JPH08271015A - Device operation-mode changing-over method and control device - Google Patents

Abstract

PURPOSE: To easily and rapidly set an equipment operation mode only with an on-off pattern of an electrical power of a power supply switch. CONSTITUTION: One common power supply switch 4 for use in supplying an electrical power from a power supply 3 to a plurality of devices 2 is turned off or on, a pattern corresponding to the number of times of turning off/on, or times is generated, this pattern is inputted to a micro-computer 8 supplied with electrical power from a back-up power supply 7, and then the micro-computer 8 changes over an operation mode of the device 2 under a comparison between the pattern and the pre-stored pattern.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation mode switching method and an air conditioning control method for setting an operation mode of an air conditioner, a device to be controlled, etc., and performing an operation in the set operation mode. The present invention relates to an operation mode control device for devices such as a device and an air conditioning controller.

[0002]

2. Description of the Related Art A controller for controlling equipment to be controlled is provided with set values and modes for determining control conditions, and can be set by a user according to the purpose.

An air conditioning controller having a fan coil unit as a controlled device will be described as an example. The fan coil unit includes a coil (heat exchanger) that circulates a heat medium such as cold water or hot water, and a blower that blows air to the coil. A control valve is provided in the flow path near the coil, and the flow rate of the heat medium is changed according to the opening degree, or the air volume is changed according to the rotation speed of the motor of the blower, so that heat exchange between the heat medium and room air is performed. The degree can be changed.
The air conditioning controller can input and set the room temperature set value desired by the user, compares this set value with the room temperature measured by the room temperature sensor, and opens the control valve of the fan coil unit so that the room temperature approaches the set value. Control the speed and the rotation speed of the blower motor.

In such an air conditioner, since the control operation differs between the cooling operation and the heating operation, it is necessary to switch the operation mode depending on the season. That is, regarding the control valve, in the cooling operation, since cold water is supplied to the coil, the room temperature is set to the set value SP as shown in FIG.
In the above case, the control valve is opened and is controlled to close when it falls below the set value SP (the temperature difference between the valve opening operation and the valve closing operation is a chattering prevention operation gap).

On the other hand, in the heating operation, hot water is supplied to the coil. Therefore, as shown in FIG. 5 (b), when the room temperature is equal to or lower than the set value SP, the control valve is opened and exceeds the set value SP. Controlled to close. That is, the operation is the reverse of the case of the cooling operation.

Usually, the change of the set value such as the change of the operation mode and the change of the room temperature as described above is performed by the switch provided in the air conditioning controller. Alternatively, air conditioning controllers of a plurality of air conditioners are connected to a centralized operation panel by a communication line, and operation is performed from this centralized operation panel.

[0007]

However, when an air conditioning controller is installed on each floor or room such as in large buildings, condominiums, and hotels, it is necessary to switch between the cooling mode and the heating mode. In addition, there is a problem in that the maintenance manager needs to switch the switch at each turn of the season and walk, which requires a lot of labor.

Further, the changeover switch between the cooling mode and the heating mode is often concealed in the air conditioner or the like so that a general occupant does not operate it without permission, but nevertheless the occupant is mischievous. There is a case where the operation is performed and a problem occurs in the air conditioning control. Further, it is desired that such an air conditioning controller be small, but there is a problem that the built-in changeover switch becomes a barrier to downsizing of the device.

Further, as described above, in the case where the central control panel is used to switch between the cooling mode and the heating mode by a signal from a remote, wiring for a remote signal, a circuit for transmitting and receiving a remote signal are required. As a result, there is a problem in that an increase in construction man-hours and an increase in cost due to the complication of the transmission / reception system cannot be avoided, and the remote signal is easily affected by noise from the power line.

The present invention has been made in order to solve the above-mentioned conventional problems, and the operation mode, set values and the like of the equipment can be simply and quickly provided only by supplying a power pattern by turning the power switch on and off. It is an object of the present invention to obtain a method of switching the operation mode of equipment that can be set to.

It is another object of the present invention to provide a device operation mode control device capable of setting the operation mode of a device at low cost with a small and simple component.

A further object of the present invention is to provide a device operation mode control device capable of easily and quickly setting the air conditioning controller to either the cooling or heating operation mode.

[0013]

According to another aspect of the present invention, there is provided a device operation mode switching method, wherein a common power switch for supplying power from a power source to a plurality of devices is shut off or turned on, and the number or time of shutting off or turning on the common power switch. Is input to a microcomputer that is supplied with power from a backup power source, and the operating mode of the device is switched by the microcomputer comparing the pattern with the pattern stored in advance.

According to a second aspect of the present invention, there is provided an operation mode control device for an apparatus, which is provided with a power supply state detection circuit for detecting a pattern according to the number or time of turning the power off or on
A microcomputer supplied with power from a backup power source switches the operation mode of the device by comparing the pattern with a pattern stored in advance.

According to a third aspect of the present invention, there is provided a device operation mode control device comprising: a power state detection circuit for detecting a pattern according to the number or time of turning off or turning on the power source; and a microcomputer powered by a backup power source.
The air-conditioning controller is switched to either the cooling or the heating operation mode by comparing the pattern with the pattern stored in advance.

[0016]

According to the first aspect of the present invention, the operation mode switching method of the device compares the pattern according to the number of times the power is turned off and turned on with a preset pattern, and selects the operation mode according to the comparison result. Allow the equipment to start operating.

According to a second aspect of the present invention, the apparatus operation mode control device detects a pattern according to the number or time of power interruptions or turns on by the power condition detection circuit, and the pattern and the pattern preset in the memory. Are compared by a microcomputer, and the operation mode of the equipment can be switched according to the comparison result.

According to the third aspect of the present invention, in the device operation mode control device, the power supply state detection circuit detects a pattern corresponding to the number of times or time the power is turned off or turned on, and the pattern and the pattern preset in the memory are detected. Are compared by a microcomputer, and the operation mode of the air conditioning controller can be switched according to the comparison result.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, 1A to 1N are a plurality of air conditioning controllers, and 2 is a control target device whose operation mode is switched by each of these air conditioning controllers 1A to 1N.

Further, 3 is a commercial power source, 4 is this power source 3 and each of the above-mentioned air conditioning controllers 1A to 1N and each controlled device 2
One power switch for supplying electric power to, for example, a manual operation type provided on a switchboard. That is, each of the air conditioning controllers 1A to 1N includes the power supply 3 and the power switch 4 described above.
To share.

Further, in each of the air conditioning controllers 1A to 1N, 5 is a power supply circuit for rectifying the voltage from the power supply 3 and adjusting the voltage as necessary, 6 is connected to the power supply circuit 5, and a power switch 4 is a power supply state detection circuit for detecting the state (pattern) of power supply by means of 4.

Further, 7 is a backup power supply such as a capacitor or a battery connected in parallel to the power supply circuit 5, and 8
The power switch 4 is turned on again during the power holding time by the backup power source 7, and the control target device 2 is set to the heating or cooling operation mode according to the pattern according to the number or time of turning on and / or shutting off. It is a microcomputer.

Reference numeral 9 is a temperature setting device for setting temperature for heating or cooling, and 10 is a storage element for storing various data such as data processed by the microcomputer 8.

Next, the operation will be described. It is assumed that each of the air conditioning controllers 1A to 1N is initially set to the cooling operation mode for the controlled device 2 when shipped from the factory. Also,
At the time of shipment from the factory, power is supplied to the air conditioning controller for the operation check and the initial setting, so that the backup power supply 7 is also charged at the same time.

At the construction site, first, when the power switch 4 is turned on, power is supplied from the power source 3 to each circuit portion in each of the air conditioning controllers 1A to 1N and the controlled device 2.
Each becomes operational. If the backup power source 7 is insufficiently charged, it is rapidly charged,
It becomes possible to back up in a short time. Then, the cooling operation is started in the operation mode.

This process is shown in FIG. That is,
When power is once supplied at the time of factory shipment and the power switch 4 is shut off at the timing t ₀ shown in FIG. 2 after charging the backup power source 7, power (AC 100 V) is not supplied from the power source 3 to each circuit portion. Although it is cut off, the timer operates during the power supply holding time T _H which is set shorter than the backup possible time of the backup power supply 7, and the power supply from the backup power supply 7 to each of the above circuit parts is continued to be controlled. The setting change function of the device 2 is maintained.

[0027] Incidentally, unless the power switch 4 is between the power supply holding time T _H by the backup power source 7,
After the lapse of time, the power supply to each of the above circuit parts is automatically stopped.

After the factory shipment (naturally, after the power holding time T _H elapses), the power switch 4 is turned on so that the power supply 3 causes the air conditioning controllers 1A to 1N to operate.
When the electric power is supplied to each circuit part inside and the controlled device 2, the controlled device 2 starts to operate in the initially set cooling operation mode.

On the other hand, at the construction site, after charging the backup power source 7, during the power source holding time T _H after the timing t ₀ of shutting off the power source 3, as shown in FIG. Is inputted at the timing t ₁ , the pattern monitoring time T preset by the microcomputer 8 from this time to the timing t _2
1 is counted down by the internal timer. The pattern monitoring time T ₁ is set as an operation mode setting period (setting mode) of devices such as the control target device 2. The microcomputer 8 switches to the cooling operation mode by comparing the above pattern with the previously stored pattern.

That is, when the power switch 4 is turned off once at each of the timings t ₃ and t ₄ during the pattern monitoring time T ₁ , the on / off power pattern at this time is used for determining the operation mode. The input information is taken into the microcomputer 8. A program is registered in the microcomputer 8 so as to set the operation mode to the heating operation when the microcomputer 8 is turned off twice during the pattern monitoring time T ₁ .

Therefore, the microcomputer 8 changes the setting of the operation mode to the heating operation as a result of comparing the input information with the registration information. After the lapse of the pattern monitoring time T ₁ , the operation mode is restored, and the controlled device 2 is controlled to restart the operation in the heating operation.

Further, the pattern monitoring time T ₁ of FIG.
In, the power pattern is generated from the power source only when the power switch is turned on. As a result of comparing the input information with the registration information, the microcomputer 8 does not match the registration information and does not change the setting, and starts the operation of the controlled device 2 in the cooling operation mode as the initial setting.

As described above, by operating a single power switch 4 provided on a switchboard in a command room, a plurality of devices such as the control target device 2 are collectively operated in accordance with the ON / OFF power pattern. Can be set.

The power pattern which is the input information for determining the operation mode is, for example, as shown in FIG.
As shown in (a), in the heating operation mode, the number of times of turning off the power switch 4 in the pattern monitoring time T ₁ is made to be two consecutive times, while in the cooling operation mode, as shown in FIG. It is also possible to give meaning by the number of times of turning on and off, such as making the number of times of turning off of 4 consecutive times.

As another power pattern which is input information for determining another operation mode, for example, as shown in FIG. 4A, in the heating operation mode, the power switch 4 is turned on differently at the pattern monitoring time T ₁ . Off-time T _a ,
_Tb and _Tc are set, and as shown in FIG. 4B, in the cooling operation mode, the power switch 4 is set to different on and off times _Td , _Te , and _Tf. The meaning may be given by a combination of each time of OFF.

[0036]

As described above, according to the first aspect of the present invention, the common power switch for supplying power from a power source to a plurality of devices is turned off or turned on, and a pattern corresponding to the number or time of this turning off or turning on is performed. Inputting the power from the backup power supply to the microcomputer, and switching the operation mode of the above equipment by comparing the above pattern with the pattern stored in advance in this microcomputer. There is an effect that the operation mode of the control device can be easily and quickly set only by supplying the pattern.

According to the second aspect of the present invention, a power supply state detection circuit for detecting a pattern according to the number of times or time the power is turned off or turned on is provided, and the above pattern is detected by a microcomputer supplied from a backup power supply. Since the operation mode of the device is switched according to the comparison with the pattern stored in advance, there is an effect that the operation mode of the device can be set at a low cost with a small and simple component.

According to the third aspect of the present invention, the pattern is stored in advance by the power state detection circuit for detecting the pattern according to the number of times or the time when the power is turned off or turned on, and the microcomputer fed from the backup power source. Since the air conditioning controller is configured to switch to either the cooling or heating operation mode depending on the pattern, it is possible to easily and quickly set the air conditioning controller to either the cooling or heating operation mode. It is effective.

[Brief description of drawings]

FIG. 1 is a block diagram showing a device operation mode control apparatus according to an embodiment of the present invention.

FIG. 2 is a timing chart showing an electric power pattern for switching the operation mode according to the present invention.

FIG. 3 is a timing chart showing another electric power pattern for switching the operation mode according to the present invention.

FIG. 4 is a timing chart showing another power pattern for switching the operation mode according to the present invention.

FIG. 5 is an explanatory diagram showing a control method of a flowing water control valve in a conventional fan coil unit.

[Explanation of symbols]

 2 Controlled equipment (equipment) 3 Power supply 4 Power switch 7 Backup power supply (capacitor or battery) 8 Microcomputer

Claims (3)

[Claims] 1. A common power switch for supplying power to a plurality of devices from a power source is shut off or turned on, and a pattern according to the number or time of this shutoff or turn-on is input to a microcomputer fed from a backup power source. A method of switching the operation mode of the device, wherein the operation mode of the device is switched by comparing the pattern with a pattern stored in advance by a microcomputer. 2. A power supply state detection circuit for detecting whether the power supply is cut off or turned on, and a pattern which is fed from a backup power supply and which corresponds to the number of times or time the power supply is cut off or turned on and a pattern stored in advance. A device operation mode control device comprising a microcomputer for switching the operation mode of a device. 3. A power supply state detection circuit for detecting a pattern according to the number of times the power is turned off or turned on, and an air conditioning controller based on a comparison between the pattern supplied from a backup power supply and the pattern stored in advance. An operation mode control device for a device, which comprises a microcomputer for switching to either an operation mode of cooling or heating.