JPH0570057B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a ventilation control device for an air conditioner that provides a comfortable indoor environment.

[Prior Art] An air conditioner uses a fan installed in an indoor unit to take indoor air through a heat exchanger, and returns the air that has been heat-exchanged in the heat exchanger back into the room. Therefore, the indoor environment is controlled. In recent years, in order to make the indoor environment more comfortable, fans have been installed at the top and bottom of the heat exchanger, and a ventilation control device has been installed to control both fans on and off according to the indoor temperature. This changes the overall airflow volume to make the indoor environment more comfortable.

FIG. 5 shows a conventional air blowing control device for an air conditioner disclosed in, for example, Japanese Patent Laid-Open No. 55-112947.

In the figure, 1 is a power switch connected in series to an AC power source 2, and 3 is a thermostat called a dual thermostat that detects the indoor temperature and performs on/off operation. It has two different contacts 3a and 3b. The fixed contact sides of the contacts 3a and 3b are commonly connected to the output side of the power switch 1. Reference numeral 4 denotes a fan motor that is installed in the upper part of the heat exchanger and drives a fan that sends the heat-exchanged air upward, and is connected between the movable contact side of the contact 3a of the thermostat 3 and the AC power supply 1. has been done. A fan motor 5 is provided at the lower part of the heat exchanger and drives a fan that sends heat-exchanged air downward, and is connected between the movable contact side of the contact 3b of the thermostat 3 and the AC power source 1. It is connected to the.

In the ventilation control device configured in this way, when the indoor temperature reaches the first set temperature, the contact point 3a of the thermostat 3 closes, and the fan motor 4 is driven to transfer the indoor air through the heat exchanger. This cycle takes place. Next, when the indoor temperature further rises and reaches the second set temperature, the contact 3b of the thermostat 3 closes, so the fan motor 5
is driven, increasing the amount of indoor air circulated through the heat exchanger. In other words, in this case, air conditioning can be achieved in which the overall amount of air blown increases as the indoor temperature rises.

[Problems to be Solved by the Invention] However, the temperature distribution of the room temperature varies depending on the insulation structure of the room and the building load, even at the same room temperature. For this reason, in the conventional air blower control device of an air conditioner with the above configuration, even if the room temperature reaches the set temperature, it is not possible to accurately grasp the indoor temperature environment. However, there was a problem in that it was not possible to perform optimal ventilation control to create a comfortable indoor environment at all times.

Therefore, this invention was made to solve the above-mentioned problems, and it is an air conditioner that can perform optimal ventilation control to always create a comfortable indoor environment according to various indoor conditions. The purpose is to obtain a ventilation control device.

[Means for Solving the Problems] The air blow control device for an air conditioner according to the first invention includes a first device in the air blow control device that detects the representative temperature of the indoor air circulated by the lower blower and the upper blower. A temperature sensor, a second temperature sensor that detects the temperature near the floor of indoor air, and a representative temperature detected by the first temperature sensor and a preset first temperature are compared, and The temperature near the floor detected by the second temperature detector is compared with a second set temperature set in advance, and the representative temperature is higher than the first set temperature, and the temperature near the floor is lower than the second set temperature. In some cases, the fan control unit is provided to reduce the air volume of the upper blower and to increase the air volume of the lower blower.

A blow control device for an air conditioner according to a second aspect of the present invention includes a first temperature detector that detects a representative temperature of indoor air circulated by a lower blower and an upper blower, and a temperature sensor near the floor of the indoor air. A second temperature sensor detects the temperature, and the representative temperature detected by the first temperature sensor is compared with a preset first set temperature to control the air volume of the upper blower. The fan control section compares the near-floor temperature detected by the temperature detector with a second preset temperature and controls the air volume of the lower blower.

[Function] In the first invention, the lower blower and the upper blower detect the representative temperature detected by the first temperature detector that detects the representative temperature of the indoor air circulating and the preset first set temperature. The temperature near the floor detected by the second temperature detector that detects the temperature near the floor of indoor air is compared with a preset second set temperature, and the representative temperature is determined to be the first set temperature. and when the temperature near the floor is lower than the second set temperature, the air volume of the upper fan is reduced and the air volume of the lower fan is increased, resulting in optimal air blow control for creating a comfortable indoor environment. It will be done.

In the second invention, the lower blower and the upper blower compare the representative temperature detected by the first temperature detector that detects the representative temperature of the indoor air circulated with the preset first set temperature. In addition to controlling the air volume of the upper fan, the air volume of the lower fan is determined by comparing the temperature near the floor detected by a second temperature detector that detects the temperature of indoor air near the floor with a second preset temperature. Since it is controlled, it is possible to obtain optimal ventilation control to create a comfortable indoor environment.

[Embodiment of the Invention] Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

FIGS. 1a and 1b are a rear view and a side view of a floor-standing type indoor unit of a separate air conditioner to which the present invention is applied.

In the figure, 11 is an indoor unit, 12 is a heat exchanger placed approximately in the center of the indoor unit 11, 13 is an indoor air intake port provided in a portion facing the heat exchanger 12, and 14 is a heat exchanger. An upper blower provided at the upper part of the container 12, 15 is an upper blower 1
an upper air outlet provided in a portion facing 4;
1 is a lower blower provided at the bottom of the heat exchanger 14;
Reference numeral 7 denotes a lower air outlet provided in a portion facing the lower blower 16. In addition, 18 is an upper blower 14
19 is a lower fan motor that drives the lower blower 16.

FIG. 2 is a block diagram showing a fan control section that controls the upper fan motor 18 and lower fan motor 19 shown in FIG. 1.

In the figure, 20 is an AC power supply, 21 is a power supply circuit that rectifies the output of the AC power supply 20 and supplies DC power to each circuit, 22 is a microprocessor that constitutes a fan control section, and an input circuit 23. ,
Central processing unit (hereinafter referred to as "CPU") 24,
It is composed of a memory 25 and an output circuit 26. 27 is a fan motor drive circuit that drives and controls the upper fan motor 18 and the lower fan motor 19 in accordance with the signal supplied from the output circuit 26; 28 is a room temperature detector that detects the representative temperature T ₁ from the intake air; , its output signal is supplied to the input circuit 23 of the microprocessor 22. Reference numeral 29 denotes a floor temperature detector for detecting the temperature T ₂ near the floor surface, and its output signal is supplied to the input circuit 23 of the microprocessor 22.

Next, the operation of the above configuration will be explained with reference to FIG.

FIG. 3 is a flowchart showing control specifications during heating operation in the above embodiment.

First, in step 31, the room temperature detector 28
The representative room temperature T ₁ detected by
This is read into the CPU 24, and in step 32, the reference air blowing output step numbers of the upper fan motor 18 and the lower fan motor 19 are determined. That is, depending on the number of steps, the upper blower 14 and the lower blower 16
The air blowing capacity is determined, and it is assumed that the higher the number of steps, the higher the air blowing capacity. Next, in step 33, the CPU 24 reads the representative room temperature _T1 and the first set temperature as a preset threshold.
If T ₁ < _Ta , the process proceeds to step 34, and if _{T 1 ≧ Ta,} the process proceeds to step 36. step
In step 34, the output of the determined number of steps m is outputted from the upper fan motor 18, and in step 35, the output of the determined number of steps n is supplied from the output circuit 26 to the fan motor drive circuit 27.
Steps by controlling the rotation of the lower fan motor 19
Return to 31. In step 36, the floor temperature sensor 29
The temperature _T2 near the floor surface detected in step 37 is read into the CPU 24 via the input circuit 23.
, the temperature T ₂ near the floor surface is compared with a second set temperature difference T _c as a threshold value. And T ₂ ≧T _c
If so, proceed to step 34, and if T ₂ ≧T _c does not hold, proceed to step 38. In step 38, the value of m is decreased by one step and the process proceeds to step 39. In step 39, the value of n is increased by one step and the process proceeds to steps 34 and 35. And in step 34,
Lower the output of the upper fan motor 18 and proceed to step 35.
In step 31, the output of the lower fan motor 19 is increased to change the ratio of the blowing capacities of the lower blower 16 and the upper blower 14, and then the process returns to step 31.

That is, the representative room temperature T ₁ is compared with the first set temperature T _a , and the near-floor temperature T ₂ is compared with the second set temperature T _c
The air blowing capacity ratio of the upper blower 14 and the lower blower 16 is changed.

In the above embodiment, a case has been described in which the output ratio of the upper fan motor 18 and the lower fan motor 19 is controlled based on the temperature difference between the representative room temperature T ₁ and the near-floor temperature T ₂ . As _shown in the flowchart showing _the control specifications during heating operation in another embodiment shown in FIG. ₁ > T _a , T ₁ = T _a , T ₁ < T _a ), the output step number m of the upper fan motor 18 is determined, and the difference between the near-floor temperature T ₂ and the second set temperature T _c is determined. Even in the case where the number of output steps n of the lower fan motor 19 is determined and the air blowing capacities of the upper blower 14 and the lower blower 16 are controlled as three types, the same effects as in the above embodiment can be obtained.

As described above, the air blowing control device for an air conditioner according to the present embodiment includes a heat exchanger 12 built in opposite to the suction port 13 provided at the front center of the main body of the indoor unit 11, and the heat exchanger 12. Suction port 1 facing
3, a lower outlet 17 provided at the lower part of the suction port 13 facing the heat exchanger 12, and a lower outlet 17 provided inside the upper outlet 15 to circulate indoor air. It includes an upper blower 14, a lower blower 16 that is provided inside the lower outlet 17 and circulates indoor air, and a blower control device that controls the lower blower 16 and the upper blower 14, and the blower control device includes: , a first temperature detector 28 that detects the representative temperature of the indoor air circulated by the lower blower 16 and the upper blower 14, a second temperature sensor 29 that detects the temperature near the floor of the indoor air, and a first temperature sensor 29 that detects the temperature of the indoor air near the floor. The representative temperature detected by the temperature detector 28 is compared with a preset first set temperature, and the near-floor temperature detected by the second temperature detector 29 is compared with the preset second set temperature. In comparison, the representative temperature is higher than the first set temperature, and the temperature near the floor is higher than the second set temperature.
The fan controller 22 is provided to reduce the air volume of the upper blower 14 and increase the air volume of the lower blower 16 when the temperature is lower than the set temperature. This can be considered as an embodiment of the first invention.

Therefore, when the representative temperature of the indoor air is higher than the first preset temperature and the temperature near the floor is lower than the second preset temperature, the air volume of the upper blower 14 is reduced, Since the air volume of the lower blower 16 is controlled to increase, even if the temperature difference between the representative temperature of the indoor air and the temperature near the floor is large, when the representative temperature of the indoor air is low, cold air is always blown to the feet. This provides an air blow control device for an air conditioner that does not.

In addition, the representative temperature of the indoor air and the temperature near the floor are compared with the first and second set temperatures set respectively, and the upper blower 1
4 and the air volume of the lower blower 16, the air conditioner's air blowing control is highly reliable because it accurately grasps and controls the temperature environment even if the temperature distribution of the indoor air changes in various ways. A device is obtained.

In addition, the air blowing control device of the air conditioner of this embodiment has a built-in heat exchanger 1 facing the suction port 13 provided in the front center of the main body of the indoor unit 11.
2, an upper outlet 15 provided at the upper part of the inlet 13 facing the heat exchanger 12, and the heat exchanger 1.
2, an upper blower 14 provided inside the upper air outlet 15 to circulate indoor air, and an upper blower 14 provided inside the lower air outlet 17 to circulate indoor air. It includes a lower blower 16 that circulates air, and a blower control device that controls the lower blower 16 and the upper blower 14,
The ventilation control device includes:
A first temperature detector 2 that detects the representative temperature of indoor air circulated by the lower blower 16 and the upper blower 14.
8, a second temperature detector 29 that detects the temperature near the floor of the indoor air, and a representative temperature detected by the first temperature detector 28 and a preset first set temperature are compared and the upper blower is 14, and a fan control unit that controls the air volume of the lower blower 16 by comparing the near-floor temperature detected by the second temperature detector 29 with a second preset temperature. It is something to do. This can be an embodiment of the second invention.

Therefore, in this embodiment as well, substantially the same effects as in the former embodiment can be obtained.

[Effects of the Invention] As described above, according to the air blowing control device for an air conditioner of the present invention, the representative temperature of the indoor air is higher than the preset first temperature, and the near-floor temperature is preset. When the temperature is lower than the second set temperature,
Since the air volume of the upper blower is decreased and the air volume of the lower blower is increased,
To provide an air blowing control device for an air conditioner that does not always blow cold air to the feet when the representative temperature of the indoor air is low even if the temperature difference between the representative temperature of the indoor air and the temperature near the floor is large.

In addition, the representative temperature of the indoor air and the temperature near the floor are compared with the first and second set temperatures respectively, and the air volume of the upper fan and the air volume of the lower fan are controlled according to the respective temperature differences. Therefore, even if the temperature distribution of the indoor air changes in various ways, a highly reliable air blowing control device for an air conditioner that can accurately grasp and control the temperature environment can be obtained.

[Brief explanation of drawings]

Figures 1a and 1b are front and side views of an indoor unit showing a blower control device for an air conditioner according to an embodiment of the present invention, and Figure 2 is a control system for the fan motor shown in Figures 1a and 1b. 3 is a flowchart showing the operation of the circuit shown in FIG. 2, FIG. 4 is a flowchart showing another embodiment of the present invention, and FIG. 5 is a flowchart showing a conventional air blowing control device for an air conditioner. FIG. In the figure, 11: indoor unit, 12: heat exchanger, 13: suction port, 14: upper blower, 15:
Upper air outlet, 16: Lower blower, 17: Lower air outlet, 18: Upper fan motor, 19: Lower fan motor, 22: Microprocessor (fan control unit), 23: Input circuit, 24: Central processing unit ( CPU), 27: Fan motor drive circuit, 2
8: room temperature detector; 29: floor temperature detector.
In addition, in the drawings, the same reference numerals and symbols indicate the same or equivalent parts.

Claims (1)

[Scope of Claims] 1. A built-in heat exchanger facing a suction port provided at the center of the front of the indoor unit main body, and an upper blower provided above the suction port facing the heat exchanger. an outlet, a lower blower outlet provided at the lower part of the suction port facing the heat exchanger, an upper blower provided inside the upper blower outlet to circulate indoor air, and an upper blower provided inside the lower blower outlet. A blower control device for an air conditioner includes a lower blower that is provided to circulate indoor air, and a blower control device that controls the lower blower and the upper blower, the blower control device including a lower blower and a blower control device that controls the lower blower and the upper blower. a first temperature sensor that detects a representative temperature of the indoor air that is circulated by the upper blower; a second temperature sensor that detects the temperature of the indoor air near the floor; Compare the detected representative temperature with a preset first set temperature, and
The temperature near the floor detected by the temperature sensor is compared with a preset second set temperature, and the representative temperature is higher than the first set temperature, and the temperature near the floor is higher than the second set temperature. An air blow control device for an air conditioner, comprising: a fan control section that controls to reduce the air volume of the upper blower and increase the air volume of the lower blower when the temperature is lower than a set temperature. 2. A built-in heat exchanger facing the suction port provided at the center of the front surface of the indoor unit main body, an upper air outlet provided at the top of the suction port facing the heat exchanger, and the heat exchanger a lower air outlet provided at the lower part of the suction port facing the container; an upper blower provided inside the upper air outlet to circulate indoor air; and an upper blower provided inside the lower air outlet to circulate indoor air. A blower control device for an air conditioner including a lower blower that circulates and a blower control device that controls the lower blower and the upper blower, wherein the blower control device includes a lower blower that circulates and a blower control device that controls the lower blower and the upper blower. a first temperature sensor that detects the representative temperature of the indoor air; a second temperature sensor that detects the temperature near the floor of the indoor air; and the representative temperature detected by the first temperature sensor. The air volume of the upper blower is controlled by comparing the temperature with a preset first set temperature, and the temperature near the floor detected by the second temperature detector is compared with the preset second set temperature. A fan control unit for controlling the air volume of the lower blower by comparison.