JPS6019010B2 - Automatic power-on control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an automatic power-on control device for an information processing system.

In order to turn on the power to the information processing system, the system operator operates the air conditioner in the room where the information processing system is installed to ensure that the indoor temperature matches the information processing system. After confirming that the temperature is within the specified temperature range, it is necessary to turn on AC power from the separation plate and instruct the information processing system to turn on DC power.

Therefore, there is a drawback that the system operator must perform all of these operations in order to start operating the information processing system. An object of the present invention is to provide an automatic power-on control device that eliminates the above-mentioned drawbacks and safely enables unmanned automatic operation and labor-saving automatic operation of an information processing system.

The automatic power-on instruction device of the present invention includes an automatic power-on permission means for permitting automatic power-on of devices constituting an information processing system, and a device for setting a predetermined system operation start time. a time setting means, a comparison means for comparing a permission instruction signal given from the automatic power-on permission means and a startup instruction signal given from the time setting means when the system operation start time is reached;
a time monitoring means for monitoring the passage of a certain period of time; a means for instructing an air conditioner to turn on the power and operating the time monitoring means in response to a signal given from the comparison means; a distribution board; and an information distribution board. A power-on instruction means for instructing the processing system to turn on the power, and detecting whether the temperature and humidity are within the permissible range based on sensor signals given from the temperature sensor and the humidity sensor, and when the temperature and humidity are within the permissible range. Stopping the time monitoring means and giving a power-on instruction signal to the power-on instruction means, and when the time monitoring means is operating after a certain period of time set in the time monitoring means has elapsed, the time monitoring means is activated. a control means for providing a power-on prohibition signal to the power-on instruction means in response to the applied signal, and further for providing a power-on prohibition signal to the power-on instruction means when an abnormal signal is provided from the outside; and the power-on instruction. It is comprised of a display means for notifying the outside of an abnormality when a power-on prohibition signal is applied to the means, and an alarm means for giving an alarm to the outside in response to the prohibition signal.

Next, the present invention will be explained in detail with reference to the drawings.

FIG. 1 is a block diagram showing the components for automatically powering on the information processing system.

The automatic power-on control device 1 includes an air conditioner 2 for the computer room in which the information processing system is installed, a temperature sensor and humidity sensor 3 inside the computer room, an external alarm 4 installed outside the computer room, and an AC power supply. A power distribution board 5 for supplying DC power to the information processing system, an information processing system power supply control device 6 for supplying DC power to the information processing system, and an information processing system power supply control device 6 for supplying DC power to the information processing system. An automatic power-on/stop mechanism 7 that detects the start of any operation is connected. FIG. 2 is a diagram showing an embodiment of the present invention, and shows the configuration of the automatic power-on control device 1 shown in FIG. 1. As shown in FIG. This embodiment includes a time setting section 8, an automatic power-on permission instruction section 9, and a comparison section 10 that compares the startup instruction signal from the time setting section 8 and the permission instruction signal from the automatic power-on permission instruction section 9. , an air conditioning power supply control unit 11 that controls power-on of the air conditioner to air condition the computer room, and monitors whether the temperature and humidity in the computer room are within the permissible range within a certain period of time. and a control unit 1 that receives output signals from a temperature sensor and a humidity sensor provided in the computer room and detects whether the temperature and humidity in the computer room are within the permissible range or not.
3, a distribution board power-on instruction control unit 14 that activates an instruction signal to the distribution panel for supplying AC power, and an instruction to the information processing system power supply control device 6 to supply DC power to the information processing system. The information processing system power-on instruction control unit 15 sends signals, and when the temperature and humidity inside the computer room do not fall within the allowable range even after a certain period of time, the operator room, maintenance staff room, and security guard outside the computer room It is comprised of an alarm signal generating section 16 for warning a staff room, etc., and a display section 17 for displaying a state when the information processing system is not normally powered on automatically. The control unit 13 and the temperature sensor and humidity sensor 3 are connected through connection terminals A and B, respectively, and the distribution board power-on instruction control unit 14 and the distribution board 5 are connected through connection terminal C, and the information The processing system power-on instruction control section 15 and the information processing system power supply control device 6 are connected via a connection terminal D, the alarm signal generation section 16 and the external alarm 4 are connected via a connection terminal E, and the air conditioner Power-on control unit 11
and the air conditioner 2 are connected via the connection terminal F, and the control unit 1
3 and the automatic power-on/stop mechanism 7 are connected via a connection terminal G.

Next, the operation of one embodiment of the present invention will be explained with reference to FIG.

The information processing system operator presets the system operation start time in the time setting section 8, and sets the permission/disallowance switch of the automatic power-on permission instruction section 9 to the permission side.

When the time set in the time setting section 8 arrives, a power-on instruction signal is sent to the comparison section 10' via the interface signal line 20, and the comparison section 10
The permission signal given from the automatic power-on permission instruction unit 9 via the power-on signal is compared with the power-on signal. In the comparator 10, when the AND of both signals does not hold, the comparator 10
does not send out a signal, but when the AND of the two signals is established, the comparator 10 sends an air conditioner power-on instruction signal to the air conditioner power-on control section 11 via the interface signal line 22.

When the air conditioner mine source input control unit 11 receives the air conditioner power-on instruction signal, it powers on the computer room air conditioner 2 connected via the interface signal line 23 and the connection terminal F, and also turns on the interface. The timer of the time monitoring unit 12 is activated via the system signal line 24. The control unit 13 monitors signals from temperature/humidity sensors in the computer room connected to connection terminals A and B. When the sensor signal detection unit 13 detects a signal sent from an external sensor when the temperature and humidity in the computer room reach predetermined values within the time preset in the time monitoring unit 12, the control unit 13 The timer of the time monitoring unit 12 is stopped via the interface signal line 25, and a distribution board power-on instruction signal is sent to the distribution theft power-on instruction control unit 14 via the interface signal line 26. Then, an information processing system DC power-on instruction signal is sent to the information processing system power-on instruction control section 15 via the interface signal line 27 . When the distribution board power-on instruction control unit 14 receives the distribution board power-on instruction signal, it sends an instruction signal for supplying an AC signal to the distribution board 5 connected via the connection terminal C, and performs information processing. When the system power-on instruction controller 15 receives the DC power-on instruction signal for the information processing system, it sends an instruction signal for supplying a DC signal to the information processing system power control device 6 connected via the connection terminal D.

DC power is sequentially supplied to the central processing unit, control device, input/output devices, etc. (not shown in the figure) of the information processing system under the control of the information processing system power supply control device 6.

When power is supplied to the system, an interrupt is generated to the central processing unit, the system start-up process is executed based on the control information stored in the central processing unit, and the system transitions to normal processing operation. . If the temperature and humidity inside the computer room do not reach the predetermined temperature and humidity within the time set in the time monitoring unit 12, the time monitoring unit 12 communicates with the control unit 13 via the interface signal line 28 the power supply to the distribution board. Sends a power-on prohibition signal to the power-on instruction control unit 14 and the information processing system power-on instruction control unit 15, and sends a computer room abnormality signal to the alarm signal generation unit 16 via the interface signal line 29, Interface signal line 3
0 to display the computer room abnormality on the display unit 17.

When the alarm signal generator 16 receives the computer room abnormality signal, it sends an alarm signal to the external alarm device 4 connected via the connection mode B, and generates an alarm.

In addition, the automatic power immersion stop mechanism 7 connected via the connection terminal G prevents people who use the information processing system, such as system operators and maintenance personnel, from entering the computer room and approaching the information processing system component equipment. Alternatively, when the start of operation of any of the information processing system components is detected, an abnormality signal is sent to the control unit 13. The control unit 13 responds to the abnormal signal from the automatic power on/stop mechanism 7 and turns on the electromagnetic power on instruction unit 1 .
4 and the information processing system power-on instruction control section 15, the timer of the time monitoring section 12 is stopped via the interface signal line 25, and the automatic power-on function is stopped.

As described above, the present invention has the advantage that the information processing system operator does not need to turn on the power of the information processing system when starting the operation of the information processing system, thereby enabling unmanned automatic operation and labor-saving automatic operation of the information processing system. There is.

[Brief explanation of the drawing]

FIG. 1 is a block diagram for explaining one embodiment of the present invention, and FIG. 2 is a block diagram showing one embodiment of the present invention. In the figure, 1... automatic power-on control device, 2...
・...Air conditioner, 3...Temperature, humidity sensor, 4...
...External alarm, 5...Switchboard, 6...
...Information processing system power control device, 7...Automatic power on/stop mechanism, 8...Time setting section, 9.
...Automatic power-on permission instruction section, 10...
Comparison section, 11...Air conditioning mine source injection control section, 12
. . . Time monitoring section, 13 . . . Control section, 14.
...Distribution board power-on instruction control unit, 15...
・Information processing system power-on instruction control unit, 16...
...Alarm signal generation section, 17...Display section, 20-
30...Interface signal line, A to G...
····Connecting terminal. Multi/Figure 2

Claims (1)

[Claims] 1 automatic power-on permission means for permitting devices constituting an information processing system to be automatically turned on; time setting means for setting a predetermined system operation start time; a comparison means for comparing a permission instruction signal given from the input permission means and a startup instruction signal given from the time setting means when the system operation start time is reached; and a time monitoring means for monitoring the passage of a certain period of time; means for instructing the air conditioner to turn on the power and operating the time monitoring means in response to a signal given from the comparison means; and a power-on instruction for instructing the distribution board and the information processing system to turn on the power. detecting whether the temperature and humidity are within a permissible range based on sensor signals given from a temperature sensor and a humidity sensor, and when the temperature and humidity are within the permissible range, stopping the time monitoring means and instructing the power on; A power-on instruction signal is given to the time monitoring means, and when the monitoring means is operating after a certain period of time set in the time monitoring means has elapsed, the power-on instruction means is applied in response to a signal given from the time monitoring means. a control means for applying a power-on prohibition signal to the power-on instruction means and further applying a power-on prohibition signal to the power-on instruction means when an abnormal signal is applied from the outside; An automatic power-on control device comprising: a display means for notifying the outside of an abnormality; and an alarm means for giving an alarm to the outside in response to the prohibition signal.