SUMMERY OF THE UTILITY MODEL
In view of the above, it is necessary to provide a machine room monitoring system for solving the above-mentioned technical problems.
A machine room monitoring system, the system comprising: the system comprises a track, a monitoring device and an electricity storage device; the power storage device is arranged on the monitoring device, and the monitoring device is connected with the track in a sliding manner;
the track is used for providing a running direction for the monitoring device;
the monitoring device is used for sliding on the track to acquire image information of a machine room;
the power storage device is used for providing electric energy for the monitoring device.
In one embodiment, the monitoring device comprises a camera and a controller connected with the camera; the controller is connected with the track in a sliding mode, and the power storage device is connected with the camera and the controller respectively; the controller slides along the rail and controls the camera to collect image information of the machine room.
In the above embodiment, the monitoring device includes a camera and a controller connected to the camera; the controller with track sliding connection, accumulate device respectively with POE camera with the controller is connected, because the controller can prolong the track and slide, and control the camera is gathered the image information of computer lab can monitor concrete computer lab equipment, can realize carrying out the purpose of all-round control to the control dead angle of computer lab, and then has realized that the computer lab trouble problem can in time be handled, guarantees the safe operation of computer lab.
In one embodiment, the controller is further configured to determine a fault position of the machine room according to the image information, slide to the fault position along the rail, and control the camera to acquire the image information of the fault position.
In one embodiment, the controller and the camera adopt a wireless communication mode.
In one embodiment, the system further comprises a first bracket coupled to the controller; the controller is connected with the track in a sliding mode through the first support.
In one embodiment, the system further comprises a power supply device; the power supply device is used for storing power for the power storage device when the monitoring device moves to the position of the power supply device.
In the above embodiment, the system further comprises a power supply device; the power supply device is used for storing power for the power storage device when the monitoring device moves to the position of the power supply device. The power storage device can be used for storing power, the power storage device can be used for providing electric energy for the monitoring device, the power requirement in the monitoring process of the monitoring device is guaranteed, and the real-time performance of machine room monitoring is guaranteed.
In one embodiment, the power supply device is a POE power over ethernet power supply device, the power storage device is a POE power storage device, and the camera is a POE camera; POE power supply unit pass through the RJ45 interface with the POE camera is connected, the POE camera with POE accumulate the device and connect, POE power supply unit passes through the RJ45 interface with the POE camera to POE accumulate the device and provide the electric energy.
In one embodiment, the system further comprises a second bracket; the power supply device is fixed on the ceiling of the machine room through the second bracket.
In one embodiment, the power supply device is arranged at a corner position of the ceiling of the machine room.
In one of the embodiments, the track is arranged in a ceiling gap of the machine room.
The machine room monitoring system in the embodiment comprises a track, a monitoring device and an electricity storage device; the electricity storage device is installed monitoring device is last, monitoring device with track sliding connection, because supervisory equipment can slide on the track, acquires the image information of computer lab, and on the one hand, the track does monitoring device provides the traffic direction, makes the control can gather at specific scope, and on the other hand, electricity storage device can do monitoring device provides the electric energy, guarantees supervisory equipment's continuous work has realized carrying out the purpose of all-round control to the control dead angle of computer lab, and then has realized that the computer lab trouble problem can in time be handled, guarantees the safe operation of computer lab.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
The technical solution of the present invention will be described in detail with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.
In one embodiment, as shown in fig. 1, fig. 1 provides a schematic diagram of a machine room monitoring system comprising a track 1, a monitoring device 2, and an electricity storage device 3; the power storage device 3 is mounted on the monitoring device 2, and the monitoring device 2 is connected with the track 1 in a sliding manner; the track 1 is used for providing a running direction for the monitoring device 2; the monitoring device 2 is used for sliding on the track 1 to acquire image information of a machine room; the power storage device 3 is used for providing electric energy for the monitoring device.
The track 1 may be disposed on a ceiling of the machine room, for example, the track may be added on the ceiling, and the track 1 may be disposed according to a location of the equipment in the machine room, for example, may also be disposed above an empty space of the equipment corridor, which may meet a requirement that the monitoring device 2 monitors the specific equipment. Track 1 can set up singlely or many according to the actual control demand, and track 1's material can be steel, aluminum product, aluminum alloy etc. only need satisfy the mainframe house and hang the load requirement can, and this embodiment does not do specifically and restricts. The monitoring device 2 is used for monitoring the machine room, acquiring relevant information of machine room equipment in real time, and performing 360-degree rotation monitoring, and can be arranged in a single machine room or in multiple machine rooms. The power storage device 3 may be a storage battery integrated in the monitoring device 2, or may be a device having a power storage function and independent of the monitoring device 2, and may also slide along with the monitoring device 2 to guarantee the power demand of the monitoring device 2 in real time.
Exemplarily, in a machine room monitoring process, the monitoring device 2 monitors the machine room, and after a certain device of the machine room is found to be out of order, for example, a cabinet in the machine room has an indicator that is not lit, the monitoring device 2 can automatically slide to the periphery of the failed cabinet through the rail 1, and then can monitor which device indicator in the cabinet is out of order, and meanwhile, the power storage device 3 provides electric energy for the monitoring device 2 in real time, so that the monitoring device 2 can continuously work.
The machine room monitoring system in the embodiment comprises a track, a monitoring device and an electricity storage device; the electricity storage device is installed monitoring device is last, monitoring device with track sliding connection, because supervisory equipment can slide on the track, acquires the image information of computer lab, and on the one hand, the track does monitoring device provides the traffic direction, makes the control can gather in specific fault location, can reach each position of computer lab, and on the other hand, electricity storage device can for monitoring device provides the electric energy, guarantees supervisory equipment's continuous work has realized carrying out the purpose of all-round control to the control dead angle of computer lab, and then has realized that the trouble problem can in time be handled in the computer lab, guarantees the safe operation of computer lab.
In one embodiment, on the basis of fig. 1, as shown in fig. 2, another schematic diagram of a machine room monitoring system is provided, where the monitoring device 2 includes a camera 20, and a controller 21 connected to the camera 20; the controller 21 is connected with the track 1 in a sliding manner, and the power storage device 3 is respectively connected with the POE camera 20 and the controller 21; the controller 21 slides along the rail and controls the camera 20 to acquire image information of the machine room.
The camera 20 may be an analog camera, a network camera, a POE camera, or the like, and the controller 21 may be an embedded processor, a Central Processing Unit (CPU), a single chip, a digital processor, or the like.
Specifically, when the machine room is monitored, the camera 20 acquires picture information of the machine room, monitors the machine room in real time, and sends the picture information to the monitoring background for a manager of the machine room to watch the picture information in real time. The camera 20 can send image information to the controller 21, the controller 21 analyzes the image information after receiving the image information sent by the camera 20, and then confirms a fault position, and the controller 21 may be that the controller 21 slides along the rail, and since the camera 20 is connected with the controller 21, the camera 20 slides along the rail and controls the camera to collect the image information, or the controller 21 controls the camera 20 to slide along the rail and controls the camera 20 to collect the image information. Optionally, the controller 21 and the camera 20 adopt a wireless communication mode.
Optionally, the controller is further configured to determine a fault position of the machine room according to the image information, slide to the fault position along the rail, and control the camera to acquire the image information of the fault position. Specifically, the track provides a sliding direction for the controller and the camera, and the controller slides to the fault position along the track after judging the fault position of the machine room according to the image information, so that specific detail information of the fault position can be collected.
In the above embodiment, the monitoring device includes a camera and a controller connected to the camera; the controller with track sliding connection, accumulate device respectively with the camera with the controller is connected, because the controller can prolong the track and slide, and control the camera gathers the image information of computer lab can monitor concrete computer lab equipment, can realize carrying out the purpose of all-round control to the control dead angle of computer lab, and then has realized that the computer lab breaks down the problem and can in time handle, guarantees the safe operation of computer lab.
In one embodiment, as shown in fig. 3, the system further comprises a first frame 4 connected to the controller 21, based on the system shown in fig. 2; the controller 21 is slidably connected to the rail 1 through the first bracket 4. The material of the first bracket 4 may be steel, aluminum alloy, etc., and the first bracket 4 may be hung on the track.
Optionally, the track is arranged in the ceiling gap of the machine room, and by arranging the track in the ceiling gap of the machine room, the design requirement of the track groove is easily met for the design of the track, and the normal operation of the track is not influenced even when the machine room is maintained, such as replacement, overhaul and the like of the ceiling of the machine room.
In one embodiment, as shown in fig. 4, on the basis of fig. 3, the system further comprises a power supply device 5; the power supply device 5 is configured to store power for the power storage device 3 when the monitoring device 2 moves to the position of the power supply device 5. The power supply device 5 may include a charging module and a voltage follower circuit, and is configured to store power for the power storage device 3. The power supply device 5 may be provided on the ceiling of the machine room, and may be provided in one or more than one.
Optionally, the system further comprises a second bracket; the power supply device is fixed on the ceiling of the machine room through the second bracket. Alternatively, the power supply devices are arranged at corner positions of the ceiling of the machine room, for example, 4 power supply devices may be arranged at four corner positions of the ceiling of the machine room, respectively, so that the monitoring device can conveniently store power for the power storage device when moving to the position of the power supply device.
In the above embodiment, the system further comprises a power supply device; the power supply device is used for storing power for the power storage device when the monitoring device moves to the position of the power supply device. The power storage device can be used for storing power, the power storage device can be used for providing electric energy for the monitoring device, the power requirement in the monitoring process of the monitoring device is guaranteed, and the real-time performance of machine room monitoring is guaranteed.
In one embodiment, the Power supply device is a Power Over Ethernet (POE) Power supply device, the Power storage device is a POE Power storage device, and the camera is a POE camera; POE power supply unit pass through the RJ45 interface with the POE camera is connected, the POE camera with POE accumulate the device and connect, POE power supply unit passes through the RJ45 interface with the POE camera to POE accumulate the device and provide the electric energy.
The POE is a technology that, without any change to the existing ethernet cat.5 wiring infrastructure, the POE can provide dc power for some IP-based terminals, such as IP phones, wireless lan access points AP, network cameras, and the like, while transmitting data signals. RJ45 is one type of a variety of different connectors, and RJ45 interfaces may be used to connect RJ45 connectors, suitable for networks constructed from twisted pair wires, which are the most common, and are typically provided by ethernet hubs. The RJ45 connector cable can be white orange, white green, blue, white blue, green, white brown and brown, or white green, white orange, blue, white blue, orange, white brown and brown, and the cable using RJ45 connector can be a straight cable or an alternate cable.
In the above embodiment, the power supply device is a POE power supply device for power over ethernet, the power storage device is a POE power storage device, and the camera is a POE camera; POE power supply unit pass through the RJ45 interface with the POE camera is connected, the POE camera with POE accumulate the device and connect, POE power supply unit passes through the RJ45 interface with the POE camera to POE accumulate the device and provide the electric energy. Because computer lab monitored control system includes POE power supply unit, POE accumulate device, POE camera, can realize except that the power cord, need not other line connection, not only can satisfy the demand at control computer lab dead angle, still greatly made things convenient for orbital slip.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.