JPH11173631A - Air conditioner controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the following property to the ripple of load, by computing the air supply temperature set value, based on the indoor set temperature inputted in advance and the measured return air temperature, and further, opening and closing a flow control valve for cold/hot water by PI action using the air supply set value. SOLUTION: This air conditioner is equipped with a temperature measuring instrument 3 which measures the temperature PV of return air sucked in a cold/hot water coil 2, a temperature measuring instrument 4 which measures the temperature of the supply air discharged from the cold/hot water coil 2, a supply air temperature set value operating part 5 which computes the set value SP of the supply air temperature, based on the measured return air temperature PV and the indoor set temperature SPO inputted in advance, and a quantity-of-PI-action operating part 6 which computes valve travel to make a cold/hot water valve MV1 perform PI action, using the measured supply air temperature and the computed supply air temperature set value SP.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for an air conditioner using cold and hot water supplied from a heat storage tank or the like as a heat source.
In particular, the present invention relates to an air conditioner control device capable of quickly responding to load fluctuations and automatically switching between cooling and heating at appropriate timing.

[0002]

Conventionally, in the case of an air conditioner using cold and hot water as a heat source, a valve for adjusting the flow rate of cold and hot water by PID control or the like by comparing the measured return air temperature with a set value of room temperature. Was driven to open and close. For this reason, there is a case where the followability to the fluctuation of the load is insufficient. Further, in the conventional air conditioner, switching between cooling and heating is manually set, so that switching may be performed at an inappropriate timing without conforming to an actual situation.

[0003]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, a first aspect of the present invention is to forcibly circulate indoor air through a cold / hot water coil to which cold or hot water is supplied in accordance with a cooling or heating operation mode. A control device for an air conditioner that adjusts the flow rate of the chilled and heated water to the chilled and heated water coil by the valve opening of the flow control valve, and a temperature measuring device that measures the temperature of the return air drawn into the chilled and heated water coil; A temperature measuring device that measures the temperature of the supply air discharged from the chilled / hot water coil, and an intake air temperature that calculates a set value of the supply air temperature based on the measured return air temperature and a previously set indoor set temperature. A flow control valve using a set value calculation unit and the supply air temperature measured according to the set cooling or heating operation mode and the supply air temperature set value calculated by the supply air temperature set value calculation unit. For making the PI operate Characterized in that a PI operation amount calculation unit for calculating a momentum.

According to a second aspect of the present invention, in the first aspect of the present invention, the return air temperature and the indoor set temperature are compared at the start of operation,
A means for setting the heating mode when the return air temperature is lower than the indoor set temperature, and a mode setting for the cooling mode otherwise, and comparing the return air temperature with the indoor set temperature during the heating mode operation, Means for switching to the cooling mode operation when the temperature becomes higher than the indoor set temperature and the difference between the return air temperature and the indoor set temperature exceeds a half of the preset dead zone temperature width, and during the cooling mode operation The return air temperature and the indoor set temperature are compared, and the return air temperature is lower than the indoor set temperature, and the difference between the indoor set temperature and the return air temperature is set to a value that is half the temperature width of the preset dead zone. Means for switching to the heating mode operation when exceeding.

In the invention of claim 1 or claim 2, the set value of the supply air temperature is SP (ＳＰC), the set value of the room temperature is SP ₀ (゜ C), the return air temperature is PV (゜ C), Correction value is α (゜ Cde
g.), the supply air temperature set value calculated by the PI operation amount calculation unit is calculated by the following equation: SP = 2 × SP ₀ −PV + α, and the correction value α in the equation is −4 ° C. ° during the cooling mode operation. In the heating mode operation, the temperature can be set to 4 ° Cdeg.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a system diagram showing a schematic configuration of an air conditioner to which the present invention is applied and a control device thereof. In the drawing, reference numeral 1 denotes a fan for forcibly circulating supply air and return air, and a cooling / heating water coil 2 is provided on the suction side of the fan 1. The cold / hot water coil 2 is supplied with cold water in the cooling mode and hot water in the heating mode from a heat source such as a heat storage tank (not shown). The cold / hot water valve MV1 is connected in the middle of the pipe of the cold / hot water. I have.

[0007] A temperature measuring device 3 for measuring the temperature of the return air is attached to the suction side of the cold / hot water coil 2, and the measured return air temperature PV (、 C) is the supply air temperature. It is sent to the set value calculation unit 5. Similarly, a temperature measuring device 4 for measuring the temperature of the supply air is attached to the discharge side of the fan 1, and the measured supply air temperature is sent to the PI calculation unit 6.

In these configurations, either the cooling mode or the heating mode is input to the operation units 5 and 6 to set the operation mode, and the operation unit 5 receives the indoor set temperature SP ₀ (゜ C). Entered and set. Here, the calculation unit 5 determines the set operation mode and the indoor set temperature S
Based on P ₀ and the input return air temperature measurement value PV,
The supply air temperature set value SP (゜ C) is calculated and sent to the PI calculation unit 6. Based on the set operation mode and the input air supply temperature set value SP and the air supply temperature measurement value, the PI calculation unit 6 determines the valve opening degree for controlling the flow rate of the cold / hot water valve MV1 by the PI operation. The drive amount is calculated and sent to the cold / hot water valve MV1 as a drive signal. The cold / hot water valve MV1 is driven to open and close at a valve opening based on the input drive signal.

Next, the calculation in the supply air temperature setting value calculation section 5 will be described. First, in the cooling mode, the supply air temperature set value SP (゜ C) is calculated by the following equation.

[0010]

## EQU1 ## SP = 2 × SP ₀ −PV−α _C

Here, α _C is a correction value, and 4 ° Cdeg. Is an optimum value from the results of experiments. In this calculation, the minimum value of the supply air set temperature SP is set to 15 ° C.
When the result of the operation is smaller than the minimum value, that is, SP ≦
In the case of 15 ° C, the minimum value 15 ° C is output as SP. When the result of the calculation is higher than the return air temperature PV, that is, when SP> PV, the supply air temperature set value SP (゜ C) is calculated by the following equation.

[0012]

## EQU2 ## SP = SP ₀ −α _C / 2

Next, in the heating mode, the supply air temperature set value SP (゜ C) is calculated by the following equation.

[0014]

## EQU3 ## SP = 2 × SP ₀ −PV + α _H

Here, α _H is a correction value, and 4 ° Cdeg. Is an optimum value from the results of experiments. In this calculation, the maximum value of the supply air set temperature SP is set to 40 ° C.
When the result of the operation is larger than the maximum value, that is, SP
If ≧ 40 ° C., the maximum value 40 ° C. is output as SP. When the result of the calculation is lower than the return air temperature PV, that is, when SP <PV, the supply air temperature set value SP (゜ C) is calculated by the following equation.

[0016]

## EQU4 ## SP = SP ₀ + α _H / 2

Note that SP, SP ₀ ,
The value of PV is in increments of 0.5 ° C, and fractional values after the decimal point are, for example, in the case of PV, PV ≦ 0.25 →
0.0, 0.25 <PV ≦ 0.75 → 0.5, 0.75
<PV → 1. Further, the above-described air supply set temperature SP
The minimum and maximum values of the correction values α _C and α _H are not limited to the above-mentioned values, but may be appropriately changed according to the scale of the air conditioner, the size of the load, and other site conditions. It is.

Next, the operation in the PI operation unit 6 will be described. Here, _assuming that the current output opening of the valve is Y _n (%), the proportional operation output is P (%), and the integral operation output is I (%), the output opening Y _{n of the} valve is represented by the following equation. become.

[0019]

## EQU5 ## Y _n = P + I

Here, the required range of Y _n (%) is −
100% ≦ Y _n ≦ 100%. Also, the term of the proportional operation output P is as follows.

[0021]

[6] _{P = K c × (e n} -e n-1)

[0022] Here, the K _c control - a Rugein, e _n is present deviation, e _n-1 is the previous deviation. In the first calculation at the time of starting the PI control, it is assumed that en _-1 = 0. The term of the integral operation output I is as follows.

[0023]

Equation 7] _{I = K c × (△ t} / TI) × e n

Here, Δt is a time variation (s), that is, a PI control time. TI is the integration time (s).

Next, a case will be described in which the opening / closing time of the valve is calculated from the current output opening degree of the valve obtained by the PI calculation section 6 from Y _n (%). Closing time t is determined from the valve opening degree Y _n as shown in the following equation.

[0026]

## EQU8 ## t = (Y _n × T) / 100

Here, T is the time (s) required for opening and closing the cold / hot water valve MV1, and according to the obtained value of the opening / closing time t,
Driving of the cold / hot water valve MV1 is performed as follows. First, t
When <-1, the output is closed for t seconds. When t> +1, the output is opened for t seconds. Further, when | t | ≦ 1,
No open / close output. As described above, the present invention employs a so-called cascade control in which the supply air temperature setting value calculation unit 5 and the PI calculation unit 6 are connected in two stages, so that even if there is a delay or dead time on the output side, The delay and the dead time can be minimized, and the responsiveness to a load change is improved.

Next, the automatic setting of the operation mode according to the second aspect of the invention will be described. FIG. 2 is an explanatory diagram showing the procedure of the automatic judgment. Here, the cooling / heating mode determination is automatically performed based on the indoor set temperature and the return air temperature. At the start of the first operation, the indoor set temperature SP ₀ (゜ C) and the return air temperature PV (゜ C)
And if SP ₀ > PV, the heating mode is set. Conversely, if SP ₀ ≦ PV, the cooling mode is set.

Next, the cooling mode is set and the operation starts.
After that, the room set temperature SP₀Dead zone centered on
nf is set in advance, and the return air temperature PV and the indoor set temperature
SP ₀Compare with Here, the return air temperature PV satisfies the following equation.
If so, switch to heating mode operation.

[0030]

## EQU9 ## SP ₀ -PV> nf / 2

Also, during the operation in which the heating mode is set, the return air temperature PV and the indoor set temperature SP ₀ are similarly compared. Here, when the return air temperature PV satisfies the following equation, the operation is switched to the cooling mode operation.

[0032]

## EQU10 ## SP ₀ -PV <-nf / 2

In FIG. 2, the dead zone nf is 2 ° Cdeg.
Mode switching when the setting is made. By incorporating the above-described operation mode setting into the control device shown in FIG. 1, the mode setting is automated, and the operator is relieved from the trouble of setting the mode according to the season and the weather, and is erroneously set. Mode setting is also eliminated.

[0034]

As described above, according to the first aspect of the present invention, the set value of the supply air temperature is calculated based on the preset room temperature and the measured return air temperature.
The opening / closing control of the flow rate adjusting valve for the cold / hot water is performed by the PI operation using the supply air temperature setting value, so that the followability to the fluctuation of the load is improved.

According to the second aspect of the present invention, since the cooling or heating operation mode is automatically set by comparing the return air temperature and the indoor set temperature, manual setting operation is not required, and Mode setting errors are prevented.

[Brief description of the drawings]

FIG. 1 is a system diagram showing a schematic configuration of a control device of an air conditioner to which the present invention is applied.

FIG. 2 is an explanatory diagram showing a mode setting procedure in the present invention.

[Explanation of symbols]

 Reference Signs List 1 fan 2 cold / hot water coil 3 temperature measuring device 4 temperature measuring device 5 supply air temperature set value calculation unit 6 PI calculation unit MV1 cold / hot water valve

Claims (3)

[Claims] 1. A room temperature is forcibly circulated through a chilled / hot water coil to which chilled water or hot water is supplied according to a cooling or heating operation mode, and a flow rate of the chilled / hot water to the chilled / hot water coil is determined by a valve opening of a flow control valve. A control device for the air conditioner to be adjusted, a temperature measuring device for measuring the temperature of the return air drawn into the cold / hot water coil, a temperature measuring device for measuring the temperature of the supply air discharged from the cold / hot water coil, A supply air temperature set value calculation unit that calculates a set value of the air supply temperature based on the returned air temperature and a room temperature input in advance, according to a set cooling or heating operation mode,
A PI operation amount calculation unit that calculates a valve drive amount for causing the flow rate adjustment valve to perform a PI operation using the measured supply air temperature and the supply air temperature set value calculated by the supply air temperature set value calculation unit; An air conditioner control device comprising: 2. The air conditioner control device according to claim 1, wherein the return air temperature and the indoor set temperature are compared at the start of the operation, and when the return air temperature is lower than the indoor set temperature, the heating mode is set.
Otherwise, means for setting the mode as the cooling mode, and during the heating mode operation, the return air temperature and the indoor set temperature are compared, and the return air temperature becomes higher than the indoor set temperature and the return air temperature and the indoor set Means for switching to the cooling mode operation when the temperature difference exceeds a half value of a preset dead zone temperature width; and comparing the return air temperature and the indoor set temperature during the cooling mode operation to return the air. Means for switching to the heating mode operation when the temperature is lower than the indoor set temperature and the difference between the indoor set temperature and the return air temperature exceeds a half of a preset dead zone temperature width. An air conditioner control device characterized by the following. 3. The air conditioner control device according to claim 1, wherein the supply air temperature setting value is SP (ＳＰC) and the indoor temperature setting value is SP.
₀ (゜ C), the return air temperature is PV (゜ C), and the correction value is α (゜ Cdeg.). The supply air temperature set value calculated by the PI operation amount calculation unit is as follows: SP = 2 × SP ₀ An air conditioner control device calculated by −PV + α, wherein the correction value α in the equation is -4 ° Cdeg. In the cooling mode operation and 4 ° Cdeg. In the heating mode operation.