KR970001284B1 - Controller of a fan-coil - Google Patents

Abstract

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Description

Fan coil counterweight

1 is a schematic diagram of an embodiment of a fan coil control apparatus according to the present invention.

2 is a detailed configuration diagram of a controller of a fan coil control device according to the present invention.

3 is a specific configuration diagram of a power unit of the fan coil control device according to the present invention.

* Explanation of symbols for main parts of the drawings

1: fan coil unit 2: water supply pipe

3: drain pipe 4: coil

5: blowing fan 6: solenoid valve

7: water temperature sensor 8: power unit

9 controller 10 room temperature sensor

11: display unit 12: interface

13: computer

The present invention relates to a fan coil control apparatus for heating and cooling a room using a coil for discharging cold water or hot water and a fan for heat exchange.

As a conventional fan coil control apparatus, it is known that the temperature of cold / hot water is detected to automatically switch cooling and heating at a predetermined temperature. That is, when the temperature of the hot and cold water is lower than 25 ° C., for example, it is automatically switched to the cooling operation, and when the temperature is higher than that, the heating operation is automatically switched, and the set temperature of the heating / cooling (target temperature in the room) and the detected room temperature are The driving was done according to the difference. However, in order to save energy, the limit value is often set so as to set the room temperature to 23 ° C. or lower, and the cooling temperature to 25 ° C. or higher, for example. When the current season is a season and the room temperature is 24 ° C., neither the cooling operation nor the heating operation is performed, and the fan of the indoor unit is not driven. Even in such a case, it is necessary to operate only the blowing air in order to save energy and maintain a good air conditioning environment. In general, although the air conditioner is configured to display the LED or the like during the cooling operation or the heating operation, the indoor unit does not operate in the above-described case, for example, when the water temperature is 25 ° C or lower, Something has been misidentified by the user.

In order to solve such a problem, it is possible to automatically switch between cooling operation and heating operation by mercury detection, and actively prepare a blowing mode in the middle of cooling operation and heating operation, thereby saving energy and maintaining a good air-conditioning environment. Of course, the present applicant has already proposed a fan coil control device which correctly displays these driving states so as not to mislead the user (see Japanese Utility Model Application Laid-Open Publication No. Hei 2-48738).

As described above, in a device that is heated and cooled by cold / hot water, it is determined whether it is cooling or heating according to the temperature of the cold / hot water and automatically operates. At the same time, the temperature control is performed by opening and closing the cold / hot water by an electromagnetic valve. There is. For example, if the operation of the indoor fan coil unit is stopped by switching off the controller within the reach of the user during winter, the solenoid valve is closed so that hot water does not flow. For this reason, hot water cools and it becomes cooling operation by the signal from a water temperature detection sensor. At this time, even if the controller is switched on, the room temperature is low in the automatic operation, so the solenoid valve does not open and remains unheated forever.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, and in a fan coil control device which automatically switches between cooling and heating operations by mercury detection, a solenoid valve is forcibly prescribed when the operation is started from a stopped state. It is possible to provide a fan coil control device that can be opened for a period of time and sufficiently detect the temperature of cold and hot water, thereby preventing an incorrect operation state from occurring.

In order to achieve this object, the present invention is a fan coil control device having a coil unit for cooling or heating the room by cooling and heating the indoor air by the cold water or hot water is drained heat exchange with the indoor air, The temperature is detected by the water temperature sensor to automatically switch the operation of cooling or heating, and the room temperature is controlled by opening and closing the solenoid valve installed in the drainage channel based on the signal from the room temperature sensor, wherein the temperature of the cold or hot water is the first predetermined temperature. It becomes cooling operation when it is below, it turns into heating operation when it is more than the 2nd predetermined temperature higher than this 1st predetermined temperature, it is blown operation when it is between 1st predetermined | prescribed temperature and 2nd predetermined temperature, and it starts operation from a stop state. At the same time, the respective driving states are forcibly identified and displayed for a predetermined time. And to open a probe.

Hereinafter, an embodiment of a fan coil control apparatus of the present invention will be described with reference to the drawings. 1 shows a schematic configuration of an air conditioning system using the present control device. The fan coil coil unit (1) is installed indoors, and the coil (4) in which cold or hot water is drained through the water supply pipe (2) and the drain pipe (3), and the cold and hot water drained by the coil (4) and the indoor air The water supply pipe 2 which consists of the blowing fan 5 for heat exchange, and the inlet vicinity of the coil 4 is provided with the solenoid valve which opens and closes the water passage, and the water temperature sensor 7 which detects water temperature. Each fan coil unit 1 has its own power unit 8, to which a controller 9 is connected via a signal line. The power unit 8 receives the water temperature detection signal from the water temperature sensor 7, and simultaneously drives the fan 5 and the solenoid valve. The controller 9 receives various operations, setting instructions, and the like, transmits and receives a signal with the power unit 8, and drives the display unit 11 according to the room temperature detection signal from the room temperature sensor 10.

The controller 9 controls the fan 5 stepwise so that the room temperature becomes a set value in accordance with a signal from the room temperature sensor 10, and controls the solenoid valve on and off. In addition, the controller 9 and the power unit 8 are connected to the computer 13 installed in the central monitoring room or the like through the interface 12 and exchange various kinds of information by network communication, thereby confirming the room temperature and setting temperature. Control such as confirmation and change, operation mode check and change can be performed centrally.

2 shows a detailed configuration diagram of the controller 9, and FIG. 3 shows a specific configuration diagram of the power unit 8. First, referring to the controller 9 shown in FIG. 2, the one-chip microcomputer 21, which is the core of the control, communicates with the power unit 8 through a pre-fuel loop 22 having an A / D conversion function. Moreover, it has an operation part for inputting the following various commands. The heating / cooling / automatic switching switch 23 is for switching the operation mode. For example, when set to “automatic”, as described later, the heating / cooling / automatic switching switch is in the cooling mode when the detection temperature of cold / hot water is 20 ° C. or less, When it is 35 degreeC or more, it switches to a heating mode and a ventilation mode when it is between 20-35 degreeC, and operation state is automatically switched.

When the automatic / blowing manual switch 24 is set to "automatic", the above-described automatic operation of cooling and heating is prioritized, and when set to "blowing", the blowing operation is forcibly performed. When the normal / limit value adjustment switch 25 is set to "normal", the set temperature of cooling or heating is displayed on the display part 11, and when it is set to "limit value", a cooling lower limit value or a heating upper limit value is displayed. The "UP" button 26 and the "DOWN" button 27 are for changing the set temperature of room temperature, and the "OFF" button 28 is for stopping all functions. .

Buttons 29, 30, and 31 of AUTO, MED, and HI automatically rotate the fan 5 with respect to the air volume mode. The rotation of the pin 5 and the solenoid valve are automatically controlled in each airflow mode by the difference between the set temperature and the detected room temperature. These set airflow modes are indicated by LEDs. The cooling limit setting volume 32 and the heating limit setting volume 33 are for changing the limit value of cooling and heating, and are adjustable between 15 to 30 ° C. For example, in a state where the switch 23 is set to "cooling", the switch 24 is set to "automatic", and the switch 25 is set to "limit", respectively, the lower limit of cooling is set by the volume 32. When the temperature is set to 0 ° C, the setting range of cooling is set to 23 to 30 ° C, the switch 23 is set to "heating", and the switches 24 and 25 are set in the same manner as above, and the volume 33 When the upper limit of heating is set to 26 ° C.), the setting range of heating is between 15 and 26 ° C.

The room temperature is displayed on the display unit 11 (instead of the set temperature) while the "room temperature display" button 34 is pressed. In addition, the output of the room temperature sensor 10 is input to the microcomputer 21 through an amplifier (AMP), the microcomputer 21 turns on the cooling lamp (LED) 35 when the detected temperature of cold and hot water is 20 ℃ or less. The heating lamp (LED) 36 is turned on at 35 ° C. or higher, and the display unit 11 made of liquid crystal (LCD) or the like is driven through the latch circuit 37. In this display section 11, the set temperature is normally displayed as a numerical value, and in the case of operating various buttons or the like, detailed description is omitted, but the room temperature, cold / hot water temperature, cooling sensing temperature, heating sensing temperature are displayed as numerical values, In addition, the display shown by the arrow shown in the figure appears during the blowing operation, and when the battery (lithium battery) is provided to store the set temperature and the airflow mode before the power failure, when restarting after the power failure. When it disappears, it is indicated by the mark B.

Hereinafter, the power unit 8 shown in FIG. 3 will be described. The one-chip microcomputer 4, which is the core of the control, is connected to the microcomputer 21 of the controller 9 through a current loop 42 having a D / A conversion function. The output of the water temperature sensor 7 is input to the microcomputer 41 through an amplifier AMP and an A / D converter, and also sets a sensing temperature for switching between cooling and heating by the detected water temperature (water temperature The upper limit, the lower limit of the water temperature) 43, 44 and the selection signal of the air volume / quantity control priority switching switch 45 are input. The upper limit of the water temperature of the cooling detection is adjustable within 20 ° C ± 5 ° C, and the lower limit of the water temperature of the heating detection is adjustable within 35 ° C ± 5 ° C. On the other hand, a blowing operation is performed in the middle between these water temperature upper limits and lower limits. In addition, any one of the air volume control and the water temperature control is selected by the changeover switch 45, and the selected control is preferentially performed. In the air volume control, the room temperature is controlled in the set air volume mode (automatic, medium, high), and the quantity control In the case where the solenoid valve 6 is on, the fan is rotated in the set air volume mode (automatic, medium, high) and low when the solenoid valve 6 is off.

The output of the microcomputer 41 is applied to the motor for driving the fan 5 through the trigger circuit 46 to shift the motor to phase control or tap control, and to turn the solenoid valve 6 on and off. It controls and quantity control is performed. The power unit 8 includes a power supply circuit composed of a transformer 48, a rectifier circuit 49, a stabilized power supply 50, and the like supplied with electric power from an AC 100V power supply 47 to supply a DC power supply voltage to a microcomputer or the like. Supply. In addition, the controller 9 is provided with a jumper switch (not shown) for switching the air volume mode at the time of restart after power failure to "off" and "auto" when equipped with a lithium battery for countermeasure of power failure. The flow rate mode is selected between "off" and "auto" by switching to.

According to the above embodiment, the operation of cooling, blowing, and heating is automatically switched according to the detected water temperature, and the operation state at this time is displayed, so that the display is cooled at the time of the season as in the prior art. This prevents the indoor fan from running. In addition, when the air flow rate and quantity control priority changeover switch 45 is provided and the air flow rate control priority is selected by switching the switch, the quantity flow control is performed in a lane, and when the quantity control priority is selected, the flow rate control is performed in a lane. The temperature control can be executed accurately, thereby preventing overcooling or overheating, and achieving a great energy saving effect.

As described above, by performing the blowing operation when the temperature is between the first and second predetermined temperatures, the following effects are achieved. For example, suppose there is no blowing operation. In this case, if the solenoid valve is closed during automatic operation, since the hot and cold water does not flow, the hot and cold water temperature changes, and cooling and heating are switched. For example, the solenoid valve is closed when the room temperature reaches the set temperature during the heating operation in winter. When the solenoid valve is opened again and the operation starts, the room temperature is lower than the set temperature, for example, 0.5 ^o C (because the hysteresis is set at 0.5 ° C to prevent chattering). If the room temperature immediately drops to the operation start temperature, the heating operation is resumed. However, if the temperature of the cold and hot water becomes cold and the water temperature sensor 7 detects it before the temperature decreases to the operation restart temperature, as a result, the device is accidentally cooled. There is a risk of switching to operation (including display). The solenoid valve is then closed by the cooling operation. At this time, the fan coil does not operate, and since the room temperature does not rise by itself, it is stopped as it is in the cooling state.

Alternatively, the blowing operation is performed between the cooling operation and the heating operation. In this case, the blowing operation is performed without suddenly being the cooling operation. During blow operation, the solenoid valve opens and cold and hot water starts to flow. Here, since the hot and cold water temperature rises again and the heating operation is performed again, a bad situation as in the previous case does not occur, and there is no indication of cooling during the heating operation.

In the present invention, when the operation is started from the stop of operation, the solenoid valve is forcibly opened for a predetermined time (for example, for 60 seconds). By doing this, it is possible to sufficiently detect the temperature of the cold and hot water, and to prevent the operation from going wrong when the cooling operation and the automatic operation of the heating operation by the water temperature detection are executed.

Further, since the air volume control priority and the quantity control priority selection means are provided, the following effects are obtained. In general, there are two types of fan coils with and without a solenoid valve. In the absence of a solenoid valve, since cold and hot water always flows, cooling and heating are stopped by stopping the fan when the room temperature exceeds the set temperature by the air flow control priority. If there is a solenoid valve, the cooling and heating are stopped by shutting off the solenoid valve to prevent the flow of cold and hot water when the room temperature exceeds the set temperature by the quantity control priority. The fan runs at low rotational speed. In this way, dew condensation can be prevented during the cooling operation. As such, there are two control methods suitable for each case and either one can be selected.

In addition, the above embodiment has been described in connection with the two-pipe type of cold and hot water, but the four-pipe type to drain the cold water and hot water separately, and to automatically switch the cooling and heating operation according to the room temperature sensor signal, the air conditioning effect Can be raised. In addition, since the set temperature is automatically set to +2.5 degrees Celsius of the lower cooling limit and -2.5 degrees Celsius of the heating upper limit when restarting after a power failure, it is possible to adjust the air to a comfortable temperature and bring about an energy saving effect.

In addition, when the control of the fan coil unit is provided with the following communication functions, the effect of energy saving by automatic operation is increased. That is, firstly, each room can be operated by the controller of each room individually, and also the centralized control panel can display the room temperature, set temperature, operation status, etc. of each room at a remote location, and also operate and manage them, or Secondly, the centralized control panel may have a locking function or the like such that the controller of each chamber cannot be operated.

According to the present invention as described above, the cooling and heating operation is automatically switched according to the temperature of the cold and hot water detected by the water temperature sensor, and further, the upper limit of the water temperature (first predetermined temperature) at which the water temperature enters the cooling operation and the water temperature entering the heating operation. When it is between the lower limit (the second predetermined temperature), ventilation operation is carried out, so it is possible to always perform comfortable air control without requiring maintenance work after the installation of equipment, and of course, there is no waste in operation Savings can be achieved, and it is possible to meet the necessity of blowing only during the season. In addition, since each driving state is displayed, the user can correctly recognize the driving contents. In addition, when the operation is started from the stop of operation, the solenoid valve is forcibly opened for a predetermined time so that the temperature of the cold and hot water can be sensed sufficiently. Therefore, the operation is incorrect when the cooling operation and the automatic operation of the heating operation are performed by the water temperature detection. Can be prevented. In addition, since the air volume control priority and the quantity control priority are automatically operated in combination with the set temperature at room temperature, overcooling and overheating can be prevented, and energy saving can be achieved.

Claims (2)

A fan coil control device that cools or heats a room by draining cold water or hot water and exchanging it with indoor air, and detects the temperature of the drained cold water or hot water by using a water temperature sensor, and automatically switches the operation of cooling or heating. The room temperature is controlled by opening and closing the solenoid valve installed in the drainage channel based on a signal from the air conditioner, and the cooling operation is performed when the temperature of the cold water or hot water is lower than the first predetermined temperature, and the temperature is higher than the second predetermined temperature higher than the first predetermined temperature. In the fan coil control device for heating operation, and when the temperature is between the first predetermined temperature and the second predetermined temperature, the ventilation operation is performed, and at the start of the operation from the stop state, the fan coil control device for identifying and displaying the respective operating states. Or a coil through which hot water is drained through the water supply pipe and the drain pipe; A blowing fan for heat exchange between hot and cold water drained by the coil and indoor air; An electromagnetic valve for opening and closing the flow of water in the water supply pipe; A water temperature sensor for detecting water temperature in the water supply pipe; By receiving the water temperature detection signal from the water temperature sensor and driving the fan and the solenoid valve according to various operation and setting signals from the controller, the solenoid valve forcibly for a predetermined time at the start of operation from the stop state. A power unit operative to open the door; And a controller that receives various operations, setting instructions, and the like from a user, performs signal transmission and reception with the power unit, and drives a display unit in accordance with a room temperature detection signal from a room temperature sensor. The air conditioner according to claim 1, further comprising a selection means for prioritizing any one of the air flow rate control by the rotation control of the fan and the water quantity control by the solenoid valve control installed in the drainage passage, and the set temperature and room temperature sensor for heating and cooling according to the selected priority. The fan coil control device which controls the air volume or quantity according to the difference of the room temperature detected by the.