CN211293731U - Network security system assisted by intelligent machine - Google Patents

Abstract

The utility model discloses a network safety coefficient through assistance of intelligent machine relates to network safety technical field. The network security system comprises a plurality of cabinets, wherein each cabinet comprises a main box body, each main box body comprises a shell and a cover plate hinged to the shell, and each cover plate can be turned relative to the shell to be opened or closed; the shell is provided with a track, the track comprises a fixed track and a movable extension track, and the movable extension track can extend out relative to the fixed track to connect the tracks of adjacent cabinets so as to realize the communication of a plurality of cabinet tracks; the detection structure is arranged on the track of at least one cabinet, and the walking mechanism drives the detection structure to move on the communicated track so as to detect each cabinet. The utility model discloses a set up the track that can communicate on a plurality of cabinets of computer lab to set up the state of intellectual detection system machine in order to detect a plurality of cabinets on the track, improve computer lab place network system's security performance.

Description

Network security system assisted by intelligent machine

Technical Field

The utility model relates to a network security technical field.

Background

The network security refers to that the hardware, software and data in the system of the network system are protected and are not damaged, changed and leaked due to accidental or malicious reasons, the system continuously, reliably and normally operates, and the network service is not interrupted. For hardware in a network system, hardware devices are usually arranged in communication cabinets in a computer room, and various communication cabinets are mainly used for storing various circuit devices, including electronic components, circuit lines, and the like. It is common to have, for example, a switch cabinet in which the switch is placed, a block chain link point server cabinet in which the block chain mining machine is placed, and a firewall hardware equipment cabinet, a server host cabinet, a traffic signal cabinet, etc.

Once the machine room fails, economic loss is inevitably caused, and data loss is caused. At present, the perfection of a machine room monitoring facility is an important measure for ensuring the safety of hardware, and the machine room monitoring facility can reduce and avoid the occurrence of faults. However, with the expansion of the functions of the communication cabinet, the integrated circuit system and various electronic monitoring devices in the cabinet are numerous, and the occurrence of hardware or software faults is inevitable, so once the electronic devices in the cabinet have faults, the reasons of the accidents need to be checked and solved as soon as possible, and fire accidents may be caused by improper handling of the electronic devices. Currently, fault handling is often performed by a maintainer to the site, and the time required from finding a fault to solving the fault is long, thereby reducing the maintenance efficiency. And if the failure rate is reduced by regularly checking whether the software and the hardware have risks, the workload of daily maintenance operation is larger, and the labor cost is increased.

In the prior art, a structure for realizing cabinet safety detection by utilizing a shooting structure to perform video detection also appears, but a shooting mechanism is usually arranged for one cabinet, when the number of cabinets in a machine room is large, a large number of shooting mechanisms need to be purchased, and the cost is high. Meanwhile, data shot by a plurality of shooting mechanisms often need to be transmitted to the same processor for data processing, and the processor may need to establish information connection with the plurality of shooting mechanisms at the same time, so that on one hand, a higher requirement is put on the processor, and on the other hand, information congestion is easily caused during information transmission, and transmission efficiency is affected. Therefore, in view of the above technical problems, there is a need to provide a new network security system for hardware in a network system to solve the above problems in the prior art.

Disclosure of Invention

The utility model aims at providing a network safety coefficient through intelligent machine assistance, the utility model has the advantages of: the communicated rails are arranged on the multiple cabinets of the machine room, and the intelligent detection machine is arranged on the rails to detect the state of the cabinets, so that the safety performance of a network system where the machine room is located is improved.

In order to achieve the above object, the utility model provides a following technical scheme:

a network security system assisted by an intelligent machine comprises a machine room provided with a machine cabinet;

the equipment cabinet comprises a main box body, a plurality of first connecting rods and a plurality of second connecting rods, wherein the main box body comprises a shell and a cover plate hinged on the shell, a cavity formed by the shell is used for accommodating circuit devices, and the cover plate can be turned over relative to the shell to be opened or closed;

the shell is provided with a track, the track comprises a fixed track and a movable extension track, and the movable extension track can stretch relative to the fixed track to extend or retract the track; when the cover plate is turned over and opened, the movable extension rail is controlled to extend out relative to the fixed rail so as to connect the rails of the adjacent cabinets, so that the plurality of cabinet rails are communicated;

the detection structure is arranged on the track of at least one cabinet, the detection structure is arranged on the track through the traveling mechanism, and the traveling mechanism drives the detection structure to move on the communicated track so as to detect each cabinet.

Further, the detection structure comprises a camera mechanism and a control mechanism;

the camera shooting mechanism is used for shooting an image of the environment where the cabinet is located so as to realize video detection on each cabinet;

the control mechanism is connected with the camera shooting mechanism and the traveling mechanism and is in wireless connection with the remote terminal through the wireless transceiving module.

Further, the camera shooting mechanism comprises a camera and a mechanical arm, one end of the mechanical arm is installed on the walking mechanism, the other end of the mechanical arm is provided with the camera, and the distance between the camera and the walking mechanism is adjusted through the mechanical arm so as to adjust the shooting range of the camera.

Further, the camera shooting mechanism further comprises an infrared imaging device, and the infrared imaging device and the camera are installed on the same side and form images in a double channel mode.

Further, the camera shooting mechanism further comprises a laser which is arranged on the same side with the camera, and the laser is used for assisting in lighting.

Further, the mechanical arm is provided with a sensor assembly and a maintenance assembly, the sensor assembly comprises a temperature sensor, a humidity sensor and/or a smoke sensor, and the maintenance assembly is used for maintaining a fault part.

Further, the cabinets include one or more of a switch cabinet, a block chain node server cabinet, a firewall hardware equipment cabinet, and a server host cabinet.

The utility model discloses owing to adopt above technical scheme, compare with prior art, as the example, have following advantage and positive effect: the communicated rails are arranged on the multiple cabinets of the machine room, and the intelligent detection machine is arranged on the rails to detect the state of the cabinets, so that the safety performance of a network system where the machine room is located is improved.

Drawings

Fig. 1 is a schematic structural diagram of a cabinet provided in an embodiment of the present invention.

Fig. 2 is a schematic structural view of the cabinet shown in fig. 1 after being unfolded.

Fig. 3 is a schematic structural diagram of a track provided in an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a plurality of tracks connected according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a track groove provided in the embodiment of the present invention.

Fig. 6 is an installation schematic diagram of the image pickup mechanism and the traveling mechanism provided by the embodiment of the present invention on the track groove.

Fig. 7 is a schematic diagram of a machine room structure provided with a cabinet positioning wall according to an embodiment of the present invention.

Description of reference numerals:

a cabinet 100;

a main case 110, a housing 111;

a cover plate 120;

the device comprises a rail 130, a fixed rail 131, a movable extension rail 132, a rail groove 133, a main body structure 133-1 and a T-shaped cavity 133-2;

a detection structure 140, a camera 141, a base 142, a mechanical arm 143;

a traveling mechanism 150;

a position acquisition mechanism 170;

a position judgment mechanism 180;

a cabinet traveling mechanism 190;

cabinet positioning wall 200, positioning information 210.

Detailed Description

The network security system assisted by an intelligent machine disclosed by the invention is further described in detail with reference to the attached drawings and specific embodiments. It should be noted that technical features or combinations of technical features described in the following embodiments should not be considered as being isolated, and they may be combined with each other to achieve better technical effects. In the drawings of the embodiments described below, the same reference numerals appearing in the respective drawings denote the same features or components, and may be applied to different embodiments. Thus, once an item is defined in one drawing, it need not be further discussed in subsequent drawings.

It should be noted that the structures, ratios, sizes, etc. shown in the drawings of the present specification are only used for matching with the contents disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, and any modifications of the structures, changes of the ratio relationships, or adjustments of the sizes should fall within the scope that the technical contents disclosed in the present invention can cover without affecting the functions and purposes that the present invention can achieve. The scope of the preferred embodiments of the present invention includes other implementations in which functions may be performed out of the order described or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the embodiments of the present invention.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

Examples

A network security system assisted by an intelligent machine includes a room housing a plurality of cabinets arranged in rows and/or columns in the room. The cabinet can be a switch cabinet, a block chain node server cabinet, a firewall hardware equipment cabinet or a server host cabinet.

Referring to fig. 1, the cabinet includes a main casing 110, and the main casing 110 includes a housing 111 and a cover 120 hinged to the housing 111.

The housing 111 forms a cavity therein for receiving a circuit device. The circuit device may include electronic components and a wiring system. According to the needs, the housing 111 may be provided with a vent, a fan, a cabinet lock, a door handle, a touch panel, and other structures, which belong to the prior art and are not described herein again.

The cover 120 can be turned over with respect to the case 111 to be opened or closed. Referring to fig. 2, a cabinet state when the cover 120 is opened is illustrated. By way of example and not limitation, in the present embodiment, the cover plate 120 is hinged to the bottom plate of the housing 111 through a rotating shaft, and the rotating shaft is connected to a rotating driving motor, and is driven to rotate by the rotating driving motor, so that the cover plate 120 is driven to turn over relative to the housing 111 to open or close.

In this embodiment, the housing 111 is provided with a rail 130. Referring to fig. 3, the track 130 includes a fixed track 131 and a movable extension track 132, and the movable extension track 132 can be extended or retracted relative to the fixed track 131. The connection between the fixed rail 131 and the movable extension rail 132 can be achieved by a nesting structure, such as inserting the movable extension rail 132 into the pipeline of the fixed rail 131 to form an inner rail, and controlling the position of the rail where the movable extension rail 132 extends out of the pipeline to the adjacent cabinet to achieve communication by using a jack as a driving structure when needed. The communication may be contact communication or embedded communication, and is not limited herein.

When the cover 120 is turned open, the movable extension rail 132 may be controlled to extend relative to the fixed rail 131 to connect the rails 130 of adjacent cabinets 100 to communicate with the plurality of cabinet rails 130, as shown in fig. 4.

The detection structure 140 is installed on the rail 130 of at least one cabinet 100 of the plurality of cabinets, the detection structure 140 is installed on the rail through a traveling mechanism, and the traveling mechanism drives the detection structure to move on the communicated rail 130 so as to detect each cabinet.

Preferably, the detection structure 140 can also rotate relative to the track 130. After the detection structure 140 is activated, the relative position with respect to the housing 111 can be adjusted by rotating, for example, the detection structure 140 can rotate downward relative to the rail 130 into the housing 111 to detect the inside of the cabinet, or rotate upward relative to the rail 130 under the driving of the rotation driving structure to protrude from the housing 111 to detect the outside of the cabinet. The rotation driving structure preferably adopts a micro motor.

In this embodiment, the detection structure 140 preferably employs a camera module. Specifically, a camera mechanism and a control mechanism may be included.

Specifically, the traveling mechanism 150 may include a traveling wheel and a driving motor, and the traveling wheel driving motor is connected to the control mechanism through a communication bus. The traveling mechanism 150 can drive the camera shooting mechanism to move on the track 130, and the camera shooting mechanism shoots the environment image of the main box body so as to realize video detection of the main box body. The environment comprises an external environment of the box body and an internal environment of the box body.

By way of example and not limitation, referring to fig. 5, for example, the rail 130 includes a rail groove 133, and the body structure 133-1 of the rail groove 133 forms a groove structure that preferably employs the T-cavity 122. Referring to fig. 6, a protrusion matched with the groove structure is formed at the lower part of the traveling mechanism 150, a traveling wheel is arranged on the bottom surface of the protrusion, the traveling mechanism 150 further includes a driving motor (not shown in the figure), an output shaft of the driving motor is connected with the traveling wheel, and the traveling wheel is driven to rotate by the driving motor so as to drive the traveling mechanism 150 to move in the groove structure, so that the camera mechanism 141 is driven to travel on the track.

The fixed rail 131 and the movable extension rail 132 of the rail 130 are both provided with a rail groove, and when the outer diameters of the fixed rail 131 and the movable extension rail 132 are different, the fixed rail 131 and the movable extension rail can be connected through an inclined surface section and the rail groove is formed in the inclined surface, so that the traveling mechanism can continuously move on the rail groove.

The control mechanism is connected with the camera mechanism 130 and the traveling mechanism 150, and can be wirelessly connected with a remote terminal through a wireless transceiver module.

In this embodiment, the control mechanism may include a controller, a wireless transceiver module, a camera control module, and a walking control module. The wireless transceiving module, the camera shooting control module and the walking control module are respectively connected with the controller, and the controller is connected with the remote terminal through the wireless transceiving module. The camera shooting control module is connected with the camera shooting mechanism 130 and used for adjusting the position and the working state of the camera shooting mechanism 130 according to the control information received by the controller; the walking control module is connected with the walking mechanism 150 and used for controlling the movement of the walking mechanism 150 according to the control information received by the controller.

Specifically, the controller is preferably a PLC, and the wireless transceiver module is preferably a wireless network card. According to the requirement, an upper computer operating software system is further installed in the remote terminal, and wireless data communication and information transmission can be carried out between the remote terminal and the PLC through a wireless network card, for example, remote transmission of video information is carried out. Preferably, the control mechanism may further include a battery, a storage module, a charging module, and the like, the storage module and the charging module are electrically connected and integrated on the controller chip, and the battery is electrically connected to each module. The storage module can be used for storing information of recording, storing, uploading and downloading; the charging module is used for controlling the profit and loss of the electric quantity of the battery and charging management, belongs to the prior art, and is not repeated herein.

With reference to fig. 6, in the present embodiment, preferably, the image capturing mechanism includes a camera and a mechanical arm 143, one end of the mechanical arm 143 is mounted on the traveling mechanism, the other end of the mechanical arm 143 is mounted with the camera, and the distance between the camera and the traveling mechanism is adjusted by the mechanical arm 143 to adjust the shooting range of the camera.

The robot 143 is preferably a 6-degree-of-freedom robot, and may include an arm, an elbow, and a wrist connected in sequence, the camera 141 is fixedly mounted on the wrist, the arm is mounted on the traveling mechanism 150 via the base 142, and the arm and the wrist are connected via the elbow.

It should be noted that the change of the shooting range may also cause a change of the shooting angle. According to the needs, the camera shooting mechanism can also be provided with a plurality of cameras, such as double cameras, so as to realize VR imaging, three-dimensional imaging and the like.

Preferably, the camera mechanism further comprises an infrared imaging device and a laser which are electrically connected. The camera and the infrared imaging device are arranged on the same side and form images in a double channel mode. The laser can assist the illumination for when having needs, can all-weather incessant high definition control, increase monitoring distance, enlarge monitoring range.

In this embodiment, the robot arm 143 may further include a sensor assembly and a maintenance assembly. The sensor assembly includes a temperature sensor, a humidity sensor and/or a smoke sensor for collecting ambient temperature, humidity and/or smoke information.

The maintenance assembly is used for maintaining a fault part. By way of example and not limitation, the service assembly may include a fan and a powered screwdriver. The fan can be started when the temperature is too high so as to accelerate heat dissipation and reduce the temperature; the electric screwdriver can be used for dismounting or mounting the fastener according to requirements.

In another implementation manner of this embodiment, an alarm system may be further disposed on the cabinet. The alarm system is used for generating and outputting early warning information or fault information to the remote terminal.

The security detection method by using the network security system comprises the following steps:

acquiring a safety detection instruction;

after the control cover plate is turned over and opened relative to the shell, the movable extension rails are controlled to extend out relative to the fixed rails so as to be connected with the rails of the adjacent cabinets, so that the plurality of cabinet rails are communicated;

the running mechanism and the detection structure are started, and the running mechanism drives the detection structure to move on the communicated tracks so as to detect the state of each cabinet.

Referring to fig. 7, a cabinet positioning wall 200 may be further disposed corresponding to the cabinet 100, and the cabinet 100 is disposed with a position collecting mechanism 170, a position determining mechanism 180, and a cabinet traveling mechanism 190.

The position collecting mechanism 170 is used to obtain the positioning information 210 on the cabinet positioning wall 200 and transmit the information to the position determining mechanism. In this embodiment, the positioning information 210 on the positioning wall may be one or more of two-dimensional codes, characters, and graphic elements, the positioning information is set on the positioning wall to assist in determining whether the cabinet is dislocated, and the positioning information 210 may also be referred to as positioning auxiliary information. For example, and without limitation, for example, the cabinet No. 1 corresponds to the location point No. 1, and the cabinet No. 2 corresponds to the location point No. 2, when the cabinet No. 1 does not correspond to the location point No. 1, it may be determined that the cabinet No. 1 is not at the designated position, i.e., is misaligned.

In this embodiment, the position collecting mechanism 170 is preferably a camera disposed on the cabinet, and collects image information of the cabinet positioning wall 200 through the camera to obtain positioning information thereon. Namely, images of the positioning points are shot through the camera.

The position judging mechanism 180 is configured to judge whether the cabinet is located at the preset designated position according to the acquired positioning information, and send a restoration instruction to the cabinet traveling mechanism when it is judged that the cabinet is not located at the preset designated position.

In this embodiment, the position determining mechanism 180 may adopt a PLC controller to perform logic processing. According to the image data of the positioning point, the position determining mechanism 180 may compare the acquired positioning point image with the standard image to determine whether the cabinet corresponds to the positioning point. If the cabinet does not correspond to the positioning point, namely the cabinet is determined to be dislocated (not located at the preset designated position), a restoration instruction can be sent out to control the cabinet to reset.

The cabinet traveling mechanism 190 is configured to control the cabinet to move to a preset designated position (i.e., reset) according to the restoration instruction, so that the adjacent cabinets can be conveniently communicated with each other.

In this embodiment, the cabinet traveling mechanism 190 may include a traveling wheel and a driving motor, and the driving motor is connected to the position determining mechanism 180 through communication bus communication and controlled by the position determining mechanism.

So, alright in order to ensure the track of a plurality of cabinets can communicate smoothly when safety inspection to detect the structure and detect a plurality of cabinets.

Other technical features are referred to in the previous embodiments and are not described herein.

In the description above, the disclosure of the present invention is not intended to limit itself to these aspects. Rather, the various components may be selectively and operatively combined in any number within the intended scope of the present disclosure. In addition, terms like "comprising," "including," and "having" should be interpreted as inclusive or open-ended, rather than exclusive or closed-ended, by default, unless explicitly defined to the contrary. All technical, scientific, or other terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs unless defined otherwise. Common terms found in dictionaries should not be interpreted too ideally or too realistically in the context of related art documents unless the present disclosure expressly limits them to that. Any alterations and modifications of the present invention based on the above disclosure will be apparent to those skilled in the art from the present disclosure, and all such modifications and modifications are intended to fall within the scope of the appended claims.

Claims (8)

1. Network security system through intelligent machine assistance, including laying the computer lab of rack, its characterized in that:

the equipment cabinet comprises a main box body, a plurality of first connecting rods and a plurality of second connecting rods, wherein the main box body comprises a shell and a cover plate hinged on the shell, a cavity formed by the shell is used for accommodating circuit devices, and the cover plate can be turned over relative to the shell to be opened or closed;

the shell is provided with a track, the track comprises a fixed track and a movable extension track, and the movable extension track can stretch relative to the fixed track to extend or retract the track; when the cover plate is turned over and opened, the movable extension rail is controlled to extend out relative to the fixed rail so as to connect the rails of the adjacent cabinets, so that the plurality of cabinet rails are communicated;

the detection structure is arranged on the track of at least one cabinet, the detection structure is arranged on the track through the traveling mechanism, and the traveling mechanism drives the detection structure to move on the communicated track so as to detect each cabinet.

2. The network security system of claim 1, wherein: the detection structure comprises a camera shooting mechanism and a control mechanism;

the camera shooting mechanism is used for shooting an image of the environment where the cabinet is located so as to realize video detection on each cabinet;

the control mechanism is connected with the camera shooting mechanism and the traveling mechanism and is in wireless connection with the remote terminal through the wireless transceiving module.

3. The network security system of claim 2, wherein: the camera shooting mechanism comprises a camera and a mechanical arm, one end of the mechanical arm is installed on the walking mechanism, the other end of the mechanical arm is provided with the camera, and the distance between the camera and the walking mechanism is adjusted through the mechanical arm so as to adjust the shooting range of the camera.

4. The network security system of claim 3, wherein: the camera shooting mechanism further comprises an infrared imaging device, and the infrared imaging device and the camera are installed on the same side and form images in a double-channel mode.

5. The network security system of claim 4, wherein: the camera shooting mechanism further comprises a laser which is arranged on the same side with the camera, and the laser is used for assisting in lighting.

6. The network security system of claim 3, wherein: the mechanical arm is provided with a sensor assembly and a maintenance assembly, the sensor assembly comprises a temperature sensor, a humidity sensor and/or a smoke sensor, and the maintenance assembly is used for maintaining a fault part.

7. The network security system of claim 1, wherein: the cabinets include one or more of a switch cabinet, a block-link point server cabinet, a firewall hardware equipment cabinet, and a server host cabinet.

8. The network security system of claim 1, wherein: and the machine cabinet is provided with a machine cabinet travelling mechanism.

Images