TW200922201A - Monitoring system of server cabinet and over-temperature monitoring device thereof - Google Patents

Abstract

Disclosed are a monitoring system of a server cabinet and an over-temperature monitoring device thereof. Inside the server cabinet that has at least one master heat dissipation fan set, an over-temperature monitoring device is deployed, and the over-temperature monitoring device is built with a temperature monitoring program which is set to compare the temperature inside the server cabinet with the master fan activating temperature and a preset warming temperature. When the temperature inside the cabinet is higher than the master fan activating temperature, the system drives the master heat dissipation fan set to dissipate heat therein and to cool down the temperature; when the temperature inside the cabinet is higher than the preset warming temperature, the system sends out a warming signal to the monitoring host to notify personnel in charge. This invention therefore is able to prevent the personnel from working overtime and overloaded by having the temperature monitoring device to automatically monitor the temperature inside the server cabinet; furthermore, the temperature inside the server cabinet can be precisely detected and reacted upon quickly; consequently, the server is able to be kept from malfunction or breakdown caused by over-temperature.

Description

200922201 IX, invention description: [Technical field of invention] # The invention relates to a feeding machine cabinet monitoring system and its over-temperature monitoring, which can automatically control the cabinet temperature and remote monitoring temperature to make To the server cabinet monitoring system for effective computer room security management and its over-temperature monitoring device. [Prior Art] With the development of computer technology, the server market is also like a personal computer city: Yi: The day is also huge. The biggest feature of the server is that its powerful computing power, but the more powerful the computing power, the larger the volume is, and the product has to be placed in a large space, so if a company must use multiple servers, It would be a challenge for the server kings of these servers, as well as the space planning for placing these feeders. To this end, some manufacturers have designed a chip server, such as the most popular blade server (B丨ade Server) in recent years, which can densely insert multiple feeding machines in a single-server cabinet. Each feeding device is operated independently, so the manager can quickly add or remove the server without affecting the operation of other servers, thereby greatly reducing the cost of managing and setting up the storage space of the server. However, due to the large computing power of the server, the heat generated during operation is relatively higher than that of a typical personal computer. Moreover, in a server cabinet, multiple servers are often densely packed. In this way, the heat generated by all the servers will accumulate in the server cabinet, making the inside of the 200922201 server cabinet a closed high temperature state. If it is long, the surface will affect the performance of the server. Damaged. To this end, some manufacturers will install a cooling fan on the server cabinet to reduce the breadth of the server cabinet by turning on the cooling fan for a long time. However, if the cooling fan is turned on for a long time, it will not only consume power, but if the cooling fan is removed, If it is not detected by the administrator, it may still cause damage to the server. Therefore, there is still room for further improvement in temperature management of the server cabinet. [Invention] Therefore, the main object of the present invention is to provide a (four) device pivot that can automatically manage and control the temperature of the cabinet to achieve the most effective mechanical monitoring system and its over-temperature monitoring and control room. The main technical means adopted is that the above-mentioned feeding and benefit cabinet monitoring system includes: & At least - the server mechanism includes a cabinet and a main cooling fan, and an over-temperature monitoring device is provided at the least -祠 server cabinet: even: = temperature monitoring device includes - processor, - temperature sensor, transport; 丨 surface and - memory, 1 main cooling fan system is connected and controlled inside the cabinet to obtain a cabinet :;...: The benefit system is set in the at least - the server transmits the π & π & sub-connection the processing ^ the temperature inside the cabinet is =:, and the connection interface is connected to the processor, and the record The shoulder is connected to the money processor, and has a built-in main fan temperature value, a 200922201 warning temperature value, and a strict sound, ai phoenix I test program, wherein the temperature monitoring is performed by the processor to compare And the temperature inside the substitution Start the main fan temperature value and the temperature in the far cabinet, and know the A, m and resistance # 3 s σ σ temperature value, if the temperature inside the cabinet is higher than 誃 start the main fan temperature value, 卽黠 分... X ρ After the main cooling fan group is operated, the temperature in the cabinet is higher than the stop, θ ..., port alarm signal; the degree of the container is sent through the connection interface - the monitoring host is connected through the connection interface When the processor reaches the alarm signal, the supervisor is notified. By using the above-mentioned technical means, the temperature of the over-temperature monitoring device can be planted, so that the monitoring personnel can avoid the time-consuming = two rationale, and can accurately detect the temperature in the cabinet and react quickly to avoid the 5 server. Failed or damaged due to excessive temperature. [Embodiment] 7, a preferred embodiment of the present invention, please refer to the first to third figures including at least one server cabinet (10), at least one over temperature monitoring (2 〇) monitoring host (30 ), a warning light (4 〇), an eight-way transmitter (50), and a three-in-one (IP KVM) switch (6 〇) for Internet Protocol. As far as the y server cabinet (1·0) is concerned, the server cabinet (1 〇) or the plurality of server cabinets (i 〇) (as shown in the figure) can be used according to the user's requirements. As shown, each server cabinet (work 0) includes: - a cabinet (1 1 ), the front side of which is a door panel (丄丄丄, 6 200922201 and δHai body (1 1) for multiple units The server (not shown) is disposed, and a top chamber (1 1 2 ) is formed in the top of the shoulder cabinet (1 1 ); a main heat dissipation group (1 2 ) and a sub-cooling fan group (1) 3), is installed in the chamber (1 1 2); a digital electronic lock (1 1 3) is attached to the door panel (丄χ!); the intake fan group (1 1 4), Provided on the outer side of the door panel (1 1 1 ) for blowing air into the cabinet (1 1 ); and a plurality of digital power strip modules (115) are disposed in the weight (1 1 ), For the plurality of servers to be plugged in. σ. The number of the above-mentioned at least-over-temperature monitoring devices (20) matches the number of the cabinets as 'the number of cabinets (1 0), two to one-by-one. In the server cabinet (1 0 ) Θ 'and The over-temperature monitoring device (2 〇) includes a processor (2 1 ), a temperature sensor (2 2 ), a connection interface (2 a sound device (2 4 ), a disciplinary _ ^ QR, . The hidden body (2 5 ) and a control panel (2 Θ ). The β-month progress is shown in the third figure, the processor (^ connects and controls the main cooling fan group (i 2), the sub-cooling fan and (1), 3), the intake fan, the address (1 1 4), the digital electronic 3), and the digital power strip module (丄丄5) operate. The temperature sensor (2 2 ) is connected The processor (2 is corresponding to the over-temperature monitoring device (2 〇) 'Yu ν z U) is placed in the server cabinet 0) to obtain the temperature inside the cabinet to the cabinet (2 1 The guide is given to the process 200922201. The connection interface (23) is connected in the embodiment, and the connection is made, the state (2 1 ) is connected to the connection. The connection (23) is available and the specification is (10) 5 The sounding device (24) is connected to the surface of the cabinet (11) for operation by the processor: the sounding device (24) to emit a singularity 1) & 24) is a buzzer, in the present embodiment, the -=: (25) is connected to the processor (1)), and the built-in value, -two = value, the secondary fan temperature value, - Warning temperature monitoring program and - Fan shutdown program off:: Fan temperature value, - Temperature value is changed. In this embodiment, the warning temperature cough starts the sub-fan temperature value is 25 degrees Celsius, the money moves the main fan temperature The value is Photo & ^ No value is Celsius 23 " 5 Hai off the secondary fan temperature n / mu fan temperature value is 15 degrees Celsius; the temperature inside the cabinet and the starting main wind H letter 41) Comparison and the bauxite, B Lu 4 incense 4 ~ dish value, 5 Hai start sub-fan temperature value

侑gs σ temperature is higher than the starting main wind H value' to drive the main cooling fan group (the fan-degree temperature is higher than the starting side of the wind to operate with the heat), such as the cabinet fan group (13) and the intake风户Η 4 moving 5 hai sub-cooling and if the temperature inside the cabinet has been high:: 14 丄 operation to dissipate heat; (") send an alarm signal ... degree, that is, through the connection interface, to compare the fan shutdown program The processor (Η) executes 200922201 the temperature inside the cabinet and the temperature of the closed main fan and the value of the closed auxiliary fan. If the temperature in the cabinet is lower than the temperature of the closed sub-fan, the input is turned off. If the temperature of the cooling fan group (1 3 ′′ is lower than the temperature of the main fan, the main cooling fan group (12) is turned off. Please refer to the fifth figure, the temperature monitoring program is included. The following steps: Obtain the temperature inside the cabinet (100), and obtain the temperature inside the cabinet from the temperature sensor (2 2 ); f If the temperature in the cabinet is higher than the temperature of the starting main fan (101), compare the ratio Whether the temperature inside the cabinet is higher than 1 degree Celsius; if not, the cabinet is again obtained. Degree (100), otherwise proceed with the following steps; drive the main cooling fan group (1 02); compare the temperature inside the cabinet is higher than the starting sub-fan temperature value (彳〇3), is higher than the temperature inside the cabinet At 25 degrees Celsius; if not, the cabinet temperature (100) is obtained again, otherwise the following steps are continued; the sub-cooling fan group (104) is driven; the intake fan group (105) is driven; whether the temperature inside the cabinet is high The warning temperature value (彳〇6) is higher than the temperature in the cabinet is higher than 30 degrees Celsius; if no, the cabinet temperature (1 〇〇) is obtained again, otherwise the following steps are continued; an alarm signal is issued. (1 07), through the connection interface (2 3), an alarm signal is sent to the 200922201 and the sounding device (2 4) is driven to emit a warning sound. Please further refer to the sixth figure, the fan shutdown program includes the following Step: Obtain the temperature inside the cabinet (200); a. Is the temperature in the cabinet lower than the temperature of the closed sub-fan (2〇1), whether the temperature in the cabinet is lower than 23.5 degrees Celsius; if not, it is obtained again. The temperature inside the cabinet (200), and vice versa The following steps: Turn off the sub-cooling fan group (2〇2); Turn off the intake fan group (203); Check if the temperature inside the cabinet is lower than the temperature of the main fan (2〇4), is the temperature in the cabinet? Less than 15 degrees Celsius; if no 'receive the temperature inside the cabinet again (2(10))m Continue to close the main cooling fan set (205). Wang. See the seventh figure, the control panel (2 6) The processing benefit (21) is connected, and corresponding to the top of the front side of the servo state cabinet (1 〇) provided in the over-temperature monitoring device, and the control panel (2) can display the temperature inside the cabinet for monitoring personnel Directly view the cabinet internal temperature = sub-measurement for the monitoring personnel to adjust the memory (2 5) memory of the main fan temperature value, start the sub-fan temperature value, warning temperature value, turn off the two fan temperature value and turn off the main fan temperature value; In this embodiment, the & panel (26) includes: - a temperature display (1) " for displaying the temperature of the cabinet measured by the temperature sensor (2 10 200922201 2), so that the user does not need to Open the door panel (1 1 1 ) to know the temperature inside the cabinet. The brewing warning light group includes the _th, second and third warning light numbers ^ 62a) ( 2 6 2 b) ( 2 6 2 c), when the temperature inside the cabinet is high:: when the main fan temperature value is moved The processor (2 1 ) is configured to drive the first port lamp 2 (2 6 2 a) to light up; when the temperature in the cabinet is higher than the starting sub fan temperature value, the processor (2 1 ) is The second warning light (2 6 2 b) is driven to light; when the temperature inside the cabinet is higher than the warning temperature, it is in the range of °. (2 1) driving the third warning light number) Yuan Yi button group, which includes an up button (2 6 3 a ), a down button (2 6 3 b), a setting button (2 6 3 c), and a storage button (2 6 3 d), wherein the up button (2 6 c 9 R 0 a) and the down button Q 2 6 3 b) are for the monitoring personnel to adjust the control options and tables > (263.) is for confirmation setting, and the remaining button 2 6 3 d) is used for storage setting. The monitoring host (30) is connected to the processor through the connection interface (connected to the processor (When receiving the alarm letter 2 3), and the user is in the control unit; in the embodiment, the monitoring host (3 〇) ^ ^ 1糸 is a computer, the computer can be directly connected to the connection interface ( ζ 3 ) via the RJ45 cable or through the Internet and the connection interface (2 3 ). 〇) and the monitoring host (3 〇) is divided into different locations, the hot cabinet (1 〇) and the monitoring host (3 〇) _ & eve, the prostitute temperature monitoring device (20) It can be connected to the monitoring host (3 Ω Λ ° υ ); and 11 200922201 The monitoring host (30) has built-in monitoring mobile phone number, and has the function of sending e-mail, ^^^^^^^^^^ When receiving the alarm signal from the over-temperature monitoring device (2〇) x dish control host (3, that is, sending an email to the monitoring personnel, the system of the feeding device (U) is abnormal; what is the middle of the message) Can be further built-in user interface, :::: (3 set (20) processing, (21) to obtain each machine (1 〇 warm The degree shows that 'the monitoring personnel can use the user's eight-feeder cabinet (i 〇) χ ^ surface to know that the control personnel operate to adjust each over-temperature monitoring device (" face for the melon to make clothes IV ζ ◦ The various temperature values built into the medium and the operation of the user interface through the processor of the over-temperature monitoring device (2〇) (丄i 3) ) : Whether the power is supplied by the plug-in module (115). The above-mentioned warning light (4 0 ) of the digital power supply is connected to the processor (2 i ) and # : the: outside the server cabinet (10), when the processing (21) transmits the signal to the monitoring host (3 〇) = at the same time, the warning light (4 〇) is illuminated together to warn the monitoring personnel that there is a server cabinet ( 1 〇) The temperature inside the cabinet is too high. ^ The above-mentioned SMS sender (5 0) is connected to the monitoring host (3 〇), and the field monitoring host (3 〇) is received by the over-temperature monitoring device (2 〇). When the alarm signal is sent, the SMS is sent to the monitoring personnel through the SMS sender (5 〇), and the message is included in the newsletter. The server cabinet is abnormal. 12 200922201 The above 丨p KVM switch (60) is connected to the monitoring host (30) for monitoring personnel to connect to the monitoring host (3 0) by using a personal computer (70). The user interface can be viewed and operated. As can be seen from the above, the present invention can instantly grasp the operating temperature changes of each server cabinet, and control the fan groups to be turned on or off according to the temperature inside the cabinet of each server cabinet, if any server If the temperature inside the cabinet is too high, the present invention has an alarm function, which can promptly notify the monitoring personnel through sounds, warning lights, emails or newsletters, so that the monitoring personnel can be rushed to the site to eliminate the temperature in the shortest time. The problem is too high, so as to reduce the damage of the server. In addition, the present invention can also provide the monitoring personnel to set the monitoring temperature next to the server cabinet, or adjust the monitoring temperature through the user interface of the monitoring host, and further increase the monitoring personnel. Manage the convenience of each server cabinet. The invention has been disclosed in the foregoing embodiments, but is not limited to the contents mentioned in the above-mentioned embodiments, and any changes and modifications may be made without departing from the spirit and scope of the invention. The scope of protection of the present invention.

The invention has been significantly improved, and meets the patent requirements of the invention. X [Brief Description of the Drawings] FIG. 1 is a schematic view of a server cabinet in accordance with a preferred embodiment of the present invention. FIG. 1 is a partial exploded view of a server cabinet in accordance with a preferred embodiment of the present invention. Figure. Third Figure: is a functional block diagram of a preferred embodiment of the present invention. 13 200922201 AND - OVER-TEMPERATURE MONITORING DEVICE A control panel for a fan shutdown program of a temperature monitoring program. FIG. 4 is a functional block diagram of the present invention - a preferred embodiment. Fig. 5 is a flow chart showing a preferred embodiment of the present invention. Figure 6 is a flow chart of a preferred embodiment of the present invention. Figure 7 is a view of the present invention - a preferred embodiment. [Main component symbol description] (1 〇) Server cabinet (1 1 ) Cabinet (1 1 1) Door panel (112) Room (1 1 3) Digital electronic lock (1 1 4) Intake fan group (1 1 5) Digital power strip module (1 2 ) Main cooling fan group (1 3 ) Sub cooling fan group (20) Over temperature monitoring device (2 1 ) Processor (2 2 ) Temperature sensor (2 3 ) Connection interface (2 4 ) Sounding device. 14 200922201 (2 5 ) Memory (2 6 ) Control panel (2 6 1 ) Temperature display (2 6 2a) First warning light (2 6 2 b) Second warning Light (2 6 2 c) Third warning light (263a) Up button (263b) Down button (2 6 3 c) Set button (2 6 3 d) Save button (3 0 ) Monitor host (4 0 ) Warning Light (5 0) SMS Transmitter (60) Applicable to Internet Protocol 3C Switch (7 0) PC 15

Claims (1)

200922201 Patent application scope: Main cooling fan 1. The server cabinet monitoring system includes at least a server cabinet, which includes a cabinet and a container control i, which is provided for the at least server. The cabinet:, and each of the over-temperature monitoring devices includes a processor, a temperature sensor, a connection interface, and a memory, wherein the processor is connected to and controls the cooling fan group, and the temperature sensor system Provided in the at least the server machine to obtain the temperature inside the cabinet, and connected to the processor to transmit the temperature inside the cabinet to the judgment, and the connection interface (4) is connected to the processor... the built-in main fan is started Temperature I: Lukou temperature value as well as a temperature 廑 丨 丨 度 度 度 度 度 度 度 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中If the temperature in the cabinet is higher than the temperature of the starting fan, the main cooling fan group is driven to disperse, for example, the temperature in the cabinet is higher than the invitation A, ra, and alarm signals; Value 'that is through the company Interface issuing a - time monitoring host 'interface connector system where the alarm signal is received via the connection, i.e., to inform monitoring staff.妾2, such as the scope of patent application] The server cabinet monitoring system μ / dish degree w test program includes the following steps: Obtain the temperature inside the cabinet 'From the temperature sense, the temperature inside the plant is higher than the starter If the fan temperature value is within the pivot, the degree of the container, if not, the temperature inside the cabinet is obtained again. Otherwise, the following steps are continued: 16200922201 to drive the main cooling fan group; whether the temperature in the cabinet is higher than the warning temperature; if not, Then, if the counter is obtained again, the following steps are continued to issue an alarm signal, and the transmission guarantee is sent through the connection interface to the monitoring host. ® Alarm 仏 3. If you apply for a patent section, you can use the following: The over-temperature monitoring device is processed by . . . , and its system is further in violation of the right one. Π戸 Π戸 有 有 有 有 有 有 有 有 有 有 有 有 有 有 有 副 副 副 副 副 副 副 副 副The temperature monitoring program selects; 隹__ & wind belongs to the letter "step in the cabinet, the temperature is higher than the starting sub-degree value' to drive the sub-cooling fan group to operate to dissipate heat. The system described in Patent Application No. 3 The monitoring system of the cabinet monitoring system includes the following steps: Obtain the temperature inside the cabinet, you are white, and the temple, from the 6 Xuan, the temperature sensor to obtain the temperature inside the cabinet; :: Whether the temperature inside the cabinet is high Start the main fan temperature value; if no, the cabinet temperature is obtained again, otherwise the following steps are continued to drive the main cooling fan group; :: Is the 9 degree inside the cabinet higher than the starting sub fan temperature value; - the person gets the temperature inside the cabinet, otherwise Continue to make the following dreams. 17 200922201 Drive sub-cooling fan group; Whether the internal temperature of the comparison is higher than the warning temperature value; otherwise, if the temperature inside the cabinet is obtained again, otherwise the following steps are continued to send an alarm signal, which is sent through the connection interface An alarm signal is sent to the monitoring host. D. The server cabinet monitoring system described in item 4 of the patent scope of the application is a server cabinet system that pushes the engine cabinet to improve the air intake fan group. The processor of the temperature monitoring device; and the temperature monitoring program is after driving the auxiliary cooling fan group to start the operation of the intake fan group, and then comparing whether the temperature in the cabinet is higher than the warning temperature value. In the word processor cabinet monitoring system described in the second item of the patent scope, the memory system has a built-in built-in temperature value for turning off the main fan and a fan closing program for the fan to close the system by the processing to compare the cabinet The internal temperature and the closed main fan temperature value are lower than the closing main fan temperature value, that is, the main cooling air is turned off: the internal temperature is 7. As in the patent application scope item 6 In the above, the cooling fan closing program includes the following steps: ° 'Monitoring system to obtain the temperature inside the cabinet; If the temperature in the cabinet is lower than If no, the temperature of the main fan is turned off again. Otherwise, continue with the following steps to turn off the main cooling fan unit. 18 200922201 8 If you apply for a patent ® ς ς τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ τ 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服Turn off the main fan temperature value, turn off the field fan J fan temperature value to s, m value 乂 and - fan shutdown sequence is determined by the process test #耔 /, the fan is off the process K ... D, in comparison to the cabinet The temperature, the closing main fan degree value and the closing side wind M m 5ι, π .degree value, the temperature in the right cabinet is lower than the temperature value of the lifting off the field fan, _ ^ · v: ^, s close the pair The cooling fan group and the intake fan ΜΠ, ±, and further lower than the closing main fan temperature value, that is, the main cooling fan group is turned off. Moreover, the server cabinet monitoring system described in Item 8 of the patent scope of the patent, the first step of the fan closing procedure includes the following steps: obtaining the temperature inside the cabinet; 匕 whether the inside of the cabinet/inside is lower than the closing sub-fan Temperature value; right no, the cabinet temperature is obtained again, otherwise the step is continued; the sub-cooling fan group is turned off; the intake fan group is turned off; the temperature in the comparison cabinet is lower than the main fan temperature value; if not, Then, the temperature in the cabinet is obtained again, and the following steps are performed to close the main cooling fan group. The server cabinet monitoring system according to any one of claims 1 to 9 of the invention, the over temperature monitoring device The system further includes an audible device that is coupled to the processor and exposed to the surface of the cabinet to further drive the utterance 19 200922201 when the processor is to issue an alarm signal. The servo state cabinet monitoring system according to any one of claims 1 to 9, further comprising a factory police light, the warning light is connected to the processor, and Outside the server cabinet, the warning light is illuminated by the processor to send an alarm signal to the monitoring host through the connection interface during the temperature monitoring program. 1 2 · If the patent application scope is 1 The server cabinet monitoring system according to any one of the preceding claims, wherein the over temperature monitoring device further comprises a control panel connected to the processor and disposed at the top of the server cabinet The control panel can display the temperature inside the cabinet for the monitoring personnel to directly view the temperature inside the cabinet, and can be used by the monitoring personnel to adjust the temperature value of the built-in memory. 1 3 · As described in item 12 of the patent application scope The server cabinet monitoring system includes: a temperature display for displaying the i/JKL in the cabinet measured by the temperature sensor, and a temperature warning light group, which includes a plurality of warning lights to correspond to The built-in temperature value of the built-in fe has a temperature warning; the key, and the button includes an up button, a down button, a setting button, and a storage button, wherein the button The button and the down button are used by the supervisor to control the control options and parameters. The set button is used for confirmation setting, and the storage button is used for storage setting. 1 4. If the patent application range is from τ to 9 In the above-mentioned server cabinet monitoring and preparation work, first, the monitoring host is a computer, and has built-in 20 200922201 1 2 e-mail address, and has the function of sending e-mail. , that is, when the alarm signal transmitted by the over-temperature monitoring device is received, that is, the Maoda email is sent to the monitoring personnel. Service: i: · If you apply for the patent of the scope of items 1 to 9 'Cabinet seven: such as: preparation w ^ sender system::,,, 糸 further includes - SMS sender, the SMS 2,: the monitoring host 'and the monitoring host is - computer, it has built in monitoring personnel Cell phone number 'Chen Seven' # $ & Tian. When the container control host receives the alarm signal from the over temperature and sends the message, it sends a message to the monitoring personnel. Service ^:. For the towel, please refer to the scope of items 1 to 9 of the patent scope. The feeding machine Jiezhi cabinet monitoring system is H. It has one built-in: two sides. The user interface is from each over-temperature monitoring machine. (4) The internal temperature is displayed and the user interface is further valued. The green temperature is monitored by the internal temperature of the internal monitoring system. The server cabinet monitoring system described in Item 16 of the patent target is included in the step-by-step (4) Internet communication protocol A switcher, which connects the sigma and the 4^^', for monitoring personnel to use the personal computer to view and operate the user interface. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The lock 'and the front side of each cabinet is a door with two digital power strip modules in the corresponding cabinet ... & The device is plugged in and connected to the corresponding over-temperature monitoring device. 21 200922201 Liyi' and the digital electronic lock is set on the door panel and connected to the processor corresponding to the over-temperature monitoring device; the user of the monitoring host The interface is further operable by the monitoring personnel, and the processor of each over-temperature monitoring device drives the digital electronic locks in each cabinet to unlock and control whether the digital power supply socket modules in each cabinet are powered. 1 9 An over temperature monitoring device for a server cabinet, comprising: a processor for connecting and controlling a main cooling fan group; a temperature sensor for being installed in a server cabinet to obtain a cabinet Intrinsic/visual, sub-connecting the processor to transfer the temperature inside the cabinet to the processing reverse pressing; the side surface is a connection-memory, connecting the processor' and having a built-in temperature value, a padding, , Tian Hao, ν κ J Wang fan... the value of the dish and the - temperature monitoring program, the temperature measurement program in the # is controlled by the treatment of the Boss - plus the benefits of the temperature and The starting main feather, the value of the dish and the temperature inside the cabinet and the enthusiasm value of the apricot 〇 , , , , , , , , , , , , , , , 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 The main cooling fan group operation VIII is driven by 埒舳1, and if the temperature in the cabinet is higher than the warning temperature value, an alarm signal is sent through the connection. Connection 2 0. As described in the scope of claim 19, the servo crying machine over-temperature supervision, the temperature monitoring program includes the following steps. The machine hub uses: the temperature inside the cabinet is obtained from the temperature sensor. The temperature in the cabinet is higher than the temperature of the starting main fan; - 'If not, the internal temperature is obtained again. Otherwise, proceed to the following step 22 200922201; drive the main cooling fan group; compare the temperature inside the cabinet is higher than the warning temperature value; if not 'the temperature inside the cabinet again', then continue the following steps; send an alarm signal, The alarm signal is sent through the connection interface. 2 1 · The over temperature monitoring device for the server cabinet according to the ninth item of the Shenqing patent scope, wherein: the processor is for further connecting and controlling a pair of cooling fan groups; the memory system further has a built-in The startup sub-fan temperature value of the main fan temperature value is started; the temperature monitoring program further drives the sub-cooling fan group to operate to dissipate heat by the temperature in the cabinet being higher than the starting sub-fan temperature value. 2 2 . If the server cabinet is used for the server cabinet according to the scope of claim 2, the temperature monitoring program includes the following steps: obtaining the temperature in the cabinet, from the temperature sensor Obtain the temperature inside the cabinet; compare the temperature in the cabinet is higher than the temperature of the main fan; if the right is not the case, then the temperature inside the cabinet is obtained again, otherwise the dream is continued; the main cooling fan group is driven; Whether the temperature is higher than the temperature of the starting sub-fan; right again, the temperature inside the cabinet is obtained again, otherwise the following sub-cooling fan group is started: 200922201; the internal temperature is higher than the high temperature value; Obtain the temperature inside the cabinet again. Otherwise, continue to perform the following steps to send an alarm signal, and send an alarm letter 2 through the connection interface. For the server cabinet over temperature monitoring device according to the scope of claim 2, the processing The device is further connected to an intake fan group, and the remote temperature monitoring program is connected to the driving sub-cooling fan (4), after further starting the operation of the intake fan group, #比对柜内温It is higher than the value of the invitation only. . σ / 皿, 2 4 · Please refer to the over-temperature monitoring device for the servo armature described in the second paragraph of the patent scope. 'The memory system further ^.. less fighting has the main fan temperature off' and - the fan is off The program 'Λ' in the fan shutdown program is processed by this η. Suppress 'to further compare the temperature inside the cabinet and the temperature of the closed main fan' if the temperature in the cabinet is lower than the main cooling fan group. The fan/capacity value, that is, the main/δ is turned off. The 4 'pocket & device' for the server machine described in the patent scope is included in the following steps: Temperature; Whether the temperature in the cabinet is lower than the temperature of the main fan is turned off; if not, the temperature in the cabinet is obtained again, and vice versa; the main cooling fan group is turned off. 24 200922201 2 6 . If the patent application scope is over temperature monitoring, the memory system is in step::: the value of the service cabinet is used, and the value of the secondary wind is turned off. i turns off the main fan and the fan is off. Executed by the processor, wherein the closing main fan temperature value is lower than the temperature in the cabinet, the degree value, and the temperature of the shutdown sub-fan is lower than the temperature of the shutdown sub-fan, and the temperature in the right cabinet is the air fan group; If the temperature inside the cabinet is lower than the second: the hot fan group and the main cooling fan group. ^ Fan temperature value, that is, 2 7 · The servo over-temperature monitoring device described in item 26 of the patent application scope, 兮涵# ω 1』 is used in the cabinet. The fan closing process includes the following steps: obtaining the temperature inside the cabinet; * comparing whether the temperature in the cabinet is lower than the temperature value of the closing sub-fan; if not, the temperature in the cabinet is obtained again, and if not, the following is continued. Cooling fan group; close the intake fan group; compare the temperature inside the cabinet is lower than the temperature of the main fan; if not, then obtain the temperature inside the cabinet again, otherwise continue to do the following few steps to close the main cooling fan group. 2 8 If the server cabinet uses t ^, .ra p ^ ^ as described in any of the patent scopes i 9 to 27, the dish monitoring device further includes a sounding device. The Haifeng device is connected to the processor and exposed on the surface of the server device. When the processor wants to send an alarm signal, the sounding device emits a warning tone. The over temperature monitoring device for the server cabinet according to any one of the claims 9-9 to 27, further comprising a control panel, the control panel is connected to the processor, and is disposed on the The surface of the server cabinet, and the control panel can display the temperature inside the cabinet, so that the monitoring personnel can directly watch the temperature inside the cabinet, and the monitoring personnel can operate and adjust the temperature value built in the memory. 3 0 · The over temperature monitoring device for the server cabinet according to the ninth item of the patent application scope, the control panel includes: a temperature display for displaying the temperature inside the cabinet measured by the temperature sensor; The temperature warning light group includes a plurality of warning light numbers to display the temperature warning in a segmented manner corresponding to the temperature value built in the body; a button group includes an up button, a down button, a setting button and a storage button The up button and the down button are used by the monitoring personnel to adjust control options and parameters, the set button is for confirming the setting, and the storing button is for storing settings. XI. Schema: as the next page 26