, further comprising an equipment reset assist unit;

the control unit is connected with the equipment resetting auxiliary unit;

the device reset assisting unit is used for resetting the communication device to a set position.

4. The communication equipment failure monitoring system for a design unit according to claim 3, wherein the control unit controls the operating state of the equipment reset assisting unit to be normally closed;

when the equipment damage analyzing and judging unit analyzes and judges that the communication equipment is not deformed and damaged according to the real-time image data of the communication equipment, the control unit controls the equipment reset auxiliary unit to be started.

5. The communication equipment failure monitoring system for a design unit according to claim 4, further comprising a displacement distance detection unit connected to the control unit;

the displacement distance detection unit is used for judging whether the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit.

6. The communication equipment failure monitoring system for a design unit according to claim 5, wherein the control unit controls the operating state of the displacement distance detection unit to be normally closed;

when the equipment damage analyzing and judging unit analyzes and judges that the communication equipment is not deformed and damaged according to the real-time image data of the communication equipment, the control unit controls the displacement distance detection unit to be started;

when the displacement distance detection unit judges that the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit, the control unit controls the equipment reset auxiliary unit to be started.

7. The communication equipment failure monitoring system for a design unit according to claim 4, further comprising a reset failure detection unit connected to the control unit;

the reset obstacle detection unit is used for detecting whether an obstacle exists on a path of the communication equipment reset to a set position by the equipment reset auxiliary unit;

the control unit controls the reset obstacle detection unit to be normally closed;

when the displacement distance detection unit judges that the offset distance of the real-time position data of the communication equipment relative to the set position is within the reset range of the equipment reset auxiliary unit, the control unit controls the reset obstacle detection unit to be started;

when the reset obstacle detection unit detects that no obstacle exists on a path of the communication equipment reset to the set position by the equipment reset auxiliary unit, the control unit controls the equipment reset auxiliary unit to be started.

8. The communication equipment fault monitoring system for a design entity of claim 7, further comprising a manager interaction unit, the manager interaction unit being connected with the control unit;

and the manager interaction unit is used for the manager to actively manage.

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