JPS62293039A - Automatic operating device of data processing air conditioner - Google Patents

Abstract

PURPOSE:To remove the erroneous operation of a data processing device caused by a temperature and to reduce power consumption of the air conditioner by turning on the power supply to the air conditioner at an appropriate time in accordance with the room temperature. CONSTITUTION:A room temperature KA before supplying the power to an air conditioner 2 must become a set temperature KB at a time t2 when the power supply of a data processing device 3 is turned on. A microcomputer 10 obtain a time interval from a value of a temperature difference between KA and KB, and calculates back from the power supply turning on time t2 of the data processing device 3 stored beforehand in a memory 12 to determine the power supply turning on time t1. The microcomputer 10 calculates the power supply turning on times at every measurement based on the temperatures measured by a temperature sensor 13 at a constant interval and periodically, and when the time of a timer 11 assumes the calculated value, a control line 4 is actuated and power supply to the air conditioner 2 is turned on.

Description

[Detailed Description of the Invention] 3. Detailed Description of the Invention [Field of Industrial Application] This invention provides an automatic operation device for an air conditioner for a data processing device;
In particular, the present invention relates to an automatic operation device for an air conditioner for a data processing device that can automatically control the setting of the time to start the air conditioner depending on the temperature of the room in which the data processing device is installed.

[Conventional technology]

In general, data processing devices have a specified operating temperature range, and must be installed in a room equipped with a dedicated air conditioner and used with careful control of the room temperature.

Furthermore, before operating the data processing apparatus, it is necessary to operate the air conditioner to bring the room temperature within the operating temperature range of the data processing apparatus. If this is not done, the operation of the data processing device is not guaranteed and may malfunction. BACKGROUND ART Recently, for the purpose of saving labor, automatic operation devices have been used that automatically turn on and start the power of a data processing device and an air conditioner at respective set times. FIG. 3 is a block diagram of a conventional automatic driving device of this type. In the figure, (C is the automatic operation device, (Collid air conditioner, CJl is the data processing device, (V) is the control line for turning on the power of the air conditioner (2), (5) is the data processing device (3) ), (//) is a timer indicating the time, (2/) is a time setting register for setting the power on time of air conditioner (2), (22) is data processing Device
r,? The time setting register (:13), (Koda) for setting the power-on time of the + is the time setting register (2/
).

This is a time comparison circuit that compares each value of (here) with the value of the timer (//) and outputs a significant signal to each of the control lines (xl and (sl) if they match.

Next, the operation will be explained. First, when the content value of the time setting register (ko/) for the air conditioner and the value of the timer (ll) match, the power to the air conditioner C, 2 is automatically turned on via the control line A (GL), and then When the content value of the time setting register (22) for the data processing device and the value of the timer (//) match, the data processing device is sent to the data processing device via the control line (5). (3)
The power will be turned on automatically.

[Problem that the invention seeks to solve]

In conventional automatic operation devices for air conditioners for data processing equipment, the time interval between the power-on time of the air conditioner and the power-on time of the data processing equipment is fixed, so depending on the room temperature, the power-on time of the data processing equipment may change. There have been problems such as the air conditioner not being able to reach a predetermined set temperature, causing malfunction, or requiring too long a time interval to avoid this, causing the air conditioner to operate unnecessarily.

This invention was made to solve the above-mentioned problems, and it is possible to control the power-on time of the air conditioner according to the room temperature, and set the power-on time of the data processing device reliably and in the shortest possible time. The purpose is to obtain an automatic operation device for an air conditioner for a data processing device.

[Means for solving problems]

The automatic operation device for an air conditioner for a data processing device according to the present invention is based on the output of a temperature sensor that measures the room temperature and a microcomputer that calculates the power-on time interval between the air conditioner and the data processing device. and a means for starting the air conditioner.

[For production]

In this invention, the micro combinator calculates the difference between the temperature measured by the temperature sensor and the predetermined set temperature, and based on the result, sets the room temperature to the predetermined set temperature at the power-on time of the data processing device. In this method, the startup time of the air conditioner at which maximum efficiency can be obtained is calculated and the startup time is determined, so that the power to the air conditioner can be automatically turned on at the optimal time.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. In the figure, (/A) is an automatic driving device, (
10) is a microcomputer, (/Ha is a timer, (
/ko) is a memo that stores information about power-on time, etc.
), (/3”) are temperature sensors that measure room temperature, (/u
) is an A/D conversion circuit for converting the analog output of the temperature sensor (/3) into a digital signal, and (/j) is for turning on the air conditioner (ko) and data processing device (Jl). This is a drive circuit that provides the required output to each of the control lines (GL and LS1).

Next, the operation will be explained. The microcomputer (10) calculates the difference between the temperature measured by the temperature sensor (/3) and the set temperature stored in the memory (/2). Data processing device f(
Calculate the time required to turn on the power of step 3), and further calculate the power-on time of the air conditioner (2) based on the power-on time of the data processing device (J) stored in the memory (/). ,
When that time comes, the control line (ri) for powering on the air conditioner (2) is driven.

This operation will be explained in more detail with reference to FIG.

Figure 2 shows the relationship between temperature and time, t,
2 is the data processing unit! power-on time, and this value is usually fixed. KB is the set temperature of the room where the data processing device (3) is installed;
The set temperature must be reached at the time when the power source 31 is turned on. KA is the temperature before the air conditioner (K) is turned on. The microcomputer (lθ) calculates the time interval T from the temperature difference value of K A - K B, and calculates the time interval T from the power-on time i 2 of the data processing device (3) stored in advance in the memo IJ (/2). Calculate backwards to determine the power-on time 1/ of the air conditioner (k). When the room temperature measured by the temperature sensor (/3) is KA', the power-on time of the air conditioner (K) changes to t,'. air conditioner(
Before turning on the power to the microcomputer (/
θ) calculates the power-on time for each measurement based on the temperature measured by the temperature sensor (/3) periodically at regular intervals, and controls when the timer (//) reaches that value. The air conditioner (2) is powered on by driving one line.

〔Effect of the invention〕

As explained above, the automatic operation device for an air conditioner for a data processing device of the present invention is capable of turning on the power to the air conditioner at the optimal time depending on the room temperature by providing a temperature sensor and a microcomputer. Therefore, malfunctions of the data processing device due to temperature can be eliminated and power consumption of the air conditioner can be reduced.

[Brief explanation of drawings]

Fig. 1 is a block diagram of an automatic operation device for an air conditioner for data processing equipment, which is an embodiment of the present invention, Fig. 2 is a diagram showing the relationship between time and room temperature, and Fig. 3 is a conventional automatic operation of this type. FIG. 2 is a block diagram of the device. In the figure, (1), (/A)... automatic driving device, (l
O)・e microcomputer, (//)1111 timer, (/ko)...memory, (/3)e fog temperature sensor, (/da)...A/D conversion circuit, (/j)...drive It is a circuit. In addition, in the figures, the same reference numerals indicate the same or corresponding parts. i-“ )

Claims (2)

[Claims] (1) A temperature sensor for detecting the room temperature of the room in which the data processing device is installed, and a temperature difference detection means for detecting the temperature difference between the room temperature detected by the temperature sensor and a preset temperature. and air conditioner start time determining means for determining a time to start the air conditioner based on the temperature difference detected by the temperature difference detection means, and starting the air conditioner based on the output of the air conditioner start time determining means. 1. An automatic operation device for an air conditioner for a data processing device, comprising an air conditioner starting means for starting the air conditioner. (2) The automatic operation device for an air conditioner for a data processing device according to claim 1, wherein the temperature difference detection means and the air conditioner start time determining means are comprised of a microcomputer.