JP3518015B2 - Ventilation 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 ventilation air conditioner which is mainly applied to a highly airtight and highly heat insulating house for performing ventilation and air conditioning of a plurality of zones of a house by itself.

[0002]

2. Description of the Related Art Japanese Patent Publication No.
As shown in Japanese Patent Publication No. 5, there is one that has both a heat exchange ventilation function and an air conditioning function. In both cases, the main body of the ventilation air conditioner is installed in one zone of the house, equipped with ventilation and air conditioning capacity that can handle the entire load of the house, and fresh air taken from outside the room into each zone by an air supply duct and indoors. The system is configured to supply the respective processing air mixed with the air. For example, Japanese Patent Laid-Open No. 2-195146
According to the publication, a system is configured so that hot air or cold air generated by a heat source generator with a variable capacity incorporated in a main body is supplied to each zone via a duct by a blower with a variable capacity.

As a control device for operation of such a ventilation air conditioner, a control device conventionally used for a general air conditioner having only an air conditioning function is often applied as it is. That is, <1> JP-A-61-1
1843, <2> JP-A-62-190342, <3> JP-A-4-236050, <4> JP-A-4-180500, and <5> JP-A-6-3418.
1 and <6> Japanese Patent Laid-Open No. 6-42803, each of which uses a control device.

According to <1> of the above publication, a plurality of temperature differences are detected by detecting a temperature difference between a set temperature to be set and a detected actual temperature and depending on the length of time until the actual temperature reaches the set temperature. The control zone is set and the voltage applied to the air conditioner blower is controlled corresponding to each control zone. <2>
According to the method described above, a plurality of control zones are set depending on whether the room temperature is a down slope or an up slope, and the frequency of the air conditioner blower is controlled depending on whether the room temperature is exceeded. <3> ~
The method according to <6> uses a fuzzy operation, which is divided into good, slightly different, and different according to the temperature difference, and further temperature control is performed by combining the temporal change rate of the previous temperature difference. There is.

In addition, the heat source generator is controlled, or both the heat source generator and the air conditioner blower are controlled to reach the set temperature as disclosed in Japanese Patent Laid-Open No. 25040/1990. There are also things. This focuses on the fact that the cooling / heating capacity correlates with the amount of the heat source from the heat source generator and the air volume of the air conditioner blower, and controls the flow rate of the heat source and the air volume in association with each other.

In addition to the above, there is one in which ventilation and air conditioning are associated with each other. This type controls the air-conditioning operation and the ventilation fan so as to have an interlocking relation or an independent relation as shown in JP-A-1-256748 and JP-A-4-110553. In the ventilation mode operation, a method of controlling the ventilation blower to operate strongly is adopted.

[0007]

In the conventional control device as described above, the state quantity relating to temperature is controlled in accordance with the control function of the air conditioning related to cooling and heating, but the state quantity relating to ventilation is controlled. There is a problem that it is difficult to obtain a highly comfortable ventilated air-conditioning atmosphere in a highly airtight house because it is out of the control target or is controlled separately from the air conditioning.

That is, in a highly airtight house, the ventilation depends almost entirely on the ventilation device, so it is necessary to give sufficient consideration to the ventilation. However, when the outside air taken in for ventilation is directly processed as processing air for air conditioning and is supplied to each zone, if the air conditioning blower stops due to temperature control, the processing air is supplied by the air conditioning blower. The supply of fresh air to the existing zone will also be stopped. JP-A-4-324
Japanese Patent No. 042 discloses a technique for eliminating such inconvenience.

This is because when the room temperature in all zones reaches the set temperature and all the air conditioner blowers are stopped, the air conditioner blowers are forcibly operated with weak notches to continue the supply of fresh outside air. However, there is a drawback that outside air cannot be introduced into other zones that have already reached the set temperature while one of them does not reach the set temperature.

[0010] Japanese Patent Laid-Open No. 1-25 relating to ventilation and air conditioning
The techniques disclosed in Japanese Patent No. 6748 and Japanese Patent Laid-Open No. 4-110553 cannot be applied to a ventilation air conditioner that performs ventilation and air conditioning for the entire house with a single ventilation air conditioner. That is, unless the ventilation mode operation is requested from all zones, the operation cannot be performed sufficiently and the ventilation and air conditioning cannot be adjusted.

The present invention has been made in order to solve the above-mentioned conventional problems. The problem is that the ventilation function and the air conditioning function are combined to provide a ventilation air conditioner for performing ventilation air conditioning in a plurality of zones. It is to make the air conditioning function and the ventilation function work in harmony so that a more comfortable ventilation air conditioning atmosphere can be formed, and to reduce the power consumption and operating noise of the ventilation air conditioning device. It is to improve the dehumidification function.

[0012]

[Means for Solving the Problem] Outside air taken in by an air blower with variable air flow and indoor air exhausted by an air blower with variable air flow are heat-exchanged by a heat exchanger for ventilation, and after heat exchange. The outside air of the house is supplied as it is together with the air inside the house to the air conditioning function part of multiple systems equipped with an air conditioner blower with variable air volume and an air conditioning heat exchanger that processes the air flow formed by this air conditioner blower. Controls the operation of each air conditioner blower in the air conditioning function part and the heat source generator that supplies the heat source to the air conditioning heat exchanger to the device body configured to supply the processing air formed by the air conditioning function part to the zone respectively. The control device is installed, and the control device is connected to the controller arranged in each zone corresponding to each air conditioning function unit, and the setting set by this controller by the control device. Control the air conditioner blower and the heat source generator so that the indoor temperature in which the controller is installed at the same time, and depending on the number of operating air conditioner blowers by the controller, the air volume of the air supply blower and the exhaust air blower A means for controlling so as to increase or decrease is adopted.

[0013] The outside air taken in by the air blower with variable air volume and the air in the house exhausted by the air blower with variable air volume are heat-exchanged by the heat exchanger for ventilation.
The outside air after heat exchange is sent to the air conditioning function unit of multiple systems with a dehumidification function that has a variable air volume air conditioning blower and an air conditioning heat exchanger that processes the air flow formed by this air conditioning blower together with the air inside the residence. Supplying the same as it is, supplying the processing air formed by the air conditioning function unit to each zone of the house, and supplying the heat source to the operation of each air conditioning fan of the air conditioning function unit and the heat exchanger for air conditioning. It incorporates a control device that controls the heat source generator, and connects the control device to the controller located in each zone corresponding to each air conditioning function unit to set the temperature set by the controller by the controller. The air conditioner blower and the heat source generator are controlled so that the room temperature in which the controller is installed matches, and the controller can be used depending on the number of operating air conditioner blowers. When the air volume of the air supply blower and exhaust air blower is increased / decreased, and when a dehumidifying operation command is received from the controller, the heat source generator for cooling and the air blower for air conditioning are forcibly operated to perform dehumidifying operation. A means for controlling to reduce the air volume of the exhaust fan and the exhaust fan is adopted.

[0014]

The outside air taken in by the operation of the air supply blower and the air in the house exhausted by the operation of the exhaust air blower are heat-exchanged by the ventilation heat exchanger. The outside air after heat exchange is mixed with the air in the house taken in by the operation of the air conditioning function unit, and is supplied to each zone of the house as processing air by the air conditioning function unit. At this time, the control device incorporated in the main unit of the air conditioner controls the air conditioner so that the room temperature in which the controller is installed matches the set temperature, based on the information obtained from the controller arranged in each zone corresponding to each air conditioning function unit. Control the blower and heat source generator. At that time, the ventilation volume is adjusted by increasing or decreasing the air volume of the air supply blower and the exhaust air blower according to the number of operating air conditioning blowers by the controller.

The ventilation air heat exchanger exchanges heat between the outside air taken in by the operation of the air supply blower and the air in the house exhausted by the operation of the exhaust air blower. The outside air after the heat exchange is mixed with the air in the house taken in by the operation of the air conditioning function unit, and is supplied to each zone of the house as processing air by the air conditioning function unit. At this time, the control device incorporated in the main unit of the air conditioner controls the air conditioner so that the room temperature in which the controller is installed matches the set temperature based on the information obtained from the controller arranged in each zone corresponding to each air conditioning function unit. Control the blower and heat source generator. At that time, the ventilation volume is adjusted by increasing or decreasing the air volume of the air supply blower and the exhaust air blower according to the number of operating air conditioning blowers by the controller. Also, when there is a dehumidifying operation command from the controller, the heat source generator for cooling and the air conditioner blower are forcibly operated to perform dehumidifying operation, and along with this, the air volume of the air supply blower and exhaust air blower is reduced. Let

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. Example 1. FIG. 1 is a configuration diagram showing a ventilation air conditioning system to which a ventilation air conditioning device is applied as an embodiment of the present invention. First, the device main body 1 of the ventilation air conditioner, which is the main body of the ventilation air conditioning system, will be described with reference to FIG. The device main body 1 of this ventilation air conditioner has a configuration in which a ventilation part 2 and an air conditioning part 3 are provided adjacent to each other, and has the ability to ventilate and air-condition the whole house, and is a space above the ceiling in a specific zone (room) A of the house It is installed by using such as.

The house has a highly airtight and highly heat-insulating structure, and the ventilation function of the apparatus body 1 depends on the formation of the ventilation atmosphere. The ventilation part 2 has an exhaust passage provided with an exhaust blower 4 that forms an exhaust flow that exhausts the air inside the house to the outside of the house,
An air supply passage provided with an air supply blower 5 that forms an air supply flow for supplying air outside the house into the house; and a ventilation heat exchanger 6 that performs heat exchange between the exhaust air flow and the air supply flow. Is equipped with.

The air conditioning unit 3 is housed in a single main body casing adjacent to the ventilation unit 2 together with the ventilation unit 2, and is composed of a plurality (two in the illustrated example) of air conditioning functional bodies 7 arranged in parallel. Each air-conditioning function body 7 is provided with a processing air passage provided with air-conditioning blowers 8 and 9 of variable air volume that take in air and form an air flow to be blown out to the zones B and C, respectively. It is constituted by the heat exchangers 10 and 11 for air conditioning.

Between the ventilation part 2 and the air-conditioning part 3, an indoor air intake 12 is opened in the ceiling surface of the installation zone A on the lower surface of the main body casing to open to the zone A.
The exhaust passage of the ventilation unit 2 has an exhaust opening formed in a partition wall facing the indoor air intake 12 as an inlet end, and passes through one working fluid passage of the exhaust blower 4 from the ventilation heat exchanger 6 to the main casing. It is configured as a series of passages leading to the outdoor exhaust port opened on one side. The outdoor exhaust port, which is the exit end of the exhaust passage, is provided with a connection port for connecting a duct, and is connected to the outside of the house through the exhaust duct 13. The air supply passage of the ventilation unit 2 has an outside air intake opening at one side of the main body casing as an inlet end, and passes through the air supply blower 5 and the other working fluid passage of the ventilation heat exchanger 6 to the indoor air intake 12
It is configured as a series of passages leading to the air supply opening formed in the partition wall facing the. A connection port for connecting a duct is provided at the outside air intake, which is the inlet end of the air supply passage, and is connected to the outside of the house through the intake duct 14.

The processing air passages of each air conditioning function body 7 of the air conditioning unit 3 have the indoor air intake 12 as an inlet end, pass through the air conditioning heat exchangers 10 and 11, and pass through the air conditioning fans 8 and 9. It is configured as a series of passages to the air supply port opened on the side of the main body casing, and each air supply port is provided with a connection port for connecting a duct, and each of the air supply ducts 15
The respective zones B and C to be supplied are individually communicated via the. When the air conditioning unit 3 is composed of two air conditioning function bodies 7 as shown in the figure, the inlet side of the processing air passage of one air conditioning function body 7 is located on the side corresponding to the exhaust opening of the ventilation unit 2. The inlet side of the processing air passage of the other air conditioning function body 7 is positioned on the side corresponding to the air supply opening of the ventilation section 2. When the air-conditioning unit 3 is composed of two or more air-conditioning function bodies 7, the relationship between the specific air-conditioning function body 7 and the air-conditioning function body 7 that is not so is the above-mentioned ventilation unit 2 side. become.

In the air conditioning function body 7 of this embodiment, each of the air conditioning blowers 8 and 9 is partitioned by a partition plate, and the air conditioning heat exchanger 1
The air conditioning function bodies 7 are configured to share 0 and 11, and the outside air after heat exchange from the ventilation part 2 and the air in the zone A from the indoor air intake 12 are mixed and diverted. Go. The air conditioning heat exchanger 10 is connected to the heating heat source generator 16 and receives a heating heat source such as hot water from the heating heat source generator 16. Further, the heat exchanger 11 for air conditioning is connected to the heat source generator 17 for cooling, and receives the heat source for cooling from the heat source generator 17 for cooling.

A heating heat source or a cooling heat source is circulated to the air conditioning heat exchanger 10 or the air conditioning heat exchanger 11, and the air conditioning fans 8 and 9 are operated to operate the air conditioning unit 3 and the air supply fan 5 When the apparatus main body 1 is operated by operating the exhaust air blower 4 and the exhaust blower 4, the fresh outside air taken in from the air supply passage exchanges heat with the exhaust flow in the ventilation heat exchanger 6, and then is supplied. It is mixed with the air in the zone A that is blown out to the opening and sucked in from the indoor air intake 12, flows into the processing air passage of each air conditioning function body 7, is processed for heating and cooling, and is supplied from the air supply port to the air supply duct. Processing air is supplied to the zones B and C to be supplied via 15. On the other hand, exhaust blower 4
The air in the zone A sucked by the operation of (1) reaches the outdoor exhaust port from the exhaust opening through the ventilation heat exchanger 6, and is exhausted to the outside of the house through the exhaust duct 13. That is, the introduction of fresh outside air and the ventilation of the polluted zone A air by the exhaust to the outside of the residence are performed in parallel with the heating and cooling.

Next, a control system in the ventilation air conditioning system having the above-mentioned configuration will be described with reference to FIGS. A control device 18 having a control function for stopping the operation of the device main body 1, switching between cooling and heating, and stopping the operation of the air conditioning of each zone A, B, C is incorporated in the device main body 1. This control device 18
Exhaust blower 4, air supply blower 5, air conditioning blower 8, 9
And a heat source generator 16 for heating and a heat source generator 17 for cooling
Connected to control each of these. Each zone B, C that is air-conditioned by the device body 1 via the air supply duct 15.
A controller 19 connected to the controller 18 by a communication line is installed in each of the zones B and C.

Each controller 19 has a setting function for stopping the operation of the entire system and setting the air conditioning mode (cooling / heating), a temperature setting function for each zone B and C, a room temperature detecting function for the zones B and C, and an operation stop. It is equipped with functions for individual settings. In addition, it also has a display function to display the operating status of the entire ventilation and air conditioning system and zones B and C.
As shown in FIG.

The control device 18 of the first embodiment is configured to perform the following control operations for the air conditioner blowers 8 and 9 and the heating heat source generator 16 or the cooling heat source generator 17. There is. That is, the temperature difference between the indoor temperature and the set temperature transmitted from each controller 19 and the time change amount of the temperature difference are obtained, and an adjustment signal corresponding to the temperature difference and the time change amount is formed. , The notches of the air-conditioning blowers 8 and 9 of the air-conditioning function body 7 corresponding to the zones B and C are switched in multiple stages to control to reach the set temperature. This will be specifically described with reference to FIG. The controller 18 fetches from the controller 19 each piece of information on the set temperature set by the user and the current room temperature in the zone B (the same applies to the zone C), for example. The difference temperature e (set temperature-indoor temperature) is calculated by the difference temperature calculating means 20 from the taken-in room temperature and the set temperature. Next, the change amount calculating means 21 calculates a time t until the difference temperature e changes by, for example, 0.5 deg. Subsequently, the adjustment signal change amount Δc is obtained by the signal change amount calculation means 22 from the difference temperature e and the time t. This adjustment signal change amount Δc
Is calculated based on the table shown in FIG.

In FIG. 4, the + sign indicates the direction in which the notch is raised and the-indicates the direction in which the notch is lowered, and the numerical value indicates the amount of change in the notch with respect to the current state. A new adjustment signal C is generated by changing the adjustment signal C by the adjustment signal change amount Δc thus obtained, and the air conditioning blower 8,
9 and the heat source generator 16 for heating or the heat source generator 17 for cooling. As shown in FIG. 5, the adjustment signal C indicates the notches of the air conditioner blowers 8 and 9 and indicates the ON / OFF of the heating heat source generator 16 or the cooling heat source generator 17. The series of processes are performed by the microcomputer 23 incorporated in the control device 18.

As a result, the air conditioner blowers 8 and 9 pass through, for example, a strong notch to a weak notch or a weak notch to a weak notch so that the room temperature reaches a set temperature as shown in FIG. The notches are controlled so that the notches gradually move to reach the strong notches, whereby the indoor temperature is controlled by a stable temperature change as shown in FIG. 6, and the temperature control width is reduced and comfort is increased. Become.
The air conditioner blowers 8 and 9 are notched manually to set the air volume to 0.
In the conventional example in which the N / OFF control is performed, the change in the notch and the room temperature are as shown in FIG. 7 when the cooling load is small, for example, the temperature change in the room temperature is unstable, and the air conditioner blower It also takes longer to stop.

While the air conditioners 8 and 9 are stopped,
Zone B or C in communication with the air conditioning function body 7
Also, the supply of fresh outside air from the ventilation unit 2 is stopped. In a highly airtight house, it is not possible to separate air conditioning and ventilation to create a comfortable environment. In the ventilation air conditioner of the first embodiment, the air conditioner blowers 8 and 9 are controlled so as not to be stopped as much as possible to maintain the room temperature at the set temperature, and the stop time of the air conditioner blowers 8 and 9 is short. The time during which the supply of fresh outside air from the plant is stopped is also shortened, and ventilation and air conditioning are performed in harmony or cooperation, and a comfortable ventilation and air conditioning environment can be formed.

Example 2. In the second embodiment, the controller 18 of the one shown in the first embodiment is used to control the flow rates of the heat sources of the heating heat source generator 16 and the cooling heat source generator 17 as well. And control device 1
A part of the configuration of 8 is the same as that shown in the first embodiment.
Therefore, for the same parts as those in the first embodiment, the drawings related thereto are referred to, the same reference numerals are used, and the description thereof is omitted.

In addition to the control function shown in the above-described first embodiment, the control device 18 according to the second embodiment determines the supply flow rates of the heat sources to the heating heat source generator 16 and the cooling heat source generator 17. It is equipped with a control function that controls in association with the air volume. The cooling / heating capacity can be changed by the amount of air blown by the air conditioner blowers 8 and 9, but can be changed by changing only the flow rate of the heat source or by changing both the air flow rate and the flow rate of the heat source. FIG. 8 shows a change in heating capacity when the flow rate of a heat source such as hot water and the air volumes of the air conditioner blowers 8 and 9 are changed in heating, for example. This Figure 8
As can be seen in, for example, the heating capacity when the air volume is a large air volume with a strong notch and the flow rate is 4 l / min, and the heating capacity when the air volume is a medium air volume with a notch of 12 l / min is almost the same. is there.

That is, in order to obtain the required cooling and heating capacity,
Blowers for air conditioning 8, 9
To drive. For example, as shown in FIG.
It divides into 10 steps from 10 to 10, the notch of the air conditioners 8 and 9 and the command value of the flow rate of the heat source are distributed to the adjustment signal C of each step, and the air conditioners 8 and 9 are adjusted by the adjustment signal C from the control device 18. It controls the heat source generator 16 for heating or the heat source generator 17 for cooling. At this time, the controller 18 compares the magnitudes of the control signals C for the zones B and C as shown in FIG. 10, and controls the heating heat source generator 16 or the cooling heat source generator 17 with the largest heat source flow rate. To do. Thus, the cooling and heating capacity can be changed linearly, and the room temperature can be set to the set temperature by controlling the air conditioner blowers 8 and 9 as much as possible while suppressing the generation of noise. Since the other functions and effects are the same as those of the first embodiment, the description thereof will be omitted.

Example 3. In the third embodiment, the air supply blower 5 and the exhaust air blower 4 of the apparatus body 1 shown in the first embodiment are variable in air volume, and the air supply blower is controlled by the control device 18 incorporated in the apparatus body 1. 5 and the air volume of the exhaust blower 4 are also controlled. Other configurations of the apparatus main body 1 and a part of the configuration of the control device 18 are the same as those shown in the first embodiment. Therefore, for the same parts as those in the first embodiment, the drawings related thereto are referred to, the same reference numerals are used, and the description thereof is omitted.

In addition to the control function shown in the above-described first embodiment, the controller 18 of the third embodiment has a number of requests for cooling operation or heating operation from each zone B, C as shown in FIG. It is confirmed by the microcomputer 23 whether or not it is coming out of the air conditioner, and the operation operation corresponding to each zone B and C is performed by the air conditioning unit 3
Let them do it. At this time, if all the places requiring the cooling operation or the heating operation are required, the air supply blower 5 and the exhaust air blower 4 are operated with a strong notch, and if only one zone B or C is requested, the air supply is performed. The blower 5 for exhaust and the blower 4 for exhaust are operated with a weak notch.

Generally, the constant ventilation amount required in a highly airtight space is set to 20 to 30 m ³ / h per person, and this ventilation air conditioner has a ventilation amount sufficient to satisfy the set conditions. Ventilation capacity is also set. Therefore,
If ventilation is performed by all the capacity when the zones B and C used are small, not only excessive ventilation but also heating and cooling load increases. If ventilation is performed by a part of the capacity even though the zones B and C are used, the air-conditioning load is reduced but the ventilation becomes insufficient, and the ventilation environment deteriorates. In this type of device, the adjustment of ventilation volume has been left up to the user's consideration so far, but in a highly airtight house, if the ventilation volume is adjusted intentionally, there is a risk of accidents due to insufficient ventilation. There must be. In this regard, in the ventilation air conditioner according to the third embodiment, the ventilation amount is automatically adjusted as needed, and proper ventilation of a highly airtight house is realized while saving energy as shown in FIG. 12, and noise of the ventilation part 2 is also reduced. To do. Since the other functions are basically the same as those of the first embodiment, the description thereof will be omitted.

Example 4. In this fourth embodiment, a dehumidifying operation function is added to the ventilation air conditioner shown in the above-mentioned third embodiment.
As shown in FIG. 3 and FIG. 14, when a dehumidifying operation command is issued by the microcomputer 23 of the control device 18, the cooling heat source generator 17 is forcibly operated and the air conditioner corresponding to the zone B or C for which the command is issued. The air blowers 8 and 9 are operated with weak notches, and at the same time, the air supply blower 5 and the exhaust air blower 4 of the ventilation section 2 are operated with weak notches. Other configurations of the apparatus main body 1 and the control apparatus 18 are the same as those shown in the third embodiment. Therefore, for the same parts as those in the third embodiment, the drawings relating to those parts are cited, and the same reference numerals are used, and the description thereof is omitted.

According to the ventilation air conditioner having the control device 18 of the fourth embodiment, the amount of ventilation is temporarily suppressed during the dehumidifying operation, so that the amount of moisture supplied to each zone A, B, C together with ventilation is reduced. The dehumidification function is improved, and dehumidification in a highly airtight house is effectively performed. Since the other functions are the same as those of the third embodiment, the description thereof will be omitted.

[0037]

As is apparent from the above description of the embodiment, according to the invention of claim 1, the outside air taken in by the operation of the air supply blower and the air in the house exhausted by the operation of the exhaust air blower. Is heat-exchanged by the heat exchanger for ventilation. The outside air after heat exchange is mixed with the air in the house taken in by the operation of the air conditioning function unit, and is supplied to each zone of the house as processing air by the air conditioning function unit. At this time,
The control device incorporated in the main body of the device determines the temperature difference between the two based on the information about the room temperature and the set temperature obtained from the controller arranged in each zone corresponding to each air conditioning function unit, and the time change amount of the temperature difference. And, by forming a control signal according to the difference temperature and its time change amount, switch the notch of the air conditioning blower of the air conditioning function unit corresponding to the zone in multiple stages,
The temperature inside the zone is controlled so as to reach the set temperature. The air-conditioning blower of the air-conditioning function unit has notches stepwise so that the indoor temperature reaches the set temperature, for example, from the strong notch to the weak notch via the medium notch or from the weak notch to the strong notch via the medium notch. Transition. Therefore, the air-conditioning blower is controlled so as not to stop as much as possible, the temperature control width is reduced, the air-conditioning function and the ventilation function work in harmony, and a more comfortable ventilation air-conditioning atmosphere can be formed for a highly airtight house. .

According to the second aspect of the invention, the outside air taken in by the operation of the air supply blower and the air in the house exhausted by the operation of the exhaust air blower are heat-exchanged by the ventilation heat exchanger. The outside air after heat exchange is mixed with the air in the house taken in by the operation of the air conditioning function unit, and is supplied to each zone of the house as processing air by the air conditioning function unit.
At this time, the control device incorporated in the main body of the device detects the difference temperature between the two from the information on the room temperature and the set temperature obtained from the controller arranged in each zone corresponding to each air conditioning function unit and the difference temperature between the two. Calculate the amount of change over time, form a control signal according to the difference in temperature, the amount of change over time, and the flow rate of the heat source flowing through the air-conditioning heat exchanger, and set the flow rate of the heat source of the heat source generator according to the controller with the highest set temperature. In addition to controlling, the notch of the air conditioning blower of the air conditioning function unit corresponding to the zone is switched in multiple stages so that the temperature is controlled so as to reach the set temperature without stopping the air conditioning blower as much as possible.
The temperature control width is also reduced, and the air conditioning function and the ventilation function work in harmony, and a highly comfortable ventilation air conditioning atmosphere can be formed with low noise in a highly airtight house.

According to the third aspect of the invention, the outside air taken in by the operation of the air supply blower and the indoor air exhausted by the operation of the exhaust air blower are heat-exchanged by the ventilation heat exchanger. The outside air after heat exchange is mixed with the air in the house taken in by the operation of the air conditioning function unit, and is supplied to each zone of the house as processing air by the air conditioning function unit.
At this time, the control device incorporated in the main unit of the air conditioner controls the air conditioner so that the room temperature in which the controller is installed matches the set temperature, based on the information obtained from the controller arranged in each zone corresponding to each air conditioning function unit. Control the blower and heat source generator. At that time, the ventilation volume is adjusted by increasing or decreasing the air volume of the air supply blower and the exhaust air blower according to the number of operating air conditioning blowers by the controller, so that ventilation is performed with an appropriate ventilation volume for the air conditioning. The ventilation function works in harmony, and it is possible to realize a more comfortable ventilation and air conditioning atmosphere for a highly airtight house with less power consumption and low noise.

According to the invention of claim 4, the outside air taken in by the operation of the air supply blower and the air in the house exhausted by the operation of the exhaust air blower are heat-exchanged by the ventilation heat exchanger. The outside air after heat exchange is mixed with the air in the house taken in by the operation of the air conditioning function unit, and is supplied to each zone of the house as processing air by the air conditioning function unit.
At this time, the control device incorporated in the main unit of the air conditioner controls the air conditioner so that the room temperature in which the controller is installed matches the set temperature, based on the information obtained from the controller arranged in each zone corresponding to each air conditioning function unit. Control the blower and heat source generator. At that time, the ventilation volume is adjusted by increasing or decreasing the air volume of the air supply blower and the exhaust air blower according to the number of operating air conditioning blowers by the controller. Also, when there is a dehumidifying operation command from the controller, the heat source generator for cooling and the air conditioning blower are forcibly operated to perform dehumidifying operation, and at the same time, the air volume of the air supply blower and the exhaust air blower is reduced. Therefore, ventilation is performed with an appropriate amount of ventilation for air conditioning, and the air conditioning function and the ventilation function work in harmony,
It is possible to realize a more comfortable ventilation and air conditioning atmosphere for a highly airtight house with less power consumption and low noise, and also improve the dehumidification function.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing a configuration of a ventilation air conditioning system as an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a relationship between a control device and a controller according to the first embodiment.

FIG. 3 is a block diagram of a control device according to the first embodiment.

FIG. 4 is an explanatory diagram showing a table for the control device of the first embodiment to obtain an adjustment signal change amount.

FIG. 5 is an explanatory diagram showing a table of contents of adjustment signals generated by the control device of the first embodiment.

FIG. 6 is an operation explanatory diagram showing an example of a control operation of the first embodiment regarding a notch and room temperature.

FIG. 7 is an operation explanatory diagram showing an example of a conventional control operation for a notch and room temperature.

FIG. 8 is an explanatory diagram showing the relationship between the air volume, the flow rate, and the heating capacity for explaining the control operation of the second embodiment.

FIG. 9 is an explanatory diagram showing a table of contents of adjustment signals generated by the control device of the second embodiment.

FIG. 10 is a flowchart showing a control flow of the control device of the second embodiment.

FIG. 11 is a block diagram illustrating the control operation of the control device according to the third embodiment.

FIG. 12 is a functional explanatory diagram of the third embodiment.

FIG. 13 is a block diagram illustrating the control operation of the control device according to the fourth embodiment.

FIG. 14 is a flowchart showing a control flow of the control device of the fourth embodiment.

[Explanation of symbols]

1 device body 2 ventilation 3 Air conditioner 4 Exhaust blower 5 Air blower for air supply 6 Ventilation heat exchanger 7 Air conditioning function body 8 Air conditioner blower 9 Air conditioner blower 10 Air conditioning heat exchanger 11 Air conditioning heat exchanger 16 Heat source generator for cooling 17 Heat source generator for heating 18 Control device 19 Controller 20 Difference temperature calculation means 21 Change amount calculation means 22 Signal change amount calculation means 23 Microcomputer

─────────────────────────────────────────────────── ─── Continuation of front page (56) Reference JP-A-61-31843 (JP, A) JP-A-4-110553 (JP, A) JP-A-2-195146 (JP, A) JP-A-6- 50565 (JP, A) JP-A-4-324042 (JP, A) JP-A-5-187675 (JP, A) JP-A-6-212489 (JP, A) JP-B 4-40615 (JP, B2) (58) Fields investigated (Int.Cl. ⁷ , DB name) F24F 11/053 F24F 3/147 F24F 11/02 102

Claims (2)

(57) [Claims] 1. A heat exchanger for exchanging heat between the outside air taken in by an air blower with variable air flow and the air in a house exhausted by an air blower for exhaust air with variable air flow. , The air conditioner with variable air volume and the air-conditioning heat exchanger that processes the air flow formed by this air-conditioner blower are supplied directly to the air-conditioning function part of multiple systems together with the air inside the house, and a single house A heat source generator for supplying heat to the operation of each air conditioner blower of the air conditioning function unit and the heat exchanger for air conditioning of the apparatus main body configured to supply the processing air formed by the air conditioning function unit to the zone. It has a built-in control device to control
The control device is connected to a controller arranged in each zone corresponding to each of the above-mentioned air-conditioning function units, and the above-mentioned air-conditioning unit is arranged so that the set temperature set by this controller matches the room temperature in which the controller is installed. A ventilation characterized by controlling a blower and a heat source generator, and controlling to increase or decrease the air volume of the air supply blower and the exhaust air blower according to the number of operating air conditioner blowers by the controller. Air conditioner. 2. The ventilation air heat exchanger exchanges heat between the outside air taken in by a variable-air-volume air supply blower and the air in the house exhausted by a variable-air-flow exhaust blower. , The air-conditioning blower with variable air volume and the air-conditioning heat exchanger that processes the air flow formed by this air-conditioning blower are supplied directly to the air-conditioning function unit with multiple dehumidification functions together with the air in the house. The main body of the device configured to supply the processing air formed by the air conditioning function unit to the multiple zones of the house by the stand, the operation of each air conditioning blower of the air conditioning function unit and the heat source to the heat exchanger for air conditioning. It incorporates a control device for controlling the heat source generator to be supplied, and the control device is connected to the controller arranged in each zone corresponding to each of the above-mentioned air conditioning function parts, and connected to this controller. The air conditioner blower and the heat source generator are controlled so that the indoor temperature in which the controller is installed matches the set temperature set by the controller, and the above-mentioned supply is adjusted depending on the number of operating air conditioner blowers by the controller. The air blower and the exhaust blower are controlled to increase or decrease the air volume, and when a dehumidifying operation command is received from the controller, the heat source generator for cooling and the air conditioning blower are forcibly operated to perform the dehumidifying operation. A ventilation air conditioner characterized by controlling the air supply blower and the exhaust blower so as to reduce the air flow rates.