CN209748955U - Cabinet and cabinet system - Google Patents

Abstract

the utility model provides a rack and rack system, this rack include the cabinet body, install the occupy-place module at the internal portion of cabinet. The occupation module is used for detecting occupation information of equipment which is put on the shelf to the cabinet and sending the occupation information to the control system connected with the cabinet, and the occupation information is used for indicating the position information of the equipment occupying the cabinet. In this scheme, the occupation module in the rack can detect the occupation information of the equipment of putting up to the rack, after sending this occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to the occupation information to can carry out systematic management to the occupation space in the rack more effectively.

Description

Cabinet and cabinet system

Technical Field

The utility model relates to an equipment management technical field especially relates to a rack and rack system.

background

With the increasing of services, development equipment is increased continuously, and a plurality of devices are erected in one cabinet. As the number of devices continues to increase, the management of devices becomes more and more complex.

In the prior art, when equipment in a cabinet is managed, the slot use condition of the cabinet needs to be checked manually so as to determine which empty slots of the cabinet can be placed by newly erected equipment at a later stage, but the mode needs a large amount of manpower and is low in efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rack and rack system for acquire the occupation information in the rack, manage with the realization more high-efficiently to the occupation space in the rack.

In a first aspect, the present invention provides a cabinet, which comprises a cabinet body and an occupying module installed inside the cabinet body. The occupation module is used for detecting occupation information of equipment which is put on the shelf to the cabinet and sending the occupation information to the control system connected with the cabinet, and the occupation information is used for indicating the position information of the equipment occupying the cabinet. In this scheme, the occupation module in the rack can detect the occupation information of the equipment of putting up to the rack, after sending this occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to the occupation information to can carry out systematic management to the occupation space in the rack more effectively.

In a possible implementation, the above-mentioned placeholder includes a placeholder controller and a camera, and the above-mentioned placeholder is used for detecting the placeholder information of the equipment of putting up to the rack to send the placeholder information to the control system who links to each other with the rack, specifically include: the occupation module detects occupation information of equipment on the shelf to the cabinet through the occupation controller, acquires an identifier of the equipment through the identifier information of the camera scanning equipment, and sends the identifier and the occupation information of the equipment to a control system connected with the cabinet. According to the scheme, the control system can acquire the occupation information corresponding to each piece of equipment, the position of the equipment needing to be searched can be quickly found through the control system, and systematic management can be carried out on the shelving position of each piece of equipment.

In a possible implementation, above-mentioned rack is inside including N trench, and above-mentioned occupy-place module still includes N occupy-place pilot lamp, and an occupy-place pilot lamp is installed in a trench, and an occupy-place pilot lamp is used for instructing whether the trench that this occupy-place pilot lamp corresponds is occupied, and N is the positive integer. In this scheme, use the trench as the unit, divide into N trenches with the space in the rack, equipment that a was put on the shelf occupies one or more trenches to, the pilot lamp that the trench that is occupied corresponds can indicate this trench and already occupied, through the mode of pilot lamp, the occupation condition of the trench that can be more quick in the acquisition rack, so that carry out systematized management.

In a possible implementation manner, the cabinet body may further include a power connection module, where the power connection module is configured to provide power to the equipment erected from the upper rack to the cabinet, acquire power occupation information of the cabinet, and then send the power occupation information to the control system, where the power occupation information is used to indicate a power interface and power consumption of the power connection module used by the equipment erected from the upper rack to the cabinet. In the scheme, the power connection module in the cabinet can detect power occupation information of equipment which is erected to the cabinet, and after the power occupation information is sent to the control system, the control system can determine the power interface and the electric quantity distribution information in the cabinet according to the power occupation information, so that systematic management can be effectively carried out on the power interface and the electric quantity in the cabinet.

In a possible implementation manner, the cabinet further includes a network port module inside the cabinet, and the network port module is configured to provide a network to the equipment mounted to the cabinet, acquire network status information of the equipment, and then send the network status information to the control system. In the scheme, the network port module in the cabinet can detect the network state information of the equipment which is erected to the cabinet, and after the network state information is sent to the control system, the control system can determine the network use condition of the equipment in the cabinet according to the network state information, so that the network of the equipment in the cabinet can be managed systematically more effectively.

In one possible implementation, the network port includes a switch for connecting the network port module to the first network switch or the second network switch. The first network switch and the second network switch are different network switches, and the network port module is connected to one network switch at one moment. According to the scheme, the network port module is switched between the first network switch and the second network switch through the change-over switch, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of equipment in the cabinet can be quickly solved.

in a possible implementation manner, the cabinet outside includes a cabinet indicator light, and the cabinet indicator light is used for indicating that equipment which is put on the shelf and reaches the cabinet fails. And/or a cabinet indicator light to indicate that a failure of equipment racking to the cabinet has been repaired. And/or a cabinet indicator light to indicate that the sought equipment is present in the cabinet. According to the scheme, the cabinet indicator lamp is arranged on the outer side of the cabinet, and some information of equipment on the rack in the cabinet can be quickly acquired through the cabinet indicator lamp.

In a possible implementation manner, the outside of the cabinet may further include cabinet identification information, where the cabinet identification information is used to indicate information of a device that is shelved to the cabinet. The cabinet identification information may be a two-dimensional code, and information of the device in the cabinet may be acquired by scanning the two-dimensional code. Through the scheme, the detailed information of the equipment which is put on the shelf and is arranged in the cabinet can be quickly acquired through the cabinet identification information on the outer side of the cabinet.

in a second aspect, the present invention provides a cabinet system comprising a control system and a cabinet as described in any of the embodiments of the first aspect. The control system is used for receiving and presenting information sent by the cabinet.

In a possible implementation manner, the information sent by the cabinet may be occupancy information, and/or power occupancy information, and/or network status information.

according to the scheme, the control system receives and presents the information sent by the cabinet, and the information of the equipment in each cabinet can be quickly acquired from the control system, so that the systematic management of the equipment in the cabinet is more efficiently realized.

in a third aspect, the present invention provides an occupancy monitoring method, which includes: when the state of M occupancy switches of the cabinet is detected to change, occupancy information is generated. Wherein, including N trench in the rack, install an occupation switch in a trench, whether the state of an occupation switch is used for instructing the trench that this occupation switch corresponds in installs equipment, and occupation information is used for instructing the equipment of putting up to the rack and occupies the positional information of rack, and N is the positive integer, and M is for being not more than the positive integer of N. The occupancy information is then sent to a control system connected to the cabinet. In this scheme, when equipment is put on shelf to the rack, according to the rack space position that equipment occupy, can the corresponding state that changes occupation switch, and generate occupation information, then send occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to occupation information to can carry out systematic management to the occupation space in the rack more effectively.

In a possible implementation manner, the method may further include: and scanning identification information of equipment which is put on the shelf to the cabinet through a camera on the cabinet to acquire an identification of the equipment. The above-mentioned control system to linking to each other with the rack sends occupation information, includes: and sending the identification and the occupation information of the equipment to a control system connected with the cabinet. According to the scheme, the identifier of the equipment and the occupation information corresponding to the equipment are obtained and then are sent to the control system together, so that the occupation information corresponding to each piece of equipment can be obtained through the control information, the position where the equipment to be searched is located can be quickly found through the control system, and systematic management can be carried out on the shelving position of each piece of equipment.

In a possible implementation manner, the occupancy information includes information of slots of the cabinet occupied by the device, that is, the number and the position of the slots of the cabinet occupied by the device. By acquiring the number and the positions of the slot positions occupied by each device in the cabinet, the occupied space in the cabinet can be managed systematically more efficiently.

In a possible implementation manner, the detecting that the states of the M occupancy switches of the cabinet change includes: when equipment of the cabinet is off-shelf, the states of the M occupancy switches of the cabinet are detected to change. Or when the equipment of the cabinet is put on shelf, the states of the M occupancy switches of the cabinet are detected to be changed. In the scheme, when equipment in the cabinet is put on shelf or taken off shelf, the state of the occupying switch can be changed, and the occupying state of the slot position corresponding to the occupying switch is indicated to be changed.

In a fourth aspect, the present invention provides an occupancy monitoring device, the device comprising: an occupation detection unit and an occupation information sending unit. And the occupation detection unit is used for generating occupation information when the states of the M occupation switches of the cabinet are detected to change. Wherein, the inside N trench that includes of rack, install an occupation switch in a trench, whether the state of an occupation switch is used for instructing the trench that this occupation switch corresponds in installs equipment, and occupation information is used for instructing the equipment of putting up to the rack to occupy the positional information of rack, and N is the positive integer, and M is for being not more than the positive integer of N. And the occupation information sending unit is used for sending the occupation information to the control system connected with the cabinet. In this scheme, when equipment is put on shelf to the rack, according to the rack space position that equipment occupy, can the corresponding state that changes occupation switch, and generate occupation information, then send occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to occupation information to can carry out systematic management to the occupation space in the rack more effectively.

In a possible implementation manner, the occupancy monitoring device may further include an equipment identifier obtaining unit, configured to control a camera on the cabinet, and scan identifier information of the equipment mounted to the cabinet through the camera to obtain an identifier of the equipment. The occupancy information sending unit is specifically configured to send the identifier of the device and the occupancy information to a control system connected to the cabinet. According to the scheme, the identifier of the equipment and the occupation information corresponding to the equipment are obtained and then are sent to the control system together, so that the occupation information corresponding to each piece of equipment can be obtained through the control information, the position where the equipment to be searched is located can be quickly found through the control system, and systematic management can be carried out on the shelving position of each piece of equipment.

In a possible implementation manner, the occupancy information includes information of slots of the cabinet occupied by the device, that is, the number and the position of the slots of the cabinet occupied by the device. By acquiring the number and the positions of the slot positions occupied by each device in the cabinet, the occupied space in the cabinet can be managed systematically more efficiently.

In a possible implementation manner, the detecting that the states of the M occupancy switches of the cabinet change includes: when equipment of the cabinet is off-shelf, the states of the M occupancy switches of the cabinet are detected to change. Or when the equipment of the cabinet is put on shelf, the states of the M occupancy switches of the cabinet are detected to be changed. In the scheme, when equipment in the cabinet is put on shelf or taken off shelf, the state of the occupying switch can be changed, and the occupying state of the slot position corresponding to the occupying switch is indicated to be changed.

In a fifth aspect, the present invention provides a network switching method, which includes: and receiving a network switching command sent by the control system, and then controlling a selector switch in the cabinet to switch the connected network switch according to the network switching command. According to the scheme, the connected network switches are switched through the network switching command, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of equipment in the cabinet is quickly solved.

In a possible implementation manner, the network switch includes a first network switch and a second network switch, where the first network switch is a network switch used before switching. The network switch for controlling the switch in the cabinet to switch the connection according to the network switching command may specifically include: and controlling the selector switch to be switched from being connected with the first network switch to being connected with the second network switch according to the network switching command. According to the scheme, by using the two network switches, when a network fault occurs in a first network switch which is connected currently, the change-over switch can be controlled to be quickly switched to a second network switch without the network fault through a network switching command, so that the problem of the network connection fault of equipment in the cabinet can be quickly solved.

in a possible implementation manner, the network switching command is generated when the control system determines that the currently used network switch has a network fault according to the network state information of the cabinet. In the scheme, the control system acquires the network state information of the cabinet, and generates a network switching command when determining that the network switch currently used by the cabinet has a network fault according to the network state information of the cabinet, so that the cabinet switches the connected network switches, and the problem of the network connection fault of equipment in the cabinet can be solved quickly.

In a possible implementation manner, before receiving the network switching command sent by the control system, the method further includes: and reporting the network state information of the cabinet to a control system. By the scheme, the control system can determine the time for generating the network switching command according to the network state information, and timely generate the network switching command when the network switch is required to be switched, so that the problem of network connection faults of equipment in the cabinet is quickly solved.

In a possible implementation manner, after the controlling the switch in the cabinet to switch the connected network switch according to the network switching command, the method further includes: the control lights a cabinet indicator light that indicates that the failure of the rack-to-cabinet equipment has been repaired. Through the scheme, the feedback of the cabinet can be conveniently and quickly realized, and the problem of network faults of the cabinet is determined to be solved by switching the network switch.

In a sixth aspect, the present invention provides a network switching device, which includes a receiving unit and a switching unit. The receiving unit is used for receiving a network switching command sent by the control system. And the switching unit is used for controlling the network switch in the cabinet to switch the connected network switch according to the network switching command. According to the scheme, the connected network switches are switched through the network switching command, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of equipment in the cabinet is quickly solved.

In a possible implementation manner, the network switch includes a first network switch and a second network switch, where the first network switch is a network switch used before switching. The switching unit is specifically configured to control the switch to switch from being connected to the first network switch to being connected to the second network switch according to the network switching command. According to the scheme, by using the two network switches, when a network fault occurs in a first network switch which is connected currently, the change-over switch can be controlled to be quickly switched to a second network switch without the network fault through a network switching command, so that the problem of the network connection fault of equipment in the cabinet can be quickly solved.

In a possible implementation manner, the network switching command is generated when the control system determines that the currently used network switch has a network fault according to the network state information of the cabinet. In the scheme, the control system acquires the network state information of the cabinet, and generates a network switching command when determining that the network switch currently used by the cabinet has a network fault according to the network state information of the cabinet, so that the cabinet switches the connected network switches, and the problem of the network connection fault of equipment in the cabinet can be solved quickly.

in a possible implementation manner, the apparatus may further include a network status information sending unit, configured to report the network status information of the cabinet to the control system. By the scheme, the control system can determine the time for generating the network switching command according to the network state information, and timely generate the network switching command when the network switch is required to be switched, so that the problem of network connection faults of equipment in the cabinet is quickly solved.

In a possible implementation manner, the device may further include an indicator light control unit for controlling to light a cabinet indicator light for indicating that the fault of the rack-to-cabinet equipment has been repaired. Through the scheme, the feedback of the cabinet can be conveniently and quickly realized, and the problem of network faults of the cabinet is determined to be solved by switching the network switch.

Drawings

FIG. 1 is a schematic diagram of a conventional cabinet;

Fig. 2 is a schematic diagram of a rack system architecture provided by the present invention;

Fig. 3 is a schematic view of a cabinet according to the present invention;

Fig. 4 is a schematic structural diagram of an occupancy module provided by the present invention;

Fig. 5 is a schematic structural view of a power connection module provided by the present invention;

Fig. 6 is a schematic flow chart of an occupancy monitoring method provided by the present invention;

Fig. 7 is a schematic flow chart of a network switching method provided by the present invention;

Fig. 8 is a schematic view of an occupancy monitoring device provided by the present invention;

Fig. 9 is a schematic diagram of a network switching apparatus according to the present invention.

Detailed Description

in order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. The particular methods of operation in the method embodiments may also be applied to apparatus embodiments or system embodiments. In the description of the present invention, the term "plurality" means two or more unless otherwise specified.

First, a detailed description will be given of a cabinet in the prior art, which is exemplified by the cabinet shown in fig. 1, and has vibration resistance, impact resistance, corrosion resistance, radiation resistance, and the like. For the internal hardware arrangement of the cabinet, the cabinet includes an electrical connection module and a network port module, the electrical connection module is installed on one side surface inside the cabinet, and is usually an electrical connection socket for providing power to the equipment in the cabinet. Network port modules are mounted on the top or bottom surface within the cabinet, typically an array of network jacks, for providing a network to the equipment within the cabinet.

such conventional cabinets, in use, may have the following problems:

Problem 1 is that it is difficult to clearly acquire the occupation of the space inside the cabinet and to systematically manage the space inside the cabinet.

problem 2, the equipment power cord in the cabinet is messy and difficult to manage.

problem 3, the specific information of the equipment inside the cabinet cannot be known.

Problem 4, when the network failure problem occurs in the cabinet, the cabinet cannot be repaired in time.

To the above problem, the utility model provides a rack system, as shown in FIG. 2, for the utility model provides a pair of rack system. The cabinet system comprises a control system and a cabinet, wherein the control system can be a computer or other control equipment. The control system is used for receiving and presenting information sent by the cabinet, the information sent by the cabinet is used for indicating the information of the equipment in the cabinet, and debugging personnel can realize systematic management on the equipment in the cabinet through the control system.

In a possible implementation manner, the information sent by the cabinet may be occupancy information of the device, and/or power occupancy information, and/or network status information. The occupancy information is indicative of location information occupied by equipment within the enclosure. The power source occupation information is used for indicating a power source interface and power consumption of a power connection module used by equipment which is erected to the cabinet. The network status information is used to indicate whether the cabinet currently has a network failure problem.

Through the cabinet system, the control system receives the information sent by the cabinet and displays the information, so that debugging personnel can more efficiently complete systematic management on the equipment in the cabinet according to the information displayed by the control system. And specific information of equipment in the cabinet can be acquired. The above problems 1, 2, and 3 are solved.

The following description is made specifically for the cabinet in the above-mentioned cabinet system, as shown in fig. 3, for the present invention provides a cabinet, which includes a cabinet body and an occupying module 100 installed inside the cabinet body. The placeholder 100 is configured to detect placeholder information of devices shelved to the cabinet and send the placeholder information to a control system connected to the cabinet. In this scheme, the occupation module in the rack can detect the occupation information of the equipment of putting up to the rack, after sending this occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to the occupation information to can carry out systematic management to the occupation space in the rack more effectively.

In a possible implementation manner, the placeholder 100 is installed on one side of the inside of the cabinet, and the placeholder includes a placeholder controller and a camera, as shown in fig. 4, which is the present invention provides a placeholder schematic diagram, including the placeholder controller 101 and the camera 102. The occupation controller 101 is in a bar shape and is vertically installed in the cabinet, and the occupation module 100 detects occupation information of equipment which is erected to the cabinet through the occupation controller 101. The camera 102 is mounted on a vertical rail, and can move up and down for scanning the identification of the device for obtaining the identification information of the device. The placeholder 100 is specifically configured to: the occupation information of the equipment which is put on the shelf to the cabinet is detected by the occupation controller 101, the identification information of the equipment is scanned by the camera 102 to obtain the identification of the equipment, and the identification and the occupation information of the equipment are sent to the control system connected with the cabinet.

In a possible implementation, above-mentioned rack is inside including a N trench, and a trench refers to the space size of the inside unit of rack, and the volume that specifically occupies of the space size of a unit can be set for according to actual need, the utility model discloses do not do the restriction. Above-mentioned occupy-place module 100 still includes N occupy-place pilot lamp, and an occupy-place pilot lamp is installed in a trench, and an occupy-place pilot lamp is used for instructing whether the trench that this occupy-place pilot lamp corresponds is occupied, and N is the positive integer.

Through above-mentioned placeholder module 100, can acquire the placeholder information that obtains the inside equipment of rack, according to the placeholder information of the inside equipment of rack, can learn the inside space-occupying of rack, and then carry out systematic management to the space in the rack.

In a possible implementation manner, the cabinet shown in fig. 3 may further include an electricity connection module 200, configured to provide power to the equipment erected from the upper rack to the cabinet, acquire power occupation information of the cabinet, and send the power occupation information to the control system, where the power occupation information is used to indicate a power interface and an electricity consumption of the electricity connection module used by the equipment erected from the upper rack to the cabinet. For example, the power connection module 200 may be, for example, a smart socket, and when a device that is mounted to a cabinet accesses the smart socket, the smart socket may provide power for the device, may generate power consumption information of the device, and send the information to the control system, and at the same time, the smart socket may further detect which power interface of the smart socket is occupied by each device, and send the detected information about the power interface of the device to the control system.

In one possible implementation, the power receiving module 200 may be two independent sockets, as shown in fig. 5, and when one device is mounted on the rack, the first socket 201 and the second socket 202 are simultaneously accessed. The first socket 201 is a main socket and supplies power to the device, the second socket 202 is a spare socket, and in a normal situation, the spare socket does not supply power to the device, and when the first socket 201 fails, the second socket 202 is started to supply power to the device.

Through the power connection module 200, the position of the power interface connected to each device in the cabinet can be obtained, and the positions of the devices corresponding to each power line and the connected power interface can be known, so that the power lines of the devices in the cabinet can be managed, and the problem that the power lines are disordered and difficult to manage is solved.

In one possible implementation, the cabinet shown in fig. 3 may further include a network port module 300, which is configured to provide a network to the equipment rack mounted to the cabinet, acquire network status information of the equipment, and then send the network status information to the control system. The network state information of a device may reflect the network usage status of the device, such as whether the device has a network failure, the network speed of the device, the total amount of traffic of the device, and the like. According to the network state information, it may be determined whether the device is still operating, for example, if the total amount of traffic of the device in a period of time is less than a preset traffic threshold, it may be determined that the device is not operating, or it may be referred to as that the device is not needed, and for such a device, it may be selected to be off-rack, so as to save space in the cabinet, and then to be on-rack with other devices.

In a possible implementation manner, the network port module 300 may include a switch, and the network port module 300 may be connected to the first network switch or the second network switch through the switch. The first network switch and the second network switch are different network switches, and the network port module is connected to one network switch at one moment. The network port module 300 may provide a network for devices connected to the network port module 300 after connecting to a network switch. The switch can switch the connection between the first network switch and the second network switch, and can switch when the currently connected network switch has a network fault. According to the scheme, the network port module is switched between the first network switch and the second network switch through the change-over switch, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of equipment in the cabinet can be quickly solved. I.e. this solution can solve the above problem 4.

In a possible implementation manner, the cabinet outside includes the cabinet indicator 400, and the cabinet indicator may be disposed on the top of the cabinet outside (as shown in fig. 3), or may be disposed on the side of the cabinet outside, and the setting position of the cabinet indicator is not limited by the present invention and can be adjusted according to actual needs. The cabinet indicator light is used for indicating that equipment which is put on the shelf and reaches the cabinet fails. And/or a cabinet indicator light to indicate that a failure of equipment racking to the cabinet has been repaired. And/or a cabinet indicator light to indicate that the sought equipment is present in the cabinet. For example, the cabinet indicator light may be a light capable of changing color to indicate different information through different colors, or may be multiple different lights, and one light is responsible for indicating corresponding information.

in a possible implementation manner, the outside of the cabinet may further include cabinet identification information 500 (in fig. 3, the cabinet identification information 500 is taken as a two-dimensional code as an example), where the cabinet identification information is used to indicate information of devices that are shelved to the cabinet and some information of the cabinet.

For example, by scanning the two-dimensional code, the occupied space information and the power interface information in the cabinet, and the device identifier, the device power consumption, the device network usage information, the device location, and the like of each device on the rack in the cabinet can be acquired from a control system connected to the cabinet.

through above-mentioned placeholder module 100, can acquire the equipment placeholder information in the rack, confirm the interior placeholder space distribution information of rack, and then solve above-mentioned problem 1. Through the power connection module 200, the distribution information of the power interface is determined, and the problem 2 is solved. By switching between the first network switch and the second network switch through the switch of the network port module 300, the network port module 300 can be quickly connected to the network switch without network failure, thereby solving the problem 4. Meanwhile, the information sent by the cabinet is received and presented through the control system, and the equipment information in the cabinet can be quickly acquired through the control system or the cabinet indicator lamp 400 and the cabinet identification information 500 on the cabinet.

I.e. solves the above-mentioned problem 3.

The function of the above-mentioned placeholder 100 in the cabinet will be described in detail with reference to fig. 6, that is, the placeholder monitoring method shown in fig. 6 can be applied to the above-mentioned cabinet, and in particular, the placeholder 100 in the above-mentioned cabinet. It should be noted that the method can also be used for other cabinets. The method can solve the above problem 1, and the method includes:

Step 601, when detecting that the states of the M occupancy switches of the cabinet change, generating occupancy information.

Wherein, including N trench in the rack, install an occupation switch in a trench, whether the state of an occupation switch is used for instructing the trench that this occupation switch corresponds in installs equipment, and occupation information is used for instructing the equipment of putting up to the rack and occupies the positional information of rack, and N is the positive integer, and M is for being not more than the positive integer of N.

Step 602, sending occupancy information to a control system connected to the cabinet.

In the above scheme, when equipment is put on shelf to the rack, according to the rack space position that equipment occupy, can the corresponding state that changes the occupation switch, and generate occupation information, then send occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to occupation information to can carry out systematic management to the occupation space in the rack more effectively.

With respect to step 601, in one possible implementation, the state of the occupancy switch is changed by the device through physical contact. Generally, the volume of the equipment rack-mounted to the cabinet is matched to the cabinet, and when the equipment rack-mounted to the cabinet or the equipment rack-mounted from the cabinet is mounted, the occupancy switch is touched, so that the state of the occupancy switch is changed. Of course, cabinets also sometimes require relatively small devices to be on-shelf that cannot change the state of the occupancy switch by physical contact. At this point, a human debugger is required to manually change the state of the occupancy switch.

In one possible implementation, the occupancy information is generated according to the positions and the number of the M occupancy switches that change state. The occupancy information generated according to the number of the occupancy switches is used for representing the number of slots in the cabinet occupied by the equipment, namely the space of the cabinet is occupied, and the size of the equipment can also be represented. The occupancy information generated from the position of the occupancy switch is used to indicate the spatial position occupied by the equipment within the cabinet, i.e., which position the equipment is within the cabinet.

In a possible implementation manner, the method may further include: and scanning identification information of equipment which is put on the shelf to the cabinet through a camera on the cabinet to acquire an identification of the equipment. The step 602 may specifically include: and sending the identification and the occupation information of the equipment to a control system connected with the cabinet. In this implementation, the identification information of the device may be attached to the outer surface of the device in the form of a two-dimensional code, or may be attached to a guide rail for the overhead equipment. The position of the two-dimensional code is determined according to the position of the camera.

before the equipment is put on the shelf to the cabinet, information is required to be recorded in a control system, and the control information generates the equipment identification information according to the recorded information. For example, according to information recorded by the device, a two-dimensional code is generated, the two-dimensional code can indicate information of the device, the two-dimensional code is attached to a position where a camera can scan, after the camera scans the two-dimensional code, an identifier of the device is obtained, and the identifier of the device indicates the device. The identification and placeholder information for the device is then sent to a control system connected to the cabinet. According to the scheme, the identifier of the equipment and the occupation information corresponding to the equipment are obtained and then are sent to the control system together, so that the occupation information corresponding to each piece of equipment can be obtained through the control information, the position where the equipment to be searched is located can be quickly found through the control system, and systematic management can be carried out on the shelving position of each piece of equipment.

According to the occupation monitoring method, when the equipment is erected on the cabinet, the state of the occupation switch can be correspondingly changed according to the space position of the cabinet occupied by the equipment, occupation information is generated, then the occupation information is sent to the control system, and the control system can determine the distribution condition of the occupation space in the cabinet according to the occupation information, so that the occupation space in the cabinet can be more effectively managed in a systematized mode.

The function of the network port module 300 in the above-mentioned cabinet is specifically described with reference to fig. 7, that is, the network switching method shown in fig. 7 can be applied to the above-mentioned cabinet, and specifically, can be applied to the network port module 300 of the above-mentioned cabinet. It should be noted that the method can also be used for other cabinets. This method can solve the above problem 4, and includes:

Step 701, receiving a network switching command sent by a control system.

Step 702, controlling a switch in the cabinet to switch the connected network switch according to the network switching command.

the network switch is a device for providing a network for the cabinet, and when the network switch has a network fault, the cabinet connected with the network switch also has a network fault problem.

According to the scheme, the connected network switches are switched through the network switching command, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of the equipment in the cabinet is quickly solved.

In a possible implementation manner, the network switch includes a first network switch and a second network switch, where the first network switch is a network switch used before switching. The step 702 may specifically include: and controlling the selector switch to be switched from being connected with the first network switch to being connected with the second network switch according to the network switching command.

Specifically, when a first network switch connected to the cabinet currently has a network fault, that is, the cabinet has a network fault problem, the network switch command sent by the control system is received, and at this time, according to the network switch command, the switch control switch is connected to the second network switch, so that the cabinet is connected to the second network switch to realize normal networking, and the network fault problem occurring in the cabinet is solved. And then the first network switch connected with the cabinet before is replaced and repaired. For use in repairing the network in the event of a network failure at the second network switch to which the current enclosure is connected.

In a possible implementation manner, the network switching command is generated when the control system determines that the currently used network switch has a network fault according to the network state information of the cabinet. The equipment cabinet detects the network state information of the equipment cabinet in real time and sends the network state information to the control system, the control system judges whether the equipment cabinet has network faults or not according to the network state information of the equipment cabinet, and after the equipment cabinet is determined to have the network faults, a network switching command is generated and sent. In the scheme, the control system acquires the network state information of the cabinet, and generates a network switching command when determining that the network switch currently used by the cabinet has a network fault according to the network state information of the cabinet, so that the cabinet switches the connected network switches, and the problem of the network connection fault of equipment in the cabinet can be solved quickly.

in a possible implementation manner, after the step 702, the method may further include: the control lights a cabinet indicator light that indicates that the failure of the rack-to-cabinet equipment has been repaired. Through the scheme, the feedback of the cabinet can be conveniently and quickly realized, and the problem of network faults of the cabinet is determined to be solved by switching the network switch. The cabinet indicator light may be, for example, the cabinet indicator light 400 shown in fig. 3.

According to the network switching method, the connected network switches are switched through the network switching command, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of the equipment in the cabinet is quickly solved.

Based on the same concept as the method shown in fig. 6, the present invention further provides an occupancy monitoring device, as shown in fig. 8, the device includes:

And the occupancy detection unit 801 is used for generating occupancy information when detecting that the states of the M occupancy switches of the cabinet change.

And an occupancy information sending unit 802, configured to send occupancy information to a control system connected to the cabinet.

In the above scheme, when equipment is put on shelf to the rack, according to the rack space position that equipment occupy, can the corresponding state that changes the occupation switch, and generate occupation information, then send occupation information to control system, control system can confirm the distribution condition of the occupation space in the rack according to occupation information to can carry out systematic management to the occupation space in the rack more effectively.

In a possible implementation manner, the occupancy monitoring apparatus may further include an equipment identifier obtaining unit 803, configured to control a camera on the cabinet, and scan identification information of the equipment that is shelved to the cabinet through the camera to obtain an identifier of the equipment. The placeholder information sending unit 802 is specifically configured to send the identifier of the device and the placeholder information to the control system connected to the cabinet.

In a possible implementation manner, the occupancy information includes information of slots of the cabinet occupied by the device, that is, the number and the position of the slots of the cabinet occupied by the device.

In a possible implementation manner, the detecting that the states of the M occupancy switches of the cabinet change includes: when equipment of the cabinet is off-shelf, the states of the M occupancy switches of the cabinet are detected to change. Or when the equipment of the cabinet is put on shelf, the states of the M occupancy switches of the cabinet are detected to be changed.

The specific implementation and advantageous effects of the occupancy monitoring device are the same as those described in the occupancy monitoring method shown in fig. 6, and reference may be made to the foregoing description, which is not repeated herein.

Based on the same concept as the method shown in fig. 7, the present invention further provides a network switching apparatus, as shown in fig. 9, the apparatus includes:

A receiving unit 901, configured to receive a network switching command sent by a control system.

The switching unit 902 is configured to control a switch in the cabinet to switch the connected network switch according to the network switching command.

According to the scheme, the connected network switches are switched through the network switching command, and when one network switch has a network fault, the other network switch can be quickly switched to, so that the problem of the network connection fault of the equipment in the cabinet is quickly solved.

In a possible implementation manner, the network switch includes a first network switch and a second network switch, where the first network switch is a network switch used before switching. The switching unit is specifically configured to control the switch to switch from being connected to the first network switch to being connected to the second network switch according to the network switching command.

In a possible implementation manner, the network switching command is generated when the control system determines that the currently used network switch has a network fault according to the network state information of the cabinet.

in a possible implementation manner, the apparatus may further include a network status information sending unit 903, configured to report the network status information of the cabinet to the control system.

in a possible implementation, the apparatus may further include an indicator light control unit 904 for controlling lighting of a cabinet indicator light for indicating that a fault of the rack-to-cabinet equipment has been repaired.

The specific implementation and advantageous effects of the network switching apparatus are the same as those described in the network switching method shown in fig. 7, and reference may be made to the foregoing description, which is not repeated herein.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A cabinet is characterized by comprising a cabinet body and an occupying module arranged in the cabinet body;

The occupancy module is used for detecting occupancy information of equipment which is put on the shelf to the cabinet and sending the occupancy information to a control system connected with the cabinet, and the occupancy information is used for indicating the position information of the cabinet occupied by the equipment.

2. the cabinet of claim 1, wherein the placeholder module comprises a placeholder controller and a camera;

The placeholder module is used for detecting the placeholder information of the equipment of the rack and sending the placeholder information to the control system connected with the rack, and specifically comprises:

The occupation module detects occupation information of equipment which is put on the shelf to the cabinet through the occupation controller, obtains the identification of the equipment through the identification information of the equipment scanned by the camera, and sends the identification of the equipment and the occupation information to a control system connected with the cabinet.

3. The cabinet according to claim 1 or 2, wherein the cabinet body includes N slots, the occupancy module includes N occupancy indicator lamps, one occupancy indicator lamp is installed in one slot, one occupancy indicator lamp is used for indicating whether the slot corresponding to the occupancy indicator lamp is occupied, and N is a positive integer.

4. the cabinet of claim 1 or 2, wherein the cabinet interior further comprises a power-on module;

The power connection module is used for providing power for equipment which is erected on the equipment cabinet, acquiring power occupation information of the equipment cabinet and sending the power occupation information to the control system, and the power occupation information is used for indicating a power interface and power consumption of the power connection module, which are used by the equipment which is erected on the equipment cabinet.

5. The cabinet of claim 1 or 2, wherein the cabinet interior further comprises a network port module;

The network port module is used for providing a network for equipment erected to the cabinet, acquiring network state information of the equipment and sending the network state information to the control system.

6. The cabinet of claim 5, wherein the network port module comprises a diverter switch;

The switch is used for connecting the network port module to the first network switch or the second network switch.

7. The cabinet of claim 1 or 2, wherein an outside of the cabinet comprises a cabinet indicator light;

The cabinet indicator light is used for indicating that equipment which is erected on the cabinet fails; and/or the presence of a gas in the gas,

The cabinet indicator light is used for indicating that the fault of equipment which is lifted to the cabinet is repaired; and/or the presence of a gas in the gas,

the cabinet indicator light is used to indicate that the sought equipment is present in the cabinet.

8. The cabinet of claim 1 or 2, wherein the outside of the cabinet includes cabinet identification information indicating information of equipment racking to the cabinet.

9. The cabinet of claim 8, wherein the cabinet identification information is a two-dimensional code.

10. A cabinet system comprising a control system and a cabinet according to any of claims 1 to 9;

The control system is used for receiving and presenting the information sent by the cabinet.