JP2004252595A - Environmental monitoring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an environmental monitoring device of which the maintenance work is conducted easily with the device housed in a rack. <P>SOLUTION: The environmental monitoring device 10 is housed together with at least one apparatus 110 in the rack 100 having an opening 104, and has an enclosure C, at least one transmission/reception part which receives measurement information on the operating environment of the apparatus 110 which is transmitted from an operating environment measuring device 30 disposed outside the enclosure C, a time information supplying part 20 which is driven with a battery to output time information, and a control unit which generates environment monitoring information including the measurement information and the time information. The environmental monitoring device 10 is constituted such that a part or the whole of the device can be provided near the opening 104 and can be housed therein. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an environment monitoring device suitable for monitoring the operating environment of information devices such as rack-mounted servers and routers housed in a rack.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an environment monitoring device for monitoring an operation environment of an information device has been provided. As an example of this, as disclosed in Japanese Patent Application Laid-Open No. 11-27267, there is one that monitors the communication status of a network.
[0003]
In order to apply such an environment monitoring device to information equipment such as a rack-mount type server or router, as shown in FIG. 5, it is housed in a rack 100 together with these information equipment, and a commercial power supply or an uninterruptible power supply An environment monitoring device that monitors the operating environment of the information device 110 by measuring the power supplied from the (UPS) to each information device and the physical quantity related to the operating environment of the information device 110 such as the temperature or humidity in the rack 100 is provided. Are provided.
[0004]
[Patent Document 1]
JP-A-11-27267
[0005]
[Problems to be solved by the invention]
As an environment monitoring device 10 that monitors the operating environment of a plurality of information devices 110 stored in a rack 100, a configuration as shown in FIG. 6 is considered. This includes a control unit 11, a memory unit 13, a plurality of transmission / reception units 12, 16, 17 connected to a power monitoring device 30, a temperature monitoring device 40, and a humidity monitoring device 50, which are operating environment measurement devices, respectively. , A LAN controller 15 connected to the communication network N, a power supply circuit section 14, and a time information supply section 20. The transmitter, the power monitoring device 30, the temperature monitoring device 40, and the humidity monitoring device 50 receive the information of the power, the temperature, and the humidity by the transmitting and receiving units 12, 16, and 17, and supply the information with the time information. The monitoring information to which the time information output by the unit 20 is added is stored in the memory unit 13. Then, the monitoring information is transmitted to the monitoring terminal 60 connected to the network N by the LAN controller 15, so that the user can know the power, temperature, and humidity measured at a place away from the information device to be monitored.
[0006]
However, as shown in FIG. 5, the environment monitoring device 10 is fixed to the mount frame 103 of the rack 100 by screwing. On the back surface shown in FIG. 7, there are many cables connected to each information device 110 and the environment monitoring device 10 (only a part is shown). Therefore, when a trouble occurs in the environment monitoring device 10, the environment monitoring device 10 needs to be removed from the rack 100 by removing the screws of the mount frame 103 and the cables, and the inside of the housing needs to be repaired. .
[0007]
On the other hand, the time information supply unit 20 that outputs time information needs to operate even when power is not supplied to the environment monitoring device 10. Therefore, the time information supply unit 20 is driven by the battery 20b. Correct time information cannot be supplied. Therefore, it is necessary to replace the battery 20b so that this device outputs accurate time information, and it is necessary to perform maintenance according to the procedure described above.
[0008]
The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an environment monitoring device that facilitates maintenance work in a state where it is housed in a rack.
[0009]
[Means for Solving the Problems]
The invention according to claim 1, wherein the device is stored together with at least one device in a rack having an opening, and the device is transmitted from a housing and an operating environment measuring device disposed outside the housing. At least one transmission / reception unit that receives measurement information of the operating environment of the vehicle, a time information supply unit that outputs time information by driving with a battery, and a control unit that creates environment monitoring information including the measurement information and the time information. The environment monitoring device has a feature that a part or all of the environment monitoring device is provided near the opening and can be stored.
[0010]
Therefore, since the entire environment monitoring device or a part where a trouble is likely to occur can be provided near the opening and housed, the location where maintenance is performed when a problem occurs in the environment monitoring device is located near the opening. Will be located. Therefore, the maintenance worker can easily reach the place to be maintained, and can perform the maintenance work from the opening without being affected by the cables that may hinder the maintenance work in the rack. Therefore, it is possible to provide an environment monitoring device in which maintenance work is easy in a state where the environment monitoring device is stored in the rack.
[0011]
According to a second aspect of the present invention, in the environment monitoring device according to the first aspect, the time information supply unit is provided outside the housing and provided near the opening.
[0012]
Therefore, even if the battery of the time information supply unit is depleted and accurate time information cannot be obtained in a state where the environmental monitoring device is screwed and fixed to the mount frame in the rack, the time information supply unit does not have the correct time information. Since it is taken out and provided near the opening, maintenance work such as battery replacement can be easily performed on the time information supply unit.
[0013]
According to a third aspect of the present invention, in the environmental monitoring device according to the second aspect, the time information supply unit is provided outside the housing via a connector.
[0014]
Therefore, the time information supply unit can be taken out of the rack by removing the connector, and battery replacement can be facilitated. In addition, if a replacement time information supply unit is prepared, the entire time information supply unit can be easily replaced.
[0015]
According to a fourth aspect of the present invention, in the environment monitoring device of the first aspect, the housing is provided with housing fixing means capable of fixing the housing to the inner surface of the rack.
[0016]
Therefore, the entire environment monitoring device can be fixed at an arbitrary position on the inner surface of the rack near the opening. Therefore, even if a trouble occurs in any part of the environment monitoring device, the maintenance worker can easily perform the maintenance work at the place where the maintenance is performed because the environment monitoring device is located near the opening.
[0017]
According to a fifth aspect of the present invention, in the environment monitoring device of the fourth aspect, the housing fixing means uses a permanent magnet.
[0018]
Therefore, the casing fixing means can detachably fix the casing on the inner surface of the rack formed of a magnetic material such as iron.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
Next, an embodiment of the environment monitoring apparatus 10 according to the first to third aspects of the present invention will be described with reference to FIGS. 1, 2, and 5. FIG. This is provided in a rack 100, and includes a housing C, a control unit 11, transmission / reception units 12, 16, 17, a memory unit 13, a power supply circuit 14, a LAN controller 15, a connector 19, An information supply unit 20 is provided.
[0020]
The rack 100 houses equipment such as information equipment 110 such as a rack-mount type server and router, and is formed by processing a magnetic metal plate such as iron as shown in FIG. , A flat door 102 for opening and closing a front opening of the rack body 101 so as to be openable and closable, and a mount frame 103 disposed inside the rack body 101 and fixing an information device 110 and the like. Be composed. The dimensions of this type of rack are specified in EIA (Electronic Industries Association of America) standard (EIA-310-D), JIS standard (JIS C 6010-2), and the like. The standard size is defined as a unit having a height of (.75 inches), one unit (1U) having the standard size, and two units (2U) having a size twice as large as the standard size. Further, as shown in FIG. 2, the rear surface of the rack 100 is not covered with a wall surface and has a rectangular opening 104 so that a maintenance worker can work. Here, in many cases, the depth of the information device 110 is smaller than the depth of the rack 100, and therefore, in the rack 100, the unused space 105 not used by the stored information device 110 is provided in the opening 104 side. Occurs. The maintenance worker can easily perform the maintenance work because the object to be maintained is arranged closer to the opening 104 in the unused space 105 than in the mount frame 103 of the rack 100. It can be carried out. Here, the vicinity means a range where the maintenance worker can easily reach and is not affected by obstacles in the maintenance work such as cables. The opening 104 may be covered with a door, a side plate, or the like except when a maintenance operation is performed.
[0021]
The housing C houses a printed circuit board on which the circuit of the environment monitoring device 10 is mounted, is formed in a substantially rectangular parallelepiped shape having the above-mentioned 1U dimension, and is fixed to the mounting frame 103 of the rack 100 with screws. . On the rear surface of the housing C, a modular connector MP having a plurality of connectors for connecting to devices outside the housing C is provided.
[0022]
The control unit 11 is connected to the transmission / reception units 12, 16, 17, the memory unit 13, the LAN controller 15, and the time information supply unit 20 via the connector 19, and controls the control program stored in the memory unit 13. To perform various processes including generation of a control signal for controlling each unit of the device. In this process, environment monitoring information including measurement information acquired by the transmission / reception units 12, 16, and 17 and time information supplied by the time information supply unit 20 is created at regular intervals, and is transmitted via the LAN controller 15. And transmitting environmental monitoring information to the communication network N.
[0023]
The transmission / reception units 12, 16, and 17 are connected to the control unit 11, and are connected to the power monitoring device 30, the temperature monitoring device 40, and the humidity monitoring device 50, respectively. These devices have a modular jack (not shown), and are provided with a power monitoring device 30, a temperature monitoring device 40, and a humidity monitoring device 50, which are operating environment measuring devices arranged outside the housing C. The space is connected to communication cables 3, 4, and 5 to which a modular plug (not shown) is connected. Then, it receives the power value, temperature, and humidity measurement information transmitted from the power monitoring device 30, the temperature monitoring device 40, and the humidity monitoring device 50, respectively, and outputs the measurement information to the control unit 11. Here, FIG. 1 shows only one transmission / reception unit 12 for measuring a power value, but a plurality of transmission / reception units 12 are provided in the environment monitoring device 10 and a plurality of power monitoring devices are provided in one environment monitoring device 10. 30 can be connected to acquire power monitoring information from each power monitoring device 30. FIG. 2 omits the temperature monitoring device 40 and the humidity monitoring device 50 and shows only the connection of the power monitoring device 30.
[0024]
The memory unit 13 stores programs executed by the control unit 11 and the like, and is connected to the control unit 11. This device has a rewritable nonvolatile memory (such as an EEPROM) and a main memory. The non-volatile memory includes a driver for the control unit 11 to control the LAN controller 15, a TCP (Transmission Control Protocol), an IP (Internet Protocol), a UDP (User Datagram Protocol), an ICMP (Internet Control Message, and a TP). (Simple Mail Transfer Protocol), Telnet, Hypertext Transfer Protocol (HTTP), and a protocol stack in TCP / IP communication such as SNMP (Simple Network Management Protocol). Also, the environment monitoring information created by the control unit 11 is stored so that the measured information is retained even when the environment monitoring device 10 ends abnormally. On the other hand, the above-mentioned programs and the like are loaded into the main memory after the control unit 11 is activated, and are executed by the control unit 11.
[0025]
The power supply circuit section 14 creates an operation power supply from the commercial power supply AC and supplies it to each circuit including the control section 11.
[0026]
The LAN controller 15 is connected to a LAN cable via an RJ-45 modular connector (modular plug and modular jack) (not shown) (not shown), and controls the control unit 11 and devices on the communication network N (a management terminal 60 described later). , Etc.).
[0027]
The connector 19 is a modular jack and is connected to the control unit 11. This is connected to a modular plug 20d provided in the time information supply unit 20, receives time information from the time information supply unit 20, and inputs the time information to the control unit 11.
[0028]
The time information supply unit 20 is provided outside the housing C, and includes a clock 20a, a battery 20b, a communication cable 20c, and a modular plug 20d. The clock 20a is an RTC (Real Time Clock), and is connected to the battery 20b and the communication cable 20c. This is driven by being supplied with electric power by the battery 20b, and outputs time information to the communication cable 20c at regular intervals. As this communication protocol, a general-purpose protocol such as RS232C or a unique protocol may be used. The communication cable 20c has one end connected to the clock 20a and the other end connected to the connector 20d. The connector 20d is a modular plug that fits with the connector 19 provided on the housing C. Therefore, the time information supply unit 20 can transmit the time information to the control unit 11 by fitting the connector 20d to the connector 19.
[0029]
Further, as shown in FIG. 2, the time information supply unit 20 is configured such that a connector 20d is fitted to a connector 19 provided on a modular connector unit MP on the back of the environment monitoring device 10, and the vicinity of the opening 104 is connected by a communication cable 20c. And is arranged and provided in the unused space 105 of the rack 100. That is, a part of the environment monitoring device 10 is provided near the opening 104 so that it can be stored in a rack. For this reason, even if the battery 20b of the time information supply unit 20 is depleted and accurate time information cannot be obtained, the time information supply unit 20 is taken out of the housing C and close to the opening 104 of the rack 100. Since it is provided in the unused space 105, maintenance work such as battery replacement can be easily performed.
[0030]
The power monitoring device 30 includes a power measurement unit that measures power supplied from the commercial power supply AC to the information device 110, an arithmetic processing unit that generates power measurement information based on a measurement result by the power measurement unit, and an arithmetic processing unit. A data transmission / reception unit that transmits the power measurement information generated by the communication unit 3 to the environment monitoring device 10 via the communication cable 3 and receives data from the environment monitoring device 10, and a program for calculation processing executed by the calculation processing unit. It has a memory unit for storing, and an outlet unit for sending a power tap 120 or a power plug of the information device 110 to a commercial power supply AC for wiring. This is controlled by the control unit 11 and transmits power measurement information to the control unit 11 at regular intervals.
[0031]
The temperature monitoring device 40 transmits, to the environment monitoring device 10 via the communication cable 4, a temperature sensor that generates an electric signal according to the detected temperature, and temperature measurement information obtained by signal processing of the electric signal generated from the temperature sensor. A data transmission / reception unit that receives commands and the like transmitted from the environment monitoring device 10. This is controlled by the control unit 11 and transmits temperature measurement information such as the ambient temperature in the rack 100 and the housing temperature of the information device 110 to the control unit 11 at regular intervals.
[0032]
The humidity monitoring device 50 includes a semiconductor-type humidity sensor, a signal processing circuit that converts an analog output of the humidity sensor into a digital signal, and the humidity measurement information converted into a digital signal by the signal processing circuit via the communication cable 5. A data transmitting / receiving unit that transmits commands to the monitoring device 10 and receives commands and the like transmitted from the environment monitoring device 10. This is controlled by the control unit 11 and transmits the humidity measurement information in the rack 100 to the control unit 11 at regular intervals.
[0033]
The management terminal 60 is a general-purpose computer device such as a personal computer connected to the communication network N, and includes an operating system in which the same protocol stack as the control unit 11 of the environment monitoring device 10 is mounted. By executing a program for an operating WEB browser or an SNMP manager, power monitoring information of the power monitoring device 30 connected to the environment monitoring device 10 is obtained via the communication network N, and the operating environment of the information device 110 is remotely monitored. Is what you do.
[0034]
Next, the operation of the first embodiment will be described. First, when the battery 20b of the time information supply unit 20 is not exhausted, the control unit 11 sends the power, temperature, and humidity at regular intervals from the power monitoring device 30, the temperature monitoring device 40, and the humidity monitoring device 50. The measurement information is acquired from the time information supply unit 20 to obtain the time information, the acquired time information and monitoring information having the measurement information are created, and the monitoring information is transmitted to the management terminal 60 connected to the communication network N by the LAN controller 15. Send to Then, the operation status of the devices in the rack 100 can be confirmed by the management terminal 60 at a position away from the devices.
[0035]
Here, when the battery 20b of the time information supply unit 20 is exhausted, the time information supply unit 20 does not output accurate time information. Therefore, the time information included in the monitoring information also has an incorrect value, and the management terminal 60 can know that the battery 20b has been consumed. Therefore, the maintenance worker performs maintenance work through the opening 104 on the rear surface of the rack 100. The time information supply unit 20 is provided outside the housing C of the environment monitoring device 10, and the time information supply unit 20 is opened by the communication cable 20c. Since it is arranged and provided around the unused space 105 in the vicinity, it is possible to easily touch the time information supply unit 20 and work. Here, as maintenance work, the time information supply unit 20 may be taken out of the rack 100 and only the battery 20b inside the housing 20e may be replaced, or the replacement time information supply unit 20 may be prepared in advance. However, the connector 20d of the old time information supply unit 20 can be removed and replaced by fitting the connector 20d of the replacement time information supply unit 20 to the connector 19.
[0036]
As described above, in the first embodiment, since the entire environment monitoring device 10 and a part such as a portion where a trouble easily occurs can be provided near the opening 104 and housed, the environment monitoring device 10 The location where the maintenance is performed when the occurrence of the error occurs is located near the opening 104. Therefore, the maintenance worker can easily reach the location to be maintained, and can perform the maintenance work from the opening 104 without being affected by the cables and the like that hinder the maintenance work in the rack 100. Therefore, it is possible to provide the environment monitoring device 10 in which maintenance work is easy in a state where the environment monitoring device 10 is stored in the rack 100.
[0037]
Further, even if the battery 20b of the time information supply unit 20 is exhausted and accurate time information cannot be obtained in a state where the environment monitoring apparatus 10 is fixed to the mount frame 103 in the rack 100 by screws, the time information supply unit Since 20 is taken out of the housing C and provided near the opening 104, maintenance work such as battery replacement can be easily performed on the time information supply unit 20.
[0038]
Further, the time information supply unit 20 can be taken out of the rack 100 by removing the connector 20d, so that the battery 20b can be easily replaced. If the replacement time information supply unit 20 is prepared, the entire time information supply unit 20 can be easily replaced.
[0039]
(Second embodiment)
Next, an embodiment of the environment monitoring apparatus 10 according to the first, fourth, and fifth aspects of the invention will be described with reference to FIGS. 3, 4, and 6. FIG. This is different from the first embodiment in that the time information supply unit 20 is provided inside the housing C, the size of the housing C, and the housing fixing means 70 on the surface of the housing C. The difference is that a permanent magnet M is provided, and the other configuration is the same as that of the first embodiment.
[0040]
The permanent magnet M has a rectangular plate shape, and is provided near the four corners of the rectangle on the bottom surface of the housing C of the environment monitoring device 10 so as to be substantially point-symmetric with the center of the rectangle. These are fitted into concave portions (magnet holders) provided on the bottom surface of the environment monitoring device 10, the permanent magnet M does not protrude from the bottom surface of the housing C, and the bottom surface and the surface of the permanent magnet M are substantially the same. At the same time, the permanent magnets M are provided in such a direction as to have the same polarity.
[0041]
These permanent magnets M are rare earth magnets and have a residual magnetic flux density of about 1.0T. The area of the permanent magnet M facing the rack 100 is determined in consideration of the weight of the environment monitoring device 10. Here, the facing area may be adjusted in a state in which four permanent magnets M are provided, or four or more of the above-described recesses are provided, and the number of the permanent magnets M provided in the recesses is reduced. May be adjusted. Therefore, these permanent magnets M are detachable from the housing C. The housing C is formed in a rectangular parallelepiped shape smaller than the size of 1U.
[0042]
By doing so, the rack 100 is made of a magnetic metal such as iron, so that the environment monitoring device 10 is not fixed to the mount frame 103 by the attractive force of the permanent magnet M, The inner surface (in this case, the side surface) can be fixed to the unused space 105 near the opening 104 by gluing. In other words, the environment monitoring device 10 is provided with the casing C provided with the casing fixing means 70 capable of fixing the casing C to the inner surface of the rack 100. Here, since the permanent magnet M is used as the housing fixing means 70, the housing C can be fixed so as to be detachable without using a tool such as a screwdriver. Further, since the storage can be performed without using the mount frame 103, the storage space can be effectively used.
[0043]
The normal operation of the second embodiment is the same as that of the first embodiment, and will not be described. In the second embodiment, when a maintenance work is required due to a trouble in the environment monitoring device 10 or the like, the maintenance worker performs the maintenance work from the opening 104 of the rack 100. At this time, since the environment monitoring device 10 is not fixed to the mount frame 103 but is fixed to the unused space 105 near the opening 104 on the inner surface of the rack 100 by the permanent magnet M, the maintenance worker can easily The maintenance work can be performed by touching the environment monitoring device 10.
[0044]
As described above, in the second embodiment, the entire environment monitoring device 10 can be fixed to an arbitrary position on the inner surface of the rack 100 near the opening 104. Therefore, even if a trouble occurs in any part of the environment monitoring device 10, the maintenance worker can easily perform the maintenance work at the place where the maintenance is performed because the environment monitoring device 10 is located near the opening. Further, since the environment monitoring device 10 can be stored in a place other than the mount frame 103, the storage space can be effectively used. Further, the casing fixing means 70 can detachably fix the casing C on the inner surface of the rack 100 formed of a magnetic material such as iron.
[0045]
Here, the case in which the permanent magnet M is provided on the bottom surface of the case C has been described as the case fixing means 70, but the present invention is not limited to this, and any case can be used as long as the case can be fixed to the inner surface of the rack 100. For example, a sheet having an adhesive surface on the bottom surface may be used.
[0046]
In the embodiment, the maintenance worker has been described as working from the opening 104 on the back of the rack 100. However, the present invention is not limited to this, and the unused space 105 exists near the door 102 on the front of the rack 100. Then, the time information supply unit 20 and the environment monitoring device 10 can be provided and used in the unused space 105.
[0047]
Further, here, the time information supply unit 20 is provided near the opening 104 as a part of the environment monitoring device 10 is provided near the opening 104. However, the present invention is not limited to this. Other parts may be provided near the opening 104 so that the memory unit 13 is an external large-capacity auxiliary storage device.
[0048]
In addition, the description has been given of the one having three transmitting / receiving units and the corresponding operating environment measuring device.
[0049]
Also, a case has been described where the information device 110 is housed in the rack 100 together with the environment monitoring device 10, but another device 110 other than the information device 110 may be housed.
[0050]
【The invention's effect】
According to the first aspect of the present invention, the entire environment monitoring device or a part that is likely to cause a trouble, such as a part, can be provided near the opening and housed, so that when a problem occurs in the environment monitoring device, The location where maintenance is performed is located near the opening. Therefore, the maintenance worker can easily reach the place to be maintained, and can perform the maintenance work from the opening without being affected by the cables or the like that hinder the maintenance work in the rack. Therefore, it is possible to provide an environment monitoring device in which maintenance work is easy in a state where the environment monitoring device is stored in the rack.
[0051]
According to the second aspect of the present invention, in addition to the effect of the first aspect, in a state where the environment monitoring device is screwed and fixed to the mount frame in the rack, the battery of the time information supply unit is depleted and accurate time is obtained. Even if information cannot be obtained, the time information supply unit is taken out of the housing and provided near the opening, so that maintenance work such as battery replacement can be easily performed on the time information supply unit. be able to.
[0052]
According to the third aspect of the invention, in addition to the effect of the second aspect, the time information supply unit can be taken out of the rack by removing the connector, and the battery can be easily replaced. In addition, if a replacement time information supply unit is prepared, the entire time information supply unit can be easily replaced.
[0053]
According to the fourth aspect of the present invention, in addition to the effects of the first aspect, the entire environment monitoring device can be fixed at an arbitrary position on the inner surface of the rack near the opening. Therefore, even if a trouble occurs in any part of the environment monitoring device, the maintenance worker can easily perform the maintenance work at the place where the maintenance is performed because the environment monitoring device is located near the opening.
[0054]
According to the fifth aspect of the invention, in addition to the effect of the fourth aspect, the case fixing means can detachably fix the case on the inner surface of the rack formed of a magnetic material such as iron. .
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment.
FIG. 2 is a perspective view showing a state of being assembled into the rack according to the first embodiment, viewed from the rear side of the rack.
FIG. 3 is a bottom view of the second embodiment.
FIG. 4 is a perspective view showing a state of being assembled into a rack according to the second embodiment, viewed from the rear side of the rack.
FIG. 5 is a perspective view of the rack when the conventional environmental monitoring device is stored in the rack, as viewed from the front side of the rack.
FIG. 6 is a block diagram of an environment monitoring device under study based on a conventional example of an environment monitoring device.
FIG. 7 is a perspective view, viewed from the rear side of the rack, showing a state in which the environmental monitoring device is being studied based on a conventional example of an environmental monitoring device, and which is assembled into a rack.
[Explanation of symbols]
100 racks
103 mount frame
104 opening
105 unused space
110 Information equipment (equipment)
10 Environment monitoring device
11 Control part
12, 16, 17 transceiver
13 Memory section
14 Power supply circuit
15 LAN controller
19 Connector
20 Time information supply unit
20b battery
20c communication cable
20d connector
30 Power monitoring device (operating environment measuring device)
40 Temperature monitoring device (operating environment measuring device)
50 Humidity monitoring device (operating environment measuring device)
60 management terminal
70 Housing fixing means
C case
M permanent magnet
N communication network

Claims (5)

The device is housed in a rack having an opening together with at least one device, and receives measurement information of an operating environment of the device transmitted from a housing and an operating environment measuring device arranged outside the housing. An environment monitoring device including at least one transmission / reception unit for performing operation, a time information supply unit that outputs time information by being driven by a battery, and a control unit that creates environment monitoring information including measurement information and time information. An environment monitoring device, wherein a part or the whole is provided near the opening to be housed. The environment monitoring device according to claim 1, wherein the time information supply unit is provided outside the housing and provided near the opening. The environment monitoring device according to claim 2, wherein the time information supply unit is provided outside the housing via a connector. 2. The environment monitoring device according to claim 1, wherein the housing is provided with housing fixing means capable of fixing the housing to the inner surface of the rack. The environment monitoring apparatus according to claim 4, wherein the housing fixing means uses a permanent magnet.

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