JP2576354B2 - Air flow control method for air conditioner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for controlling an air volume of an air conditioner. In particular, the present invention relates to a method of controlling an air volume in an air conditioner that heats a room using heat of a heat medium such as hot water.

[0002]

2. Description of the Related Art As a heating function in an air conditioner,
An air conditioner has generally been proposed in which heat generated by an electric heater is generally used, but recently, hot water is circulated as a heat medium to heat the room using the heat. An example of such an air conditioner is disclosed in
There is one disclosed in JP-A-03330.

In an air conditioner that heats a room by using hot water in such a manner, during a heating operation (or a dehumidifying operation), a constant temperature is passed through a heating radiator provided in the indoor unit through a heat medium pipe. The hot water is circulated, and the air taken in from the air intake of the indoor unit is heated by exchanging heat with the heating radiator, and the heated air is forcibly blown into the room from the outlet by the blower fan. The flow control valve provided in the heat medium pipe automatically controls (fuzzy control) the flow rate of hot water based on the deviation between the set temperature and the room temperature so that the room temperature and the set temperature become equal.

[0004]

In the above-described air conditioner, the user can set the blowing speed (hereinafter referred to as "wind speed") of the blowing fan to "automatic", "strong", "medium",
You can choose from "weak". If the wind speed of the blower fan is set to "Auto",
The wind speed is controlled so as to automatically change in accordance with the opening degree of the flow control valve. When the opening degree of the flow control valve is large, the wind speed increases.

[0005] However, when the wind speed of the blower fan is set to “weak” or “medium” other than “automatic”, the opening of the flow control valve becomes large and the amount of heat radiated from the heating radiator is reduced. When it gets bigger, the temperature of the hot air blown out becomes too high, and people who are directly hit by the hot air blown out from the indoor unit will be hit by the hot hot air directly, giving considerable discomfort. There was a problem that it would.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned drawbacks of the prior art, and has as its object to provide an air conditioner that performs heating using the heat of hot water, such as a fan for blowing air. It is to prevent hot air having a high temperature from being blown out of the indoor unit when the air blowing speed of the air blowing means is set to a low speed, for example, “weak” or “medium”.

[0007]

According to the air flow control method for an air conditioner according to the present invention, air is heated by a heating medium flowing through a heating radiator, and hot air is blown out by a blowing means to perform heating. In the air conditioner in which the heating capacity is controlled by adjusting the flow rate of the heating medium, the blowing intensity of the blowing unit is set.
Means, and the flow control valve is provided with
The heat medium flow rate can be adjusted regardless of the setting state of the
When the blowing intensity of the blowing means is fixed to a weak state by the blowing strength setting means, the control range of the flow control valve is narrower than when the blowing strength is set to be automatic.

[0008]

According to the present invention, the control range of the flow control valve is narrower when the blowing intensity of the blowing means is fixed to a weak state than when the blowing intensity is set to be automatic. ,
The flow rate of the heating medium does not become unbalancedly larger than the blowing intensity of the blowing means, and therefore, it is possible to prevent hot air having a high temperature from being blown out.

[0009]

【Example】

(Cooling Function) FIG. 1 is a schematic configuration diagram showing an air conditioner according to one embodiment of the present invention. The air conditioner 1 mainly includes an indoor unit 2, an outdoor unit 3, and a heating heat source unit 4, and can perform a cooling operation, a heating operation, and a dehumidifying operation. The refrigerant circulation circuit 5 connects the compressor 6, the condenser 7, and the capillary tube 8 provided inside the outdoor unit 3 and the evaporative heat exchanger 9 provided inside the indoor unit 2 via a refrigerant pipe 10. Connected and configured. A radiating fan 11 for radiating heat of the condenser 7 to the outside is provided inside the outdoor unit 3, and condensed below the evaporative heat exchanger 9 inside the indoor unit 2. Drain pan 1 for receiving and discharging water droplets adhering to evaporative heat exchanger 9
2 are provided.

Thus, by operating the refrigerant circuit 5, it is possible to cool the room by the same operation as a general cooling device. That is, during the cooling operation, when the compressor 6 is operated to condense in the condenser 7 and the condensed refrigerant is repeated in the evaporative heat exchanger 9 to repeat the thermodynamic cycle, the refrigerant evaporates in the evaporative heat exchanger 9. It takes away the surrounding heat as heat of vaporization. Therefore, the air that has flowed in from the air intake 13 of the indoor unit 2 is cooled by the evaporative heat exchanger 9, and the cooled air is sent out from the outlet 15 of the indoor unit 2 into the room by the blower fan 14, thereby cooling the room. Is performed.

(Heating Function) The heating medium circulation circuit 21
A heating medium heater 22 and a pump 23 disposed inside the heating heat source unit 4; and a heating radiator 2 disposed inside the indoor unit 2
4 is connected through a heat medium pipe 26,
The heat medium pipe 26 is provided with a flow control valve 25 and a temperature sensor 27. A heat medium such as hot water exists in the heat medium circulation circuit 21, and when the pump 23 is operated, the heat medium is forcibly circulated in the heat medium circulation circuit 21. The heat medium heater 22 includes, for example, a heat exchanger 22a and a gas burner 22b, and the amount of heat of the heat medium heater 22 is controlled by a heat medium temperature control unit 29 so that the temperature of the heat medium is constant. That is, the temperature of the heat medium flowing out of the heat medium heater 22 is detected by the temperature sensor 27 provided on the outlet side of the heat exchanger 22a, and the heat medium temperature control unit 29 detects the heat medium temperature detected by the temperature sensor 27. Based on the medium temperature, for example, the proportional control valve 28 of the gas burner 22b is feedback-controlled so that the temperature of the heat medium flowing out of the heat medium heater 22 becomes constant. Thus, the heat medium of a constant temperature sent to the heating radiator 24 through the heating medium pipe 26 is
The air that has flowed in through the air intake 13 is heated by exchanging heat with the heat medium by the heating radiator 24, and the warmed air is blown by the blower fan 14 into the outlet 1 of the indoor unit 2.
5 to the room, and the room is heated.

On the other hand, the room temperature Tr, that is, the amount of heat radiated from the heating radiator 24 is controlled by the flow control valve 25 by the heat medium circulation circuit 2.
It is adjusted by controlling the flow rate of the heat medium circulating in the flow path 1. The room temperature Tr is detected by a room temperature sensor 30 provided in the indoor unit 2, and a desired value of the room temperature Tr can be set by a setting unit 31. Then, the set value of the room temperature (set temperature Ts) by the setter 31
Is input, the room temperature control unit 32 monitors the room temperature Tr with the room temperature sensor 30 and changes the room temperature Tr to the set temperature Ts.
The flow rate of the heat medium is controlled by the flow rate control valve 25 so as to be equal to Further, the blower fan 14 can switch the mode of the wind speed (that is, the fan rotation speed) to four modes of “automatic”, “weak”, “medium”, and “strong” by the setting device 31. When set to "automatic", the wind speed is automatically adjusted to correspond to the opening of the flow control valve 25, and when set to any of "weak", "medium" and "strong", The wind speed is fixed at low, medium and strong winds.

(Room Temperature Control During Heating Operation) The heating operation of the air conditioner 1 is divided into an initial operation at the start of heating and a subsequent normal control (fuzzy control) operation. First, when the heating switch is turned on, the flow control valve 25 that has been in the fully closed position is opened to the fully open position, and when it is detected that the flow control valve 25 has been opened to the fully open position, the flow control valve 25 is returned to the intermediate position (initial operation).
The flow rate value with respect to the valve opening of the flow control valve 25 is slightly different between the case where the flow control valve is opened from the fully closed position to the intermediate position and the case where the flow control valve is once opened to the fully open position and then returned to the intermediate position, and Comparing these two characteristics, the flow characteristics when returning from the fully open position to the intermediate position are more preferable in terms of design. For this reason, as described above, the flow value at the time of returning from the fully opened state to the intermediate position is used to eliminate the variation in the flow rate characteristics. The intermediate position is not limited to the center between the fully closed position and the fully open position, but may be an appropriate position between the fully closed position and the fully open position. On the other hand, at the time of this initial operation, in order to prevent the cool air from being blown out from the outlet 15, the blower fan 14 is configured to supply the heat medium flowing into the heat medium pipe 26 or the hot air blown out from the outlet 15. The fan rotation speed can be gradually increased at the rate of increase according to the temperature rise, and the fan rotation speed corresponding to the set wind speed such as "Low", "Medium", "High"("High""
Same as).

When it is detected that the opening of the flow control valve 25 has returned to the intermediate position, the routine immediately shifts to the normal control operation.
Upon transition to the normal control operation, the room temperature control unit 32 determines the difference (Ts−Tr ^now ) between the set temperature Ts and the current room temperature Tr ^now ,
And the difference between the current room temperature Tr ^now that the predetermined period before the room temperature ^{Tr old (Tr now -Tr old)} [ i.e., the temperature change rate] Based on, calculates the target opening degree of the flow control valve 25 by fuzzy inference, the target The opening degree of the flow control valve 25 is fuzzy controlled so as to be the opening degree, and is automatically controlled so that the room temperature Tr becomes the set temperature Ts.

In the normal control operation, the control modes of the blower fan 14 and the flow control valve 25 differ depending on the wind speed mode of the blower fan 14. That is, the room temperature control unit 32 has a wind speed table according to the opening of the flow control valve 25, and when the blower fan 14 is set to “automatic”, the blower fan 14 The wind speed is controlled to correspond to the 25 degree of opening. In addition, when the blower fan 14 is set to any one of “weak”, “medium”, and “strong”, the blowout temperature of the hot air is not excessively increased at each fixed wind speed, as shown in FIG. As shown in (1), the control range of the opening of the flow control valve 25 is limited. For example, when the wind speed is fixed to “strong”, the maximum opening of the flow control valve 25 is set to 100% of the full opening, and when the wind speed is fixed to “medium”, the maximum opening of the flow control valve 25 is set. Is 80% of the fully opened state and is fixed to "weak", the maximum opening of the flow control valve can be set to 60% of the fully opened state.

The operation of the air conditioner 1 during the heating operation (in the case of "automatic") will be specifically described. FIG. 3 (a)
(B) is a diagram showing changes in the wind speed (fan rotation speed) of the blower fan 14 and the degree of opening of the flow control valve 25 when the blower fan 14 is set to “automatic” and the heating operation is performed. When the wind speed of the blower fan 14 is set to “automatic”, when the heating switch is turned on, the flow control valve 25
Is once opened to the fully open position, then returned to the intermediate position, and at the same time, the blower fan 14 is raised to the "strong" wind speed (initial operation). Next, when the flow shifts to the normal control operation, the flow control valve 25 sets the room temperature Tr to the set temperature T.
Fuzzy control is performed so as to be equal to s. At this time,
The wind speed of the blower fan 14 is controlled to a wind speed corresponding to the opening of the flow control valve 25 so that the temperature of the hot air blown from the outlet 15 does not become too high or too low. That is, the wind speed is controlled according to the amount of heat radiation from the heating radiator 24. Although not shown, the flow rate control valve 25 is similarly controlled when the wind speed is set to “strong”, but the wind speed of the blower fan 14 is fixed to “strong”.

FIGS. 4 (a) and 4 (b) show the wind speed (fan speed) and flow rate of the fan 14 when the fan 14 is set to "weak" and the heating operation is performed. FIG. 7 is a diagram showing a change in the opening degree of a control valve 25. In this case,
When the heating switch is turned on, the opening of the flow control valve 25 is once opened to the full open position and then returned to the intermediate position, and at the same time, the blower fan 14 is raised to the "low" wind speed (initial operation). ). Then, when shifting to the normal control operation, the control range of the flow control valve 25 is limited (for example, the opening is limited to 0 to 60% of full opening), and the flow control valve 25 performs fuzzy control within this limited range. Is done. At this time, since the blower fan 14 is set to “weak”, it remains fixed at the “weak” wind speed. The wind speed is fixed to “weak”, but the maximum opening of the flow control valve 25 is limited, so the maximum heat radiation from the heating radiator 24 is also small, and the flow control valve 25 is controlled to the maximum opening. Also in this case, the hot air having an excessively high temperature is not blown out from the outlet 15. Although not shown, the air conditioner 1 is similarly controlled when the wind speed is set to “medium”.

[0018]

According to the present invention, the control range of the flow control valve is narrower when the blowing intensity of the blowing means is fixed to a weak state than when the blowing intensity is set to be automatic (particularly, Since the maximum opening degree is reduced), the flow rate of the heat medium does not become unbalancedly larger than the blowing intensity of the blowing means, and it is possible to prevent hot air having a high temperature from being blown out.

Therefore, even when the wind speed of the blower is set to "weak" other than "automatic", it does not cause any discomfort even to a person who is directly hit by the warm air blown from the indoor unit.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing an air conditioner according to one embodiment of the present invention.

FIG. 2 is a diagram illustrating a relationship between an operation mode of a blower fan and a control range of a flow control valve.

3A and 3B are diagrams illustrating a control operation when a heating fan is in an “automatic” heating operation, in which FIG. 3A illustrates a control state of the blowing fan, and FIG. 3B illustrates a flow control valve; It is a figure which shows the control state of.

4A and 4B are diagrams illustrating a control operation when a heating fan is set to “weak” to perform a heating operation, in which FIG. 4A illustrates a control state of the blower fan, and FIG. 4B illustrates a flow control valve; It is a figure which shows the control state of.

[Explanation of symbols]

 14 ventilation fan 24 heating radiator 25 flow control valve 31 setting unit 32 room temperature control unit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hirofumi Tanaka 32nd Akashi-cho, Chuo-ku, Kobe-shi, Hyogo Pref. 72) Inventor Yukari Hamachika 32, Akashi-cho, Chuo-ku, Kobe-shi, Hyogo Pref. Noritsu Co., Ltd. (56) References

Claims (1)

(57) [Claims] 1. A heating medium is heated by a heating medium flowing through a heating radiator, heating is performed by blowing hot air by a blowing means, and a heating capacity is controlled by adjusting a flow rate of the heating medium by a flow control valve. In the air conditioner, comprising means for setting the blowing intensity of the blowing means,
Whether the flow control valve is in the setting state of the blowing intensity of the blowing means
Nevertheless, it is possible to adjust the flow rate of the heat medium, and when the blowing intensity of the blowing means is fixed to a weak state by the blowing strength setting means , the flow rate of the flow control valve is smaller than when the blowing strength is set to be automatic. An air volume control method for an air conditioner, wherein a control range is narrowed.