JP2019174103A - Air conditioning system - Google Patents

Abstract

To provide an air conditioning system capable of alleviating a draft feeling by automatically adjusting an air amount of a blower.SOLUTION: An air conditioning system includes: an air mixture box having an outside air introduction port and an inside air introduction port, and for mixing the air introduced from the outside air introduction port and the air introduced from the inside air introduction port; an air conditioner; a plurality of conveyance fans for conveying the air inside the air mixture box to a plurality of habitable rooms, and provided corresponding to the plurality of habitable rooms respectively; an intake air temperature sensor; a conveyance air temperature sensor; and a system controller for controlling the air amount of the conveyance fan. The air conditioning system also includes a fan air amount control part for controlling the air blowing amount of the conveyance fans based on the intake air temperature, conveyance air temperature and a predetermined threshold value.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an air conditioning system.

Conventionally, air-conditioning is performed with a duct-type whole-building air conditioning system for a residence.
For example, in the air conditioning in the entire building air conditioning system, the return air in the room is cooled or heated by the entire building air conditioner installed in the machine room, and conveyed to each room by a duct. The indoor temperature is measured by, for example, a temperature controller (hereinafter, thermostat). A thermostat is installed in the room. When the set temperature and the room temperature deviate, the air conditioner is operated. When the room temperature reaches the set temperature, the air conditioner is stopped. In this case, the air conditioning cannot be controlled for each room, and the operation / stop control is performed based on the measured temperature at the place where the same thermostat is installed. Therefore, the temperature adjustment in the room where the thermostat is not installed is successful. In addition, with the increasing demand for energy-saving houses and stricter regulations, it is expected that highly heat-insulated and air-tight houses will increase, and a ventilation air-conditioning system suitable for these features is desired.

  For example, outside air and room air are taken into an air conditioning room independent from the living room, and the air conditioning room is air-conditioned to an arbitrary temperature by an air conditioner provided in the air conditioning room. An air conditioning system to which conditioned air is supplied is known (Patent Document 1).

JP 2011-174664 A

  In such a conventional air conditioning system, even after the room temperature reaches the set temperature, a strong air flow for approaching the set temperature is constantly supplied to each room, so the comfort of the entire building air conditioning is impaired by the draft feeling. There is a problem of being.

  Therefore, the present invention solves the above-described problem, and an object thereof is to provide an air conditioning system that can reduce the draft feeling by adjusting the amount of air supplied by the transport fan in accordance with the operating state of the air conditioner. To do.

  In order to achieve this object, the present invention has an outside air introduction port for introducing outside air and an inside air introduction port for introducing indoor air, and the air introduced from the outside air introduction port, An air mixing box that mixes air introduced from the inside air inlet, an air conditioner that adjusts the temperature of air in the air mixing box, and air in the air mixing box that is independent of the air mixing box A plurality of transfer fans provided corresponding to each of the plurality of rooms, transported to a plurality of rooms, an intake air temperature sensor for detecting the temperature of air introduced through the inside air inlet, and the room And a system controller for controlling the air volume of the transport fan, wherein the system controller includes the intake air temperature sensor. The air conditioning system includes a fan air volume control unit that controls the air flow rate of the transport fan based on the intake air temperature detected by the transport air temperature, the transport air temperature detected by the transport air temperature sensor, and a predetermined threshold value. The purpose of the period is achieved.

  ADVANTAGE OF THE INVENTION According to this invention, the air conditioning system which can relieve a draft feeling can be provided by adjusting the supply air volume by a conveyance fan according to the driving | running state of an air conditioner.

Schematic which shows the whole structure of the air conditioning system which concerns on embodiment of this invention. The functional block diagram of a system controller.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the air conditioning system 1 according to the present embodiment includes an air mixing box 9, an air conditioner 2, a transport fan 3, an intake air temperature sensor 15, a transport air temperature sensor 16, and a system. And a controller 6.

  The air conditioning system 1 is installed and operates in a house 8 having a high heat insulation and high airtight structure including, for example, a plurality of rooms 7 (rooms 7a to 7d).

  The house 8 is provided with at least one air mixing box 9 spatially independent from the other plurality of living rooms 7.

  The air mixing box 9 has a heat insulating structure in the housing, can be installed in an indoor living room or outdoors, and includes an air conditioner 2 and an air conditioner remote controller 10 inside. The air mixing box 9 includes a plurality of transfer fans 3, an outside air introduction port 22, and an inside air introduction port 13.

  The transport fan 3 is provided on the side surface of the air mixing box 9 such that the suction port of the transport fan 3 is inserted in a direction orthogonal to the blowing direction of the air conditioner 2. The conveyance fan 3 is a fan for conveying the air in the air mixing box 9 to the plurality of living rooms 7. A plurality of transfer fans 3 (transfer fans 3 a to 3 d) are provided, and are connected to the plurality of living rooms 7 on a one-to-one basis via air supply ducts 11, respectively. That is, the living room 7a and the air mixing box 9 are connected via the air supply duct 11a, and the air in the air mixing box 9 is transported through the air supply duct 11a to the living room 7a via the transport fan 3a. The same applies to the other transport fans 3b, 3c, and 3d. The transport fan 3 is a sirocco fan and has a constant air volume control function.

  The air supply duct 11 (air supply ducts 11a to 11d) is connected to the plurality of living rooms 7 (7a to 7d) in a one-to-one relationship, that is, independently. In other words, the air mixing box 9 and each room 7 are connected via the air supply duct 11, but can be made into independent and independent spaces that can stop the air flow by stopping the fan. .

  The outside air introduction port 22 is connected to the air supply fan 5 through the air supply duct 14. That is, the air supply fan 5 introduces outside air into the air mixing box 9. In addition, when the air mixing box 9 is installed outdoors, the air supply fan 5 and the air supply duct 14 are not necessarily required, and may be provided with an outside air inlet as an opening.

  The inside air introduction port 13 is provided as a blowout port for blowing out air sent to the air mixing box 9 through the ventilation duct 21.

  The living room 7 (7a to 7d) is provided with an air outlet 12 (air outlets 12a to 12d) for blowing out air sent from the air mixing box 9 through the air supply duct 11. Further, the living room 7 is provided with a ventilation port 23 (ventilation ports 23a to 23d) for blowing indoor air to the air mixing box 9. Each ventilation port 23 is connected to a ventilation duct 21, and the ventilation duct 21 is connected to an air supply fan 4 for drawing air from the room into the air mixing box 9. The air supply fan 4 draws the air in the room 7 from the inside air inlet 13 into the air mixing box 9 through the ventilation duct 21.

  The air conditioner 2 corresponds to an air conditioner (air conditioner) or the like, and is a device capable of controlling the internal space temperature of the air mixing box 9. An air conditioner remote controller 10 is connected to the air conditioner 2, and the user sets and changes environmental elements (temperature, humidity, etc.) that can be controlled by the air conditioner 2 via the air conditioner remote controller 10. The air conditioning environment in the mixing box 9 can be changed.

  The air supply fan 4 is a fan for drawing (conveying) the air in the plurality of living rooms 7 into the air mixing box 9. The supply fan 4 has a chamber 20 connected to the suction port.

  The air supply fan 5 is a fan for drawing (conveying) outdoor air into the air mixing box 9.

  The system controller 6 is connected to the transport fan 3, the intake air temperature sensor 15, and the transport air temperature sensor 16 so that they can communicate with each other by wire or wirelessly. As shown in FIG. 2, the system controller 6 includes a take-in interval acquisition unit 17, an air flow determining unit 18, and a fan air volume control unit 19.

  The intake air temperature sensor 15 is installed, for example, at the center of the inside air inlet 13 and acquires the temperature of the intake air introduced (conveyed) from the living room 7 to the air mixing box 9.

  The carrier air temperature sensor 16 is installed at the center of the suction ports of the plurality of carrier fans 3, and acquires the temperature of the carrier air conveyed from the air mixing box 9 to the living room 7. For example, when the number of the transport fans 3 is an odd number, the transport air temperature sensor 16 is located between the suction port and the center position of the suction port.

  The blower amount determination unit 18 is configured to transfer the transport fan 3 based on the temperature difference between the temperatures acquired by the intake air temperature sensor 15 and the transport air temperature sensor 16 and a predetermined threshold value set in advance in the system controller 6. Determines the amount of air to be blown into the living room 7.

  The fan air volume control unit 19 transmits air volume information to each transport fan 3 so as to operate with the air volume determined by the air flow determining unit 18 and controls the air flow to the plurality of living rooms 7.

  The take-in interval obtaining unit 17 can set the take-in interval at which the air flow determining unit 18 obtains temperature information from the take-in air temperature sensor 15 and the carrier air temperature sensor 16, that is, set in the take-in interval obtaining unit 17. At the intervals, the air blowing amount determining unit 18 determines the air blowing amount.

  Next, the processing of the system controller 6 will be specifically described. In addition, the following processes are heating periods, for example, the intake air temperature taken in from the intake air temperature sensor 15 is 20 degrees, the carrier air temperature taken in from the carrier air temperature sensor 16 is 22 degrees, Assume that the threshold is 3 degrees.

  In this case, the air flow determining unit 18 obtains a difference (temperature difference) between the intake air temperature of 20 degrees and the carrier air temperature of 22 degrees, and this difference is 2 degrees and is equal to or less than a predetermined threshold of 3 degrees. Thus, the air volume that the conveying fan 3 blows into the plurality of living rooms 7 is determined. Here, the range of the amount of air blown by the transport fan 3 is the range of the maximum amount of air that the transport fan 3 can blow from the smallest non-zero amount of blowable air that the transport fan 3 can blow. In other words, when the temperature difference between the intake air temperature and the carrier air temperature is equal to or smaller than the predetermined threshold, the fan air volume control unit 19 blows with the smallest air volume without stopping the carrier fan 3. Here, the smallest air flow rate is the smallest air flow rate that is not zero among the air flow rates that can be set by the user or the system for the transport fan 3. In the present embodiment, if it is possible to switch between two levels of strong and weak air flow of the transport fan 3, the smallest non-zero air flow rate is weak.

  As described above, the temperature difference between the intake air temperature and the carrier air temperature is obtained, and when this temperature difference is small, the temperature change in the room is small, that is, the temperature of the room is small even with a small air volume. It can be judged that it can be maintained. In other words, since it can be determined that a large air volume is not necessary to maintain the temperature of the living room, it is possible to reduce the draft feeling due to the air flow by reducing the air volume. That is, it is possible to prevent the user from feeling chilly by blowing a large amount of air to the person during the heating period or stirring the air in the room.

  Further, it is assumed that the intake air temperature is 18 degrees and the carrier air temperature is 22 degrees. In this case, the blast volume determining unit 18 obtains a difference between the intake air temperature of 18 degrees and the carrier air temperature of 22 degrees, and this difference is 4 degrees, which is larger than a predetermined threshold value of 3 degrees. 7, the air volume of the conveying fan 3 that blows air is increased.

  As described above, the temperature difference between the intake air temperature and the carrier air temperature is obtained. If this temperature difference is large, the temperature change in the room is large, that is, if the air volume is not large, the room temperature is maintained. Judge that it is not possible. In this case, priority is given to maintaining the temperature in the living room over suppressing the draft feeling.

  In the above example, the air volume of the transport fan 3 is switched in two stages and the threshold is set to one. However, the transport fan 3 that can be controlled in multiple stages is adopted, a plurality of predetermined thresholds are set, and each threshold is set to each threshold. Based on this, the air volume of the conveying fan 3 may be set. For example, the user or the system can set 10 levels of airflow from the airflow 1 to the airflow 10 for the transport fan 3, and the airflow increases in order from the airflow 1 to the airflow 10. . Then, a plurality of threshold values 1 to 9 are set, and threshold value 1 <. In this case, if the temperature difference between the intake air temperature and the carrier air temperature is smaller than the smallest threshold 1, the air flow rate is set to 1. When the temperature difference is larger than the threshold value 1, it is further compared with the threshold value 2. When the temperature difference is smaller than the threshold value 2, the air flow rate is set to 2. This process is compared with a maximum threshold value, for example, up to threshold value 9, and if the temperature difference is larger than threshold value 9, the air flow rate is set to 10.

  However, no matter how many times the predetermined threshold value is, there is no change in that air is blown with the smallest blown amount without stopping the transport fan 3. In the above example, the smallest blown air amount is 1.

  Further, in the above example, the air conditioner 2 has the intake air temperature lower than the carrier air temperature, that is, the heating operation is shown. Since the blast volume is determined based on the absolute value, it can be similarly controlled during the cooling operation.

  Further, the intake air temperature sensor 15 may be provided in the living room and in the duct connecting the living room and the air mixing box 9, the entrance of the ventilation opening 23, the vicinity of the ventilation opening 23, or the air mixing box 9. When provided in the duct, a duct independent of the other rooms may be provided, or provided on the room side from the branch point where the air from the other rooms joins (mixes).

  Furthermore, the carrier air temperature sensor 16 may be provided in the living room and in the duct connecting the living room and the air mixing box 9 or the vicinity of the outlet 12 and the outlet 12.

  As a result, the temperature can be acquired at a location closer to the user, and control for suppressing the draft feeling can be performed accurately.

  Further, in the above description, the conveyance fan 3 and the plurality of living rooms 7 correspond to each other, but by adjusting the pressure loss of the air supply duct 11, a branch pipe is provided between the single conveyance fan 3 and the plurality of living rooms 7. The same air-conditioning control is possible even if the flow is divided using such means.

  In the above description, the conveyance fan 3 is a sirocco fan, but if a propeller fan and a turbo fan are used, when trying to obtain the same air volume and static pressure as the sirocco fan, the blade diameter increases or the rotational speed increases, so This is because the box 9 becomes larger and the noise increases.

  In addition, in the above description, the conveyance fan 3 blows with the smallest amount of airflow regardless of the threshold value without stopping, but the ventilation to the living room is also stopped by stopping.

  In the above description, the air in the plurality of living rooms 7 is merged in the chamber 20 via the ventilation duct 21, but when the plurality of living rooms 7 communicate with each other by undercut or the like, the ventilation duct 21 is connected to the living rooms 7a to What is necessary is just to install in 7d.

  In addition, in the said embodiment, although shown as the living room 7, the living room 7 does not necessarily need to have a person and can be regarded as one space. That is, if the corridor and the kitchen are also divided to some extent, it can be regarded as one space and corresponds to one living room. Moreover, in the schematic diagram which shows the whole structure of the air-conditioning system based on this Embodiment, although the system controller 6 is arrange | positioned in the living room 7a, the conveyance fan 3, the intake air temperature sensor 15, the conveyance air temperature sensor 16, and wired Or if it is the range which can communicate by radio | wireless, there will be no problem even if it arrange | positions anywhere in the house 8. FIG.

  Since the air conditioning system according to the present invention changes the amount of air supplied to the room in accordance with the intake air temperature and the carrier air temperature, the set temperature can be maintained while suppressing the draft feeling generated in the room.

DESCRIPTION OF SYMBOLS 1 Air conditioning system 2 Air conditioner 3, 3a, 3b, 3c, 3d Conveyance fan 4, 5 Air supply fan 6 System controller 7, 7a, 7b, 7c, 7d Living room 8 House 9 Air mixing box 10 Air conditioner remote control 11, 11a, 11 b, 11 c, 11 d Air supply duct 12, 12 a, 12 b, 12 c, 12 d Air outlet 13 Inside air inlet 14 Air supply duct 15 Intake air temperature sensor 16 Conveyance air temperature sensor 17 Intake interval acquisition unit 18 Blow rate determination unit 19 Fan air volume control unit 20 Chamber 21 Ventilation duct 22 Outside air introduction port 23, 23a, 23b, 23c, 23d Ventilation port

Claims (9)

Air that has an outside air introduction port for introducing outside air and an inside air introduction port for introducing indoor air, and mixes the air introduced from the outside air introduction port and the air introduced from the inside air introduction port A mixing box;
An air conditioner for adjusting the temperature of the air in the air mixing box;
A plurality of transport fans provided corresponding to each of the plurality of rooms, for transporting the air in the air mixing box to a plurality of rooms independent of the air mixing box;
An intake air temperature sensor for detecting the temperature of air introduced through the inside air inlet;
A carrier air temperature sensor for detecting the temperature of the air carried into the living room;
A system controller for controlling the air volume of the transfer fan,
The system controller is
An air conditioner including a fan air volume control unit that controls the air flow rate of the transfer fan based on the intake air temperature detected by the intake air temperature sensor, the transfer air temperature detected by the transfer air temperature sensor, and a predetermined threshold value. system. The fan air volume control unit
2. The air conditioning system according to claim 1, wherein when the temperature difference between the intake air temperature and the carrier air temperature is equal to or less than a predetermined threshold A, the air flow is set to the smallest amount without blowing the carrier fan. The intake air temperature sensor is
The air conditioning system of Claim 1 or 2 provided in the duct which connects the said living room or the said living room, and the said air mixing box. The carrier air temperature sensor
The air conditioning system in any one of Claim 1 to 3 provided in the duct which connects the said living room or the said living room, and the said air mixing box. The air conditioning system according to any one of claims 1 to 4, further comprising an air supply fan that draws air into the air mixing box from the outside air introduction port. The air conditioning system according to any one of claims 1 to 5, further comprising an air supply fan that draws air into the air mixing box from the inside air introduction port. The air mixing box is
The air conditioning system according to any one of claims 1 to 6, wherein the air conditioning system has a heat insulating structure and can be installed indoors or outdoors. The fan air volume control unit
When the temperature difference between the intake air temperature and the carrier air temperature is higher than a predetermined threshold A, the amount of air blown from the carrier fan is set to the amount of air blown based on the temperature difference. The air conditioning system described. The system controller is
The air conditioning system according to any one of claims 1 to 8, wherein an intake interval of temperature from the intake air temperature sensor and the carrier air temperature sensor can be arbitrarily changed.