JP2019203659A - Ventilation system - Google Patents

Abstract

To provide a ventilation system enabling ventilation required for a plurality of rooms without being affected by room layouts.SOLUTION: A ventilation system 1 includes: a plurality of vent holes provided in each of a plurality of rooms provided in a building, and communicating with the outside of the building; a shutter opening/closing the vent holes; a machine ventilation device ventilating air in the rooms through the vent holes; and a control part 44 for controlling opening/closing of the shutter and the operation of the machine ventilation device. The control part 44 opens a first vent hole as at least one vent hole among the plurality of vent holes by the shutter, and in a state of operating the machine ventilation device, opens one second vent hole among the plurality of vent holes excluding the first vent hole, and closes the other vent holes.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a ventilation system that can ventilate a building by simultaneously supplying and exhausting air.

  As houses become more airtight, ventilation of the entire house has become important. Type 3 ventilation is often adopted as the ventilation system for houses. In the third type ventilation, an exhaust fan that satisfies the exhaust amount with respect to the room volume of the house is installed, and an air supply port is installed in each room.

  On the other hand, due to the diversification of the layout of houses, there are many cases where the actual ventilation path is not as designed. In particular, in Type 3 ventilation, each room has an air supply port, but the air supply from the air supply port is natural ventilation that does not use a fan. There was a case where the volume was not obtained.

  In Patent Document 1, dampers for adjusting the air supply amount of outdoor air are provided in each air supply port provided in a plurality of rooms, and after each damper is initially set to a small opening, each variable airflow amount damper is provided. A ventilation system is disclosed in which the amount of air supply in each room is controlled by adjusting the opening to a large opening one by one.

JP-A-8-219507

  However, according to the ventilation system of Patent Document 1, since a plurality of air supply openings are opened at the same time, depending on the layout of the room, the amount of variable air flow is affected by the pressure loss of the airflow flowing between the ventilation fan and each room. The amount of air supply in a room provided with an air supply opening with a large opening of the damper is not necessarily increased, and a case where almost no air is supplied from the air supply opening is also assumed. For this reason, the ventilation system of patent document 1 had the problem that each room could not be ventilated reliably.

  The present invention has been made in view of the above, and an object thereof is to obtain a ventilation system capable of performing necessary ventilation in a plurality of rooms without being affected by the layout of the rooms.

  In order to solve the above-described problems and achieve the object, a ventilation system according to the present invention includes a plurality of ventilation holes provided in each of a plurality of rooms provided in a building and communicating with the outside of the building, and ventilation. A shutter that opens and closes a mouth, a mechanical ventilator that ventilates room air through a vent, and a control unit that controls opening and closing of the shutter and operation of the mechanical ventilator. The control unit opens the first ventilation port, which is one or more of the plurality of ventilation ports, with a shutter and operates the mechanical ventilation device, and the plurality of ventilation ports other than the first ventilation port. Among them, one second vent is opened by a shutter and the other vent is closed.

  According to the present invention, there is an effect that a ventilation system capable of performing necessary ventilation in a plurality of rooms without being influenced by the layout of the room can be obtained.

The figure which shows the structural example in the house of the ventilation system concerning Embodiment 1 of this invention. The block diagram which shows the structure of the ventilation system concerning Embodiment 1 of this invention. The block diagram which shows the function structure of the ventilation system concerning Embodiment 1 of this invention. The figure which shows an example of the hardware constitutions of the processing circuit concerning Embodiment 1 of this invention. The timing chart which shows the timing which the control apparatus of the ventilation system concerning Embodiment 1 of this invention transmits an opening / closing signal to an air supply part. The flowchart which shows the procedure of the control processing in the control part of the control apparatus of the ventilation system concerning Embodiment 1 of this invention. The figure which showed the flow of the air at the time of opening only the air supply opening | mouth of a 1st air supply part in the ventilation system concerning Embodiment 1 of this invention. The figure which showed the flow of the air at the time of opening only the air inlet of a 2nd air supply part in the ventilation system concerning Embodiment 1 of this invention. The figure which showed the flow of the air at the time of opening only the air inlet of a 3rd air supply part in the ventilation system concerning Embodiment 1 of this invention. The block diagram which shows the structure of the ventilation system concerning Embodiment 2 of this invention. The flowchart which shows the procedure of the control processing linked with the human sensor in the control part of the control apparatus of the ventilation system concerning Embodiment 2 of this invention. Flowchart illustrating a procedure of a control process in cooperation with CO ₂ sensor in the control unit of the control apparatus according ventilation system to a second embodiment of the present invention The flowchart which shows the procedure of the control processing cooperated with the indoor temperature sensor and the outside temperature sensor in the control part of the control apparatus of the ventilation system concerning Embodiment 2 of this invention. The block diagram which shows the structure of the ventilation system concerning Embodiment 2 of this invention. The flowchart which shows the procedure of the control processing cooperated with the range hood fan in the control part of the control apparatus of the ventilation system concerning Embodiment 2 of this invention. The flowchart which shows the procedure of the control processing in cooperation with the illuminating device in the control part of the control apparatus of the ventilation system concerning Embodiment 2 of this invention. The figure which shows the structural example in the house of the ventilation system concerning Embodiment 3 of this invention. The block diagram which shows the function structure of the ventilation system concerning Embodiment 3 of this invention. The figure which shows the structural example in the house of the ventilation system concerning Embodiment 4 of this invention.

  Below, a ventilation system concerning an embodiment of the invention is explained in detail based on a drawing. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram illustrating a configuration example in a house 200 of the ventilation system 1 according to the first embodiment of the present invention. FIG. 2 is a block diagram showing a configuration of the ventilation system 1 according to the first embodiment of the present invention. The arrows in FIG. 2 indicate the signal transmission direction. FIG. 3 is a block diagram illustrating a functional configuration of the ventilation system 1 according to the first embodiment of the present invention.

  A ventilation system 1 according to the first embodiment provided in a house 200 that is a two-story building includes a remote control device 10, a control device 20, an exhaust unit 30 with a shutter, and an air supply unit 40 with a shutter. The home wireless line 50 and the home communication line 60 are provided.

  As shown in FIG. 1, in a house 200, an exhaust unit 30 with a shutter is disposed on a wall adjacent to the outside of a building in a room 211 on the first floor. Moreover, the ventilation system 1 has the air supply part 40a with a 1st shutter, the air supply part 40b with a 2nd shutter, and the air supply part 40c with a 3rd shutter as the air supply part 40 with a shutter. The first shutter-equipped air supply unit 40a is arranged on a wall adjacent to the outside of the building in the room 212 on the first floor. The air supply unit 40b with the second shutter is arranged on a wall adjacent to the outside of the building in the room 213 on the second floor. The third shutter-equipped air supply section 40c is disposed on a wall adjacent to the outside of the building in the room 214 on the second floor. Hereinafter, the exhaust unit 30 with the shutter may be referred to as the exhaust unit 30. In the following, the air supply unit 40 with the shutter is the air supply unit 40, the air supply unit 40a with the first shutter is the first air supply unit 40a, and the air supply unit 40b with the second shutter is the second air supply unit 40b. Then, the air supply unit 40c with the third shutter may be referred to as a third air supply unit 40c.

  The remote control device 10 is a mobile device such as a mobile phone or a tablet. The remote operation device 10 has a function of receiving instruction information for performing operations such as operation, stop, or adjustment of the air volume of the ventilation system 1 and transmitting the instruction information to the control device 20. The remote operation device 10 includes an input unit 11, a display unit 12, a communication unit 13, and a control unit 14. The input unit 11, the display unit 12, the communication unit 13, and the control unit 14 can communicate with each other.

  The input unit 11 is input means for inputting instruction information for the user to perform various operations such as operation, stop, or adjustment of the air volume of the ventilation system 1. The display unit 12 is a display unit that displays various types of information necessary for controlling the ventilation system 1 such as the operating status of the ventilation system 1 or information input to the remote control device 10. The communication unit 13 communicates various information necessary for control of the ventilation system 1 with the control device 20 via the home wireless line 50. The control unit 14 controls the operation of the entire remote operation device 10.

  Further, the control unit 14 is realized, for example, as a processing circuit having a hardware configuration illustrated in FIG. FIG. 4 is a diagram illustrating an example of a hardware configuration of the processing circuit according to the first embodiment of the present invention. When the control unit 14 is realized by the processing circuit shown in FIG. 4, the control unit 14 is realized by the processor 101 executing the program stored in the memory 102 shown in FIG. 4, for example. A plurality of processors and a plurality of memories may cooperate to realize the above function. Further, a part of the function of the control unit 14 may be mounted as an electronic circuit, and the other part may be realized using the processor 101 and the memory 102.

  Similarly, the communication unit 13 may be realized by the processor 101 executing the program stored in the memory 102. Further, the processor and memory for realizing the communication unit 13 may be the same as the processor and memory for realizing the control unit 14, or may be another processor and memory.

  The control device 20 controls operations such as operation, stop, or adjustment of the air volume of the ventilation system 1 by remote management. The control device 20 includes a communication unit 21 and a control unit 22.

  The communication unit 21 communicates various types of information necessary for controlling the ventilation system 1 with the remote control device 10 via the home wireless line 50. The communication unit 21 communicates various information necessary for controlling the exhaust unit 30 with shutter and the air supply unit 40 with shutter between the exhaust unit 30 with shutter and the air supply unit 40 with shutter. This is done via line 60.

  Based on information transmitted from the remote operation device 10 via the home wireless line 50 or based on information preset in the control unit 22, the control unit 22 and the exhaust unit 30 with shutter and the air supply with shutter Various processes necessary for controlling the unit 40 are controlled. The control unit 22 has a function of operating the exhaust unit 30 with a shutter and controlling the air supply unit 40 with a shutter for supplying air among the plurality of air supply units 40 with a shutter when the ventilation operation is performed. . The control unit 22 controls the operation of the entire control device 20.

  Moreover, the control part 22 is implement | achieved as a processing circuit of the hardware constitutions shown in FIG. 4, for example. When the control unit 22 is realized by the processing circuit shown in FIG. 4, the control unit 22 is realized by the processor 101 executing the program stored in the memory 102 shown in FIG. 4, for example. A plurality of processors and a plurality of memories may cooperate to realize the above function. Further, a part of the function of the control unit 22 may be mounted as an electronic circuit, and the other part may be realized using the processor 101 and the memory 102.

  Similarly, the communication unit 21 may be configured by causing the processor 101 to execute a program stored in the memory 102. Further, the processor and the memory for realizing the communication unit 21 may be the same as the processor and the memory for realizing the control unit 22, or may be different processors and memories.

  The shutter-equipped exhaust unit 30 exhausts indoor air based on control information transmitted from the control unit 22 of the control device 20. The shutter-equipped exhaust unit 30 includes an exhaust port 31, an exhaust-side blower 32, an opening / closing processing unit 33, a communication unit 34, and a control unit 35.

  The exhaust port 31 is a vent port provided on a wall adjacent to the outside of the building, and is an exhaust port for exhausting indoor air from the interior of the house 200. In the first embodiment, the exhaust port 31 is one or more vents that are ventilated by the exhaust-side blower 32 among a plurality of vents provided in a wall adjacent to the outside of the building in the ventilation system 1. It is a certain first vent. The exhaust-side blower 32 is a blower that sucks indoor air from the interior of the house 200 and sends it to the outside of the house 200 through the exhaust port 31 for exhaust. In other words, the exhaust side blower 32 is a mechanical ventilation device that ventilates room air through the vent. The exhaust side blower 32 generates an air flow for ventilation in the house 200.

  The opening / closing processing unit 33 opens / closes the exhaust port 31 by opening / closing the shutter, and switches between performing and stopping the exhaust by the exhaust unit 30 with the shutter. The communication unit 34 communicates various information necessary for controlling the exhaust unit 30 with the shutter via the home communication line 60 with the control device 20. The control unit 35 controls the opening / closing of the shutter and the operation of the exhaust side fan 32 based on the control information transmitted from the control unit 22 of the control device 20, and also controls the overall operation of the exhaust unit 30 with a shutter.

  Further, the control unit 35 is realized, for example, as a processing circuit having a hardware configuration shown in FIG. When the control unit 35 is realized by the processing circuit shown in FIG. 4, the control unit 35 is realized by the processor 101 executing the program stored in the memory 102 shown in FIG. 4, for example. A plurality of processors and a plurality of memories may cooperate to realize the above function. Further, a part of the function of the control unit 35 may be mounted as an electronic circuit, and the other part may be realized using the processor 101 and the memory 102.

  Further, the communication unit 34 may be configured to be realized by the processor 101 executing the program stored in the memory 102 similarly. Further, the processor and the memory for realizing the communication unit 34 may be the same as the processor and the memory for realizing the control unit 35, or may be different processors and memories.

  The air supply unit with shutter 40 supplies fresh air, which is fresh air, from the outside of the house 200 to the room based on the control information transmitted from the control unit 22 of the control device 20. The air supply unit with shutter 40 includes an air supply port 41, an open / close processing unit 42, a communication unit 43, and a control unit 44.

  The air supply port 41 is a ventilation port provided in a wall adjacent to the outside of the building, and is an air supply port for supplying outside air, which is fresh air, into the room. In the first embodiment, the air supply port 41 is other than the first air vent that is ventilated by the exhaust-side blower 32 among the plurality of air vents provided in the wall adjacent to the outside of the building in the ventilation system 1. It is a vent. In the first embodiment, the air supply port 41 corresponds to one second ventilation port that is opened by the shutter during the ventilation operation and another ventilation port that is not opened by the shutter during the ventilation operation. The opening / closing processor 42 opens and closes the air supply port 41 by opening and closing the shutter, and switches between performing and stopping the air supply by the air supply unit 40 with the shutter. The communication unit 43 communicates various information necessary for controlling the air supply unit 40 with the shutter via the home communication line 60 with the control device 20.

  The control unit 44 controls opening / closing of the shutter in the opening / closing processing unit 42 based on control information transmitted from the control unit 22 of the control device 20 and instructing opening / closing of the air supply port 41. Control is performed to switch between the implementation and stop of the supply of air by the air supply unit 40. The control unit 44 controls an opening time that is a time during which the shutter is opened and the air supply port 41 is opened based on an open / close signal transmitted from the control unit 22 of the control device 20. The control unit 44 controls the overall operation of the air supply unit 40 with a shutter.

  Further, the control unit 44 is realized, for example, as a processing circuit having a hardware configuration shown in FIG. When the control unit 44 is realized by the processing circuit shown in FIG. 4, the control unit 44 is realized by the processor 101 executing the program stored in the memory 102 shown in FIG. 4, for example. A plurality of processors and a plurality of memories may cooperate to realize the above function. Further, a part of the function of the control unit 44 may be mounted as an electronic circuit, and the other part may be realized using the processor 101 and the memory 102.

  Similarly, the communication unit 43 may be configured by the processor 101 executing the program stored in the memory 102. Further, the processor and the memory for realizing the communication unit 43 may be the same as the processor and the memory for realizing the control unit 44, or may be a different processor and memory.

  The in-house wireless line 50 is an in-building wireless communication line for communicating various types of information between the remote control device 10 and the control device 20.

  The in-home communication line 60 communicates various information necessary for controlling the exhaust unit 30 with shutter and the air supply unit 40 with shutter between the exhaust unit 30 with shutter and the air supply unit 40 with shutter and the control device 20. It is a communication line in the building for performing. The in-home communication line 60 may be a wired communication line or a wireless communication line.

  Next, an operation example of the ventilation system 1 according to the first embodiment will be described. FIG. 5 is a timing chart showing the timing at which the control device 20 of the ventilation system 1 according to the first embodiment of the present invention transmits an open / close signal to the air supply unit 40. FIG. 6 is a flowchart illustrating a procedure of control processing in the control unit 22 of the control device 20 of the ventilation system 1 according to the first embodiment of the present invention. FIG. 7 is a diagram illustrating an air flow when only the air supply port 41 of the first air supply unit 40a is opened in the ventilation system 1 according to the first embodiment of the present invention. FIG. 8 is a diagram illustrating an air flow when only the air supply port 41 of the second air supply unit 40b is opened in the ventilation system 1 according to the first embodiment of the present invention. FIG. 9 is a diagram illustrating an air flow when only the air supply port 41 of the third air supply unit 40c is opened in the ventilation system 1 according to the first embodiment of the present invention. The arrows in FIGS. 7, 8 and 9 indicate the flow of air. Note that, in the house 200, the inside and outside of the room can be ventilated through a louver of the door or a gap between the door and the floor, even if the doors that partition the rooms are closed and the rooms are closed.

  Below, the ventilation system 1 demonstrates the operation example of the ventilation system 1 at the time of the start of 24-hour ventilation by 3rd type ventilation. At the start of 24-hour ventilation, the exhaust unit 30 is stopped, and the first supply unit 40a, the second supply unit 40b, and the third supply unit 40c are closed.

  In step S1, when the control unit 22 of the control device 20 receives the start information of the 24-hour ventilation from the remote control device 10, the control unit 20 drives the exhaust unit 30 at time T1 and only the air supply port 41 of the first air supply unit 40a. Control to open. That is, the control unit 22 operates the exhaust side blower 32 of the exhaust unit 30, opens the shutter of the exhaust unit 30, opens the supply port 41 of the first supply unit 40a, and supplies the air of the second supply unit 40b. Control is performed so that the inlet 41 and the inlet 41 of the third inlet 40c remain closed. The first air supply unit 40a opens the air supply port 41 by opening a shutter based on an open signal that is an open / close signal transmitted from the control unit 22, and is in a state in which ventilation through the air supply port 41 is possible. .

  Accordingly, as shown in FIG. 7, only the air supply port 41 of the first air supply unit 40 a among the air supply ports 41 of the plurality of air supply units 40 is opened, and the second air supply unit 40 b and the third air supply unit are opened. The air in the house 200 is ventilated in a state where the air supply port 41 of the portion 40c is closed. In this case, outside air is supplied to the room 212 from the air supply port 41 of the first air supply part 40a, and the air in the room 212 passes through the house 200 and is exhausted from the exhaust part 30 of the room 211 to the outside of the building. .

  Next, in step S2, the control unit 22 determines whether or not the opening time OT1 has elapsed from time T1, using the timepiece function of the control unit 22. The opening time OT1 is a predetermined opening time of the air supply port 41 of the first air supply unit 40a, and is set in the control unit 22. If it is determined that the opening time OT1 has not elapsed, the result of step S2 is No, and the control unit 22 repeats step S2. If it is determined that the opening time OT1 has elapsed, the result of step S2 is Yes, and the control unit 22 proceeds to step S3.

  In step S3, the control unit 22 performs control to open only the air supply port 41 of the second air supply unit 40b while driving the exhaust unit 30 at time T2. That is, the control unit 22 opens the air supply port 41 of the second air supply unit 40b at the same time as closing the air supply port 41 of the first air supply unit 40a in a state where the exhaust unit 30 is operated. Control is performed to keep the portion 40c closed. Time T2 is the time when the opening time OT1 has elapsed from time T1. The first air supply unit 40a closes the shutter and closes the air supply port 41 on the basis of a close signal that is an open / close signal transmitted from the control unit 22, so that ventilation through the air supply port 41 is impossible. It becomes a state. Further, the second air supply unit 40b can ventilate through the air supply port 41 by opening the shutter and opening the air supply port 41 based on an open signal that is an open / close signal transmitted from the control unit 22. It becomes a state.

  That is, the control unit 22 opens one exhaust port 31 that is the first vent port with a shutter and operates the exhaust side blower 32, and then selects one second of the plurality of vent ports other than the exhaust port 31. The air supply port 41 of the 2nd air supply part 40b which is this air vent is opened with a shutter, and the air supply port 41 of the 1st air supply part 40a which is another air vent is closed with a shutter.

  As a result, as shown in FIG. 8, only the air supply port 41 of the second air supply unit 40b among the air supply ports 41 of the plurality of air supply units 40 is opened, and the first air supply unit 40a and the third air supply unit are opened. The air in the house 200 is ventilated in a state where the air supply port 41 of the portion 40c is closed. In this case, outside air is supplied to the room 213 from the air supply port 41 of the second air supply part 40b, and the air in the room 213 passes through the house 200 and is exhausted from the exhaust part 30 of the room 211 to the outside of the building. . The air in the room 213 flows to the exhaust part 30 of the room 211 through a staircase or a blow-by by the air flow generated by the exhaust part 30.

  Next, in step S <b> 4, the control unit 22 determines whether or not the opening time OT <b> 2 has elapsed from time T <b> 2 using the timepiece function of the control unit 22. The opening time OT2 is a predetermined opening time of the air supply port 41 of the second air supply unit 40b, and is set in the control unit 22. If it is determined that the opening time OT2 has not elapsed, the result of step S4 is No, and the control unit 22 repeats step S4. If it is determined that the opening time OT2 has elapsed, the result of step S4 is Yes, and the control unit 22 proceeds to step S5.

  In step S5, the control unit 22 performs control to open only the air supply port 41 of the third air supply unit 40c while driving the exhaust unit 30 at time T3. Time T3 is the time when the opening time OT2 has elapsed from time T2. That is, the control unit 22 opens the air supply port 41 of the third air supply unit 40c at the same time as closing the air supply port 41 of the second air supply unit 40b in a state where the exhaust unit 30 is operated. Control is performed to keep the portion 40a closed. The second air supply unit 40b cannot be ventilated through the air supply port 41 by closing the shutter and closing the air supply port 41 based on a closing signal that is an open / close signal transmitted from the control unit 22. It becomes a state. Further, the third air supply unit 40c can ventilate through the air supply port 41 by opening the shutter and opening the air supply port 41 based on an open signal that is an open / close signal transmitted from the control unit 22. It becomes a state.

  Accordingly, as shown in FIG. 9, only the air supply port 41 of the third air supply unit 40 c among the air supply ports 41 of the plurality of air supply units 40 is opened, and the first air supply unit 40 a and the second air supply unit are opened. Ventilation of the air in the house 200 is performed in a state where the air supply port 41 of the part 40b is closed. In this case, outside air is supplied to the room 214 from the air supply port 41 of the third air supply part 40c, and the air in the room 214 passes through the house 200 and is exhausted from the exhaust part 30 of the room 211 to the outside of the building. . The air in the room 214 flows to the exhaust part 30 of the room 211 through a staircase or a blow-through by the air flow generated by the exhaust part 30.

  Next, in step S <b> 6, the control unit 22 determines whether or not the opening time OT <b> 3 has elapsed from time T <b> 3 using the timepiece function of the control unit 22. The opening time OT3 is a predetermined opening time of the air supply port 41 of the third air supply unit 40c, and is set in the control unit 22. If it is determined that the opening time OT3 has not elapsed, the result of step S6 is No, and the control unit 22 repeats step S6. If it is determined that the opening time OT3 has elapsed, the result of step S6 is Yes, and the control unit 22 returns to step S1.

  In step S1, the control unit 22 performs control to open only the air supply port 41 of the first air supply unit 40a. However, since the exhaust unit 30 is already operating, control for driving the exhaust unit 30 is not performed.

  In the processing from step S1 to step S6 described above, the control unit 22 opens the exhaust port 31 which is the first ventilation port ventilated by the exhaust side blower 32 with the shutter and operates the exhaust side blower 32. Of the plurality of vent holes other than the first vent hole, one second vent hole is opened by a shutter and the other vent holes are closed. Then, by the processing from step S1 to step S6 described above, the ventilation of the room 212, the ventilation of the room 213, and the ventilation of the room 214 are performed once in this order. In the first embodiment, the ventilation in which the ventilation of the room 212, the ventilation of the room 213, and the ventilation of the room 214 are performed once in this order is one cycle of the ventilation operation. The number of ventilations in each room in one cycle of ventilation operation can be changed. Ventilation of the room 211 is performed simultaneously with the ventilation of the room 213, the ventilation of the room 214, and the ventilation of the room 212.

  By performing the above-described processing, in the ventilation system 1, the open air supply port 41 among the air supply ports 41 of the plurality of air supply units 40 is always set to one place. It is possible to reliably ventilate the room in which 41 is opened. As a result, high airtightness has progressed to save energy, and in the housing situation where ventilation is important as a countermeasure for sick houses, etc., the necessary ventilation for each room is ensured without being affected by the more diversified floor plans. Can be performed. Therefore, in the ventilation system 1, ventilation in which the necessary ventilation amount is balanced for each room can be performed.

  Further, in the ventilation system 1, the air supply unit 40 that supplies air and the exhaust unit 30 that performs exhaust are limited to one place at any time point during the execution of ventilation. The air path inside is clearly distinguishable.

  In addition, the ventilation system 1 is provided with an open air supply port 41 by being applied to the house 200 having almost no air supply location other than the air supply unit 40 in a state where the airtightness is achieved. It is possible to ventilate a room in a certain manner more reliably, and the air path during the ventilation can be more clearly identified.

  In addition, the control of opening / closing of the air supply port 41 in the control unit 22 is control of only two patterns of opening the air supply port 41 or closing the air supply port 41. For this reason, the ventilation system 1 can easily control different ventilation amounts in each room easily with a simple configuration without requiring a complicated configuration and control, and is suitable for mass production. Further, the switching control of opening / closing of the air supply port 41 in the control unit 22 can be realized only by transmitting an open / close signal to the air supply unit 40, and the ventilation process in the control unit 22 is simple.

  In the control unit 22, an initial setting value of the opening time of the air supply port 41 in each air supply unit 40 is set in advance. The control unit 22 controls the ventilation process described above based on the initial setting value of the opening time for each air supply unit 40. The initial setting value of the opening time of the air supply port 41 in each air supply unit 40 is the same opening time.

  Moreover, the order of the air supply part 40 which opens the air supply opening 41 by opening a shutter among the several air supply parts 40 arrange | positioned in the house 200 is the instruction information which instruct | indicates a change from the remote control apparatus 10. The setting can be arbitrarily changed by inputting. The instruction information received by the input unit 11 of the remote operation device 10 is transmitted to the control unit 22 of the control device 20 via the control unit 14 and the communication unit 13 of the remote operation device 10.

  In the above description, the control device 20 is shown as being provided independently of the exhaust unit 30 and the air supply unit 40. However, the control device 20 is built in either the exhaust unit 30 or the air supply unit 40. May be.

  Moreover, although the case where the exhaust part 30 is arrange | positioned only at one place was shown in the above, the exhaust part 30 can also be provided in several places. In this case, the ventilation amount of the room in which the air supply unit 40 in which the air supply port 41 is opened is increased to the total exhaust amount that is the sum of the exhaust amounts of the plurality of exhaust units 30, which is short. Ventilation is possible over time. The ventilation air path in this case is an air path that goes from the air supply unit 40 where the air supply port 41 is opened to each of the plurality of exhaust units 30. Also in this case, since the air supply unit 40 for supplying air is limited to one place, the ventilation air passage during the ventilation can be clearly identified.

  In the ventilation system 1, the above-described ventilation may be performed as one method of air conditioning management of each room in the house 200 by connecting the control device 20 and a HEMS (Home Energy Management System). It becomes possible.

  Further, the function of the control device 20 may also serve as a home equipment centralized management device that controls operations such as operation, stop, or air volume adjustment of a plurality of home equipment in the house 200 by remote management in the HEMS.

  In addition, basically, one air supply opening 41 that is open at a certain moment is desirable, but the space between the exhaust unit 30 and each room where the air supply port 41 is provided with respect to the position of the exhaust unit 30. It can be determined that the pressure loss of the flowing air flow is the same, and if the ventilation volume is the same, two or more air supply ports 41 can be opened at the same time.

  As described above, the ventilation system 1 according to the first embodiment can realize a ventilation system that can perform necessary ventilation in a plurality of rooms without being affected by the layout of the rooms.

Embodiment 2. FIG.
In the second embodiment, a modified example of the ventilation system 1 will be described. In the ventilation system 2 according to the second embodiment, the opening time for opening the shutter and opening the supply port 41 is changed by each supply unit 40. When the opening time of the air supply port 41 in each air supply unit 40 is changed for each air supply unit 40, the opening time is determined and controlled by the control unit 22 of the control device 20.

  The setting of the opening time for each air supply unit 40 can be arbitrarily changed by inputting instruction information for instructing the change of the opening time from the remote control device 10. The instruction information received by the input unit 11 of the remote operation device 10 is transmitted to the control unit 22 of the control device 20 via the control unit 14 and the communication unit 13 of the remote operation device 10. Thus, the user can appropriately change the opening time for each air supply unit 40 set in the control unit 22 based on conditions such as the size of the room, and ventilation at a desired opening time. Driving is possible.

  When the size of each room in the house 200 is different, the ventilation amount of each room can be adjusted by the opening time of the air supply port 41 of the air supply unit 40 provided in each room. That is, when the volume of ventilation air by the exhaust unit 30 is constant and the volume of each room in the house 200 is different, the opening time required to ventilate the entire air in the room varies from room to room. For this reason, the opening time for each air supply unit 40 is set to a different time based on the volume of the room in which the air supply unit 40 is disposed. That is, the opening time for each air supply unit 40 is set longer as the volume of the room in which the air supply unit 40 is arranged is larger. Thereby, opening time can be lengthened as the room which requires ventilation.

  Therefore, the control unit 22 opens the shutter that opens and closes the air supply port 41 provided in a room having a relatively large volume among the air supply ports 41 that are ventilation ports that are not ventilated by the exhaust-side blower 32. Control is performed so that the time is longer than the opening time for opening the shutter for opening and closing the air supply port 41 provided in the room having a relatively small volume.

  Thus, the ventilation system 2 ensures the ventilation of each room corresponding to the size of each room in the house 200 by increasing the opening time as the volume of the room in which the air supply unit 40 is arranged is larger. Can be done.

  Moreover, the opening frequency about the air supply part 40 in 1 cycle of ventilation operation is set to 1 time by the initial setting. The number of openings for the air supply unit 40 in one cycle of the ventilation operation can be arbitrarily changed by inputting instruction information for instructing the change of the number of openings from the remote control device 10. The instruction information received by the input unit 11 of the remote operation device 10 is transmitted to the control unit 22 of the control device 20 via the control unit 14 and the communication unit 13 of the remote operation device 10. Accordingly, the user can appropriately change the number of openings for each air supply unit 40 set in the control unit 22 based on conditions such as the size of the room, and is desired in one cycle of the ventilation operation. Ventilation operation with the number of times of opening is possible.

  Based on the exhaust air volume of the exhaust unit 30 and the volume of the room, the minimum required opening time can be obtained from the minimum required ventilation amount for the room in which the air supply unit 40 is disposed. The minimum required ventilation can be a ventilation that ventilates the entire room air or a desired ventilation. Based on the opening time, the number of openings for the air supply unit 40 in one cycle of the ventilation operation can be changed to a desired number of openings.

  The ventilation system 2 ensures ventilation of each room according to the size of each room in the house 200 by increasing the number of openings as the volume of the room in which the air supply unit 40 is arranged is larger. Can be done.

  Further, in the third type ventilation performed in a state where a plurality of air supply ports provided in each room in the house 200 are opened, the air flowing through each air passage from the room where the air supply ports are arranged to the exhaust part. Due to the difference in the pressure loss of the flow, there is often no ventilation that corresponds to the size of each room.

  When the ventilation air volume by the exhaust unit 30 is constant, the distance from the room in which the air supply unit 40 is disposed to the exhaust location depends on the distance between the room in which the air supply unit 40 is disposed and the exhaust location. The air flow pressure loss is different and the ventilation efficiency is different. In other words, the opening time of the air supply unit 40 necessary for ventilating the entire air in the room varies from room to room depending on the distance between the room where the air supply unit 40 is disposed and the exhaust location. For this reason, the opening time for each air supply unit 40 is set to a different time based on the distance between the room where the air supply unit 40 is disposed and the exhaust location. That is, the opening time for each air supply unit 40 is set longer as the distance between the room in which the air supply unit 40 is disposed and the exhaust unit 30 is longer.

  Therefore, the control unit 22 has a relatively long distance between the room in which the air supply port 41 is provided and the exhaust side air blower 32 among the air supply ports 41 that are ventilation holes that are not ventilated by the exhaust side air blower 32. The opening time of the shutter that opens and closes the air supply port 41 provided in the room is set to the time that the air supply port 41 provided in the room in which the distance between the room in which the air supply port 41 is provided and the exhaust-side blower 32 is relatively short. Control is performed so that the shutter opening time is longer than the opening time.

  As a result, the ventilation system 2 increases the opening time as the distance between the room in which the air supply unit 40 is disposed and the exhaust unit 30 is longer, thereby corresponding to the room layout in the house 200. Ventilation can be performed reliably. In addition, the ventilation system 2 increases the number of times of opening as the distance between the room in which the air supply unit 40 is disposed and the exhaust unit 30 is longer, thereby corresponding to the floor plan of the room in the house 200. Ventilation can be performed reliably.

  In addition, the ventilation system 2 automatically changes the opening time of the air supply port 41 in each air supply unit 40 based on the detection results of various sensors, or automatically changes the number of times of opening. Appropriate ventilation corresponding to the situation can be realized. FIG. 10 is a block diagram showing a configuration of the ventilation system 2 according to the second embodiment of the present invention. The arrows in FIG. 10 indicate the signal transmission direction.

In addition to the configuration of the ventilation system 1 according to the first embodiment described above, the ventilation system 2 according to the second embodiment includes a human sensor 70 that detects the presence / absence and number of persons in the room, and room air in the room. A carbon dioxide sensor 80 for detecting the concentration of carbon dioxide (CO ₂ ), an indoor temperature sensor 90 for detecting the temperature of room air in the room, and an outside air temperature sensor 100 for detecting the outside air temperature. The human sensor 70, the CO ₂ sensor 80, the indoor temperature sensor 90, and the outside air temperature sensor 100 can communicate with the control device 20 through the communication line 110. In addition to the function of the ventilation system 1 according to the first embodiment, the ventilation system 2 can perform a ventilation operation based on the detection results of various sensors. That is, in the ventilation system 2 according to the second exemplary embodiment, it is possible to perform a cooperative operation that is a ventilation operation in cooperation with a sensor.

  The human sensor 70 is installed in each room in the house 200 where the air supply unit 40 is provided. The human sensor 70 periodically detects the presence and the number of people in the room at a predetermined cycle, and transmits the detection result to the control unit 22 of the control device 20 via the communication line 110.

The CO ₂ sensor 80 is installed in each room in the house 200 where the air supply unit 40 is provided. The CO ₂ sensor 80 periodically detects the CO ₂ concentration of room air in the room at a predetermined cycle, and transmits the detection result to the control unit 22 of the control device 20 via the communication line 110.

  The indoor temperature sensor 90 is installed in each room in the house 200 where the air supply unit 40 is provided. The room temperature sensor 90 detects the temperature of room air in the room at a predetermined cycle, and transmits the detection result to the control unit 22 of the control device 20 via the communication line 110.

  The outside air temperature sensor 100 is installed outside the house 200. The outside air temperature sensor 100 detects the outside air temperature at a predetermined cycle, and transmits the detection result to the control unit 22 of the control device 20 via the communication line 110.

The degree of contamination of indoor air by CO ₂ varies depending on the presence or absence of people in the room and the number of people in the room. Therefore, when the ventilation air volume by the exhaust unit 30 is a constant condition and the whole room air is not ventilated by one ventilation, the air supply necessary for purifying the room air to a predetermined standard The opening time of the unit 40 varies depending on the presence / absence of people in the room and the number of people in the room, and also varies depending on the CO ₂ concentration in the room air. In the ventilation system 2, the opening time or the number of times of opening of the air supply port 41 of the open air supply unit 40 can be changed based on the detection result of the human sensor 70.

  FIG. 11 is a flowchart illustrating a procedure of control processing in cooperation with the human sensor 70 in the control unit 22 of the control device 20 of the ventilation system 2 according to the second embodiment of the present invention. Hereinafter, the ventilation operation based on the detection result of the human sensor 70 in the ventilation system 2 will be described. The following processing is performed during the control in the control unit 22 of the control device 20 described with reference to FIG.

  In step S <b> 10, the control unit 22 of the control device 20 opens the air supply port 41 of the air supply unit 40 based on the detection result transmitted from the human sensor 70 in the room where the air supply port 41 of the air supply unit 40 is opened. It is determined whether or not a person is present in the open room. Hereinafter, a room in which the air supply port 41 of the air supply unit 40 is opened is referred to as a target room. If it is determined that a person is present in the target room, the result is Yes in step S10, and the process proceeds to step S20. If it is determined that no person is present in the target room, No is determined in step S10, and the process proceeds to step S40.

  In step S <b> 20, the control unit 22 determines whether the number of people in the target room is greater than or equal to the threshold number based on the detection result transmitted from the human sensor 70 in the target room. If the number of people in the room is equal to or greater than the threshold number of people, Yes is determined in step S20, and the process proceeds to step S30. If the number of people in the room is less than the threshold number, No is returned in step S20, and the process returns to step S10.

  The threshold number of persons is a threshold for determining whether or not to change the opening time or the number of times of opening of the air supply port 41 of the air supply unit 40 in the target room, and is set in the control unit 22 in advance. The threshold number of people can be arbitrarily changed by inputting instruction information for instructing the change from the remote operation device 10. The instruction information received by the input unit 11 of the remote operation device 10 is transmitted to the control unit 22 of the control device 20 via the control unit 14 and the communication unit 13 of the remote operation device 10.

  In step S <b> 30, the control unit 22 sets a change setting value in which the opening time of the air supply port 41 of the air supply unit 40 in the target room is longer than the initial setting value of the opening time set in the control unit 22. Then, opening / closing of the air supply port 41 of the air supply unit 40 in the target room is controlled based on the changed set value. Alternatively, the control unit 22 increases the number of opening of the air supply port 41 of the air supply unit 40 in one cycle of the ventilation operation with respect to the target room more than the initial setting value of the number of openings set in the control unit 22. The changed setting value is set, and the opening / closing of the air supply port 41 of the air supply unit 40 in the target room is controlled based on the changed setting value. Thereby, the ventilation system 2 can increase the ventilation amount of the target room where the room air is easily contaminated due to the presence of the person of the threshold number or more, and the air in the target room can be further purified.

  After step S <b> 30, the control unit 22 ends a series of linkage control within one cycle of the ventilation operation for the current target room. In addition, within one cycle of ventilation operation, for the target room set with a change setting value with a longer opening time or a change setting value with a larger number of opening times, setting of a further setting value for opening time or opening frequency Is not done.

  On the other hand, in step S40, the control unit 22 reduces the opening time of the air supply port 41 of the air supply unit 40 of the target room to be shorter than the initial setting value of the opening time set in the control unit 22, and performs 24-hour ventilation. Is set to the lower limit value, and the opening and closing of the air supply port 41 of the air supply unit 40 in the target room is controlled. Then, the control unit 22 returns to step S10.

  By performing the above-described control, the ventilation system 2 realizes appropriate ventilation corresponding to the presence / absence of the person in the target room and the number of people in the target room based on the detection result of the human sensor 70, thereby reducing the air in the target room. It can be cleaned more and can provide a comfortable and safe environment.

FIG. 12 is a flowchart showing a procedure of control processing in cooperation with the CO ₂ sensor 80 in the control unit 22 of the control device 20 of the ventilation system 2 according to the second embodiment of the present invention. Hereinafter, the ventilation operation based on the detection result of the CO ₂ sensor 80 in the ventilation system 2 will be described. The following processing is performed during the control in the control unit 22 of the control device 20 described with reference to FIG.

In step S110, the control unit 22 of the control device 20 determines whether the CO ₂ concentration of the indoor air in the target room is higher than the threshold concentration based on the detection result transmitted from the CO ₂ sensor 80 in the target room. When it is determined that the CO ₂ concentration of the indoor air in the target room is higher than the threshold concentration, Yes in step S110, and the process proceeds to step S120. When it is determined that the CO ₂ concentration of the indoor air in the target room is equal to or lower than the threshold concentration, No is determined in step S110, and the control unit 22 repeats step S110.

  The threshold concentration is a threshold for determining whether or not to change the opening time or the number of times of opening of the air supply port 41 of the air supply unit 40 in the target room, and is set in the control unit 22 in advance. The threshold concentration can be arbitrarily changed by inputting instruction information for instructing change from the remote operation device 10. The instruction information received by the input unit 11 of the remote operation device 10 is transmitted to the control unit 22 of the control device 20 via the control unit 14 and the communication unit 13 of the remote operation device 10.

In step S <b> 120, the control unit 22 sets a change setting value in which the opening time of the air supply port 41 of the air supply unit 40 in the target room is longer than the initial setting value of the opening time set in the control unit 22. Then, opening / closing of the air supply port 41 of the air supply unit 40 in the target room is controlled based on the changed set value. Alternatively, the control unit 22 increases the number of opening of the air supply port 41 of the air supply unit 40 in one cycle of the ventilation operation with respect to the target room more than the initial set value of the number of openings set in the control unit 22. The changed setting value is set, and the opening / closing of the air supply port 41 of the air supply unit 40 in the target room is controlled based on the changed setting value. Thus, the ventilation system 2 can be CO ₂ concentration in the indoor air can be increased ventilation higher target room than the threshold concentration, to reliably reduce the CO ₂ concentration in the room air of the target room.

  After step S120, the control unit 22 ends a series of cooperative control within one cycle of the ventilation operation for the current target room. In addition, within one cycle of the ventilation operation, for the current target room set with a change setting value with a longer opening time or a change setting value with a larger number of opening times, a further setting value for changing the opening time or the number of times of opening. Is not set.

By performing the above control, the ventilation system 2 realizes appropriate ventilation corresponding to the CO ₂ concentration of the indoor air in the target room based on the detection result of the CO ₂ sensor 80, thereby further purifying the air in the target room. It is possible to provide a comfortable and safe environment.

Instead of increasing the opening time as described above, the exhaust air volume of the exhaust unit 30, that is, the air volume of the exhaust-side blower 32, may be set larger than the initial set value set in the control unit 22. Thus, the ventilation system 2, based on a detection result of the CO ₂ sensor 80, can achieve appropriate ventilation corresponding to the CO ₂ concentration of the room air in the target room.

Note that, in a room where many people gather, such as a living room, where the CO ₂ concentration in the room air is high and the air is easily contaminated, the opening time of the air supply unit 40 is set longer than the other rooms even in the initial setting. It is preferable.

  FIG. 13: is a flowchart which shows the procedure of the control processing cooperated with the indoor temperature sensor 90 and the outdoor temperature sensor 100 in the control part 22 of the control apparatus 20 of the ventilation system 2 concerning Embodiment 2 of this invention. Hereinafter, the ventilation operation based on the detection results of the indoor temperature sensor 90 and the outside air temperature sensor 100 in the ventilation system 2 will be described. The following processing is performed during the control in the control unit 22 of the control device 20 described with reference to FIG.

  In step S210, the control unit 22 of the control device 20 determines whether or not the room temperature in the target room is higher than the outside temperature based on the detection results transmitted from the outside temperature sensor 100 and the room temperature sensor 90 in the target room. . If it is determined that the room temperature of the target room is higher than the outside air temperature, the result in Step S210 is Yes, and the process proceeds to Step S220. When it is determined that the room temperature of the target room is equal to or lower than the outside air temperature, the result in Step S210 is No, and the control unit 22 returns to Step S210.

  The process of step S220 is the same as that of step S120 of the flowchart shown in FIG. Thereby, the ventilation system 3 can increase the ventilation amount of the present target room, and can reduce the indoor temperature of the present target room.

  After step S <b> 220, the control unit 22 ends a series of linkage control within one cycle of the ventilation operation for the current target room. In addition, within one cycle of the ventilation operation, for the current target room set with a change setting value with a longer opening time or a change setting value with a larger number of opening times, a further setting value for changing the opening time or the number of times of opening. Is not set.

  By performing the control described above, the ventilation system 2 realizes appropriate ventilation corresponding to the room temperature in the target room based on the detection results of the room temperature sensor 90 and the outside air temperature sensor 100, and sets the room temperature in the target room. It can be optimized and a comfortable and safe environment can be provided.

  For example, in summer, the room temperature in the room may be higher than the outside air temperature with the house 200 closed. In this case, the opening time of the air supply port 41 of the air supply unit 40 in the room where the room temperature is higher than the outside air temperature is automatically set to be greater than the initial setting value of the opening time set in the control unit 22. By ventilating for a long time, the room temperature can be lowered for each target room. Such ventilation can exhaust heat from the target room before operating the air conditioner installed in the target room, and can contribute to energy saving of the air conditioner.

  In the ventilation system 2, when the exhaust capacity in the exhaust unit 30, that is, the exhaust amount can be changed in a plurality of stages, instead of increasing the opening time or increasing the number of openings, the exhaust air amount of the exhaust unit 30, The air volume of the exhaust side blower 32 may be set to be larger than the initial set value set in the control unit 22. Thereby, the ventilation system 2 can implement | achieve appropriate ventilation corresponding to the condition of the target room based on the detection result of the sensor. Further, by combining the change of the opening time or the number of opening times of the air supply port 41 of the air supply unit 40 with the change of the exhaust air volume of the exhaust unit 30, it is possible to further control the ventilation amount.

  As a modification of the ventilation system 1, the opening time of the air inlet 41 in each air supply unit 40 is automatically changed or automatically based on the operating state of various household equipment in the house 200. By changing the number of times of opening, appropriate ventilation corresponding to the situation of the room can be realized. FIG. 14 is a block diagram showing the configuration of the ventilation system 3 according to the second embodiment of the present invention. The arrows in FIG. 14 indicate the signal transmission direction.

  The ventilation system 3 according to the second embodiment further includes a range hood fan 120 and a lighting device 130 in addition to the configuration of the ventilation system 1 according to the first embodiment. The range hood fan 120 and the lighting device 130 can communicate with the control device 20 via the communication line 140. In addition to the function of the ventilation system 1 according to the first embodiment, the ventilation system 3 can perform a ventilation operation based on the operating states of various household equipment in the house 200. That is, in the ventilation system 3 according to the second embodiment, it is possible to perform a cooperative operation that is a ventilation operation in cooperation with the in-house equipment in the house 200. Home equipment is various electronic devices arranged in a building, and here, a range hood fan 120 and a lighting device 130 are exemplified.

  The range hood fan 120 is an exhaust fan provided in the kitchen in the house 200. During operation, the range hood fan 120 transmits operation information, which is a signal notifying that it is operating, to the control unit 22 of the control device 20 via the communication line 140 at a predetermined cycle. In addition, when the range hood fan 120 stops the operation of the range hood fan 120, stop information, which is a signal for notifying that the operation is stopped, is sent in advance to the control unit 22 of the control device 20 via the communication line 140. Transmit at a fixed period.

  The lighting device 130 is installed in each room in the house 200 where the air supply unit 40 is provided. When the lighting device 130 is turned on, the lighting device 130 transmits lighting information, which is a signal indicating that the lighting device 130 is turned on, to the control unit 22 of the control device 20 via the communication line 140 at a predetermined cycle. When the lighting device 130 is turned off, the lighting device 130 transmits light-off information, which is a signal notifying that the lighting device is turned off, to the control unit 22 of the control device 20 via the communication line 140 at a predetermined cycle.

  FIG. 15: is a flowchart which shows the procedure of the control processing cooperated with the range hood fan 120 in the control part 22 of the control apparatus 20 of the ventilation system 3 concerning Embodiment 2 of this invention. Hereinafter, the ventilation operation based on the operation state of the range hood fan 120 in the ventilation system 3 will be described. The following processing is performed during the control in the control unit 22 of the control device 20 described with reference to FIG.

  In step S310, the control unit 22 of the control device 20 determines whether or not the range hood fan 120 is operating based on whether the operation information is received from the range hood fan 120 or the stop information is received. . The control unit 22 determines that the range hood fan 120 is in operation when the operation information is received. The control part 22 determines with the range hood fan 120 having stopped, when the stop information is received. If it is determined that the range hood fan 120 is in operation, the result is Yes in step S310, and the process proceeds to step S320. When it determines with the range hood fan 120 having stopped, it becomes No in step S310, and the control part 22 returns to step S310.

  In step S320, the control unit 22 sets the opening time of the air supply port 41 of the air supply unit 40 having the shortest air path between the range hood fan 120 and the initial setting of the opening time set in the control unit 22. A change set value longer than the value is set, and the opening / closing of the air supply port 41 of the air supply unit 40 in the target room is controlled based on the change set value. Or the control part 22 of the air inlet 41 of the air supply part 40 in 1 cycle of the ventilation operation | movement with respect to the air inlet 41 of the air supply part 40 with the shortest air path between the range hood fans 120 is provided. A change set value is set in which the number of times of opening is greater than the initial set value of the number of openings set in the control unit 22. And the control part 22 controls opening and closing of the air inlet 41 of the air supply part 40 with the shortest air path between the range hood fans 120 based on a change setting value. Thereby, the ventilation system 3 can increase the air supply from the air supply port 41 of the air supply part 40 with the shortest air path between the range hood fan 120, and can reduce the negative pressure of a kitchen. Become.

  Here, when the air supply unit 40 having the shortest air path to the range hood fan 120 is the air supply unit 40 arranged in the current target room, the control unit 22 sets the current target room. Ventilation is controlled by setting a change set value for the arranged air supply unit 40. In addition, when the air supply unit 40 with the shortest air path to the range hood fan 120 is not the air supply unit 40 arranged in the current target room, the control unit 22 sets the change setting value described above. No change is made for the air supply unit 40 having the shortest air path with the range hood fan 120 among the air supply units 40 arranged in the target rooms after the next target room, and ventilation is performed. Control.

  In step S320, the control unit 22 determines whether or not the air supply unit 40 arranged in the current target room regardless of whether or not the air path to the range hood fan 120 is the shortest air supply unit 40. It is also possible to control the ventilation by setting a changed set value. Also in this case, although the effect is reduced as compared with the case where the supply air from the supply port 41 of the supply unit 40 having the shortest air path to the range hood fan 120 is increased, the negative pressure of the kitchen can be reduced. It becomes possible.

  After step S320, the control unit 22 ends a series of linkage control within one cycle of the ventilation operation for the current target room. In addition, within one cycle of ventilation operation, for the target room set with a change setting value with a longer opening time or a change setting value with a larger number of opening times, setting of a further setting value for opening time or opening frequency Is not done.

  By performing the above control, the ventilation system 3 is configured to supply air from the air supply port 41 of the air supply unit 40 having the shortest air path to the range hood fan 120 based on the operation state of the range hood fan 120. You can increase your mind and reduce the negative pressure of the kitchen, which can prevent the kitchen windows from opening.

  FIG. 16: is a flowchart which shows the procedure of the control processing linked with the illuminating device 130 in the control part 22 of the control apparatus 20 of the ventilation system 3 concerning Embodiment 2 of this invention. Hereinafter, the ventilation operation based on the operating state of the lighting device 130 in the ventilation system 3 will be described. The following processing is performed during the control in the control unit 22 of the control device 20 described with reference to FIG.

  In step S410, the control unit 22 of the control device 20 determines whether the lighting device 130 is turned on based on whether the lighting information is received from the lighting device 130 or the turn-off information is received for the target room. judge. The control unit 22 determines that the lighting device 130 is turned on when the lighting information is received. The control unit 22 determines that the lighting device 130 is turned off when the turn-off information is received. When it is determined that the lighting device 130 in the target room is turned on, it is determined that there is a person in the target room, Yes in step S410, and the process proceeds to step S420. If it is determined that the lighting device 130 in the target room is turned off, the result in Step S410 is No, and the control unit 22 returns to Step S410.

  The process of step S420 is the same as that of step S120 of the flowchart shown in FIG. Thus, the ventilation system 3 can increase the ventilation amount of the current target room where it is determined that the lighting device 130 is lit, can further purify the air in the current target room, and is comfortable. A safe environment can be provided. In step S420, the control unit 22 sets the opening time of the air supply port 41 of the air supply unit 40 of the target room to be longer than the initial setting value of the opening time of another room where the lighting device 130 is not currently lit. It may be set. In addition, the control unit 22 sets the number of openings of the air inlet 41 of the air supply unit 40 of the target room to be larger than the initial setting value of the number of openings of the other room where the lighting device 130 is not currently lit. Also good.

  After step S420, the control unit 22 ends a series of linkage control within one cycle of the ventilation operation for the current target room. In addition, within one cycle of ventilation operation, for the target room set with a change setting value with a longer opening time or a change setting value with a larger number of opening times, setting of a further setting value for opening time or opening frequency Is not done.

  By performing the above control, the ventilation system 3 can reduce the negative pressure of the kitchen by increasing the supply air from the supply port 41 of the supply unit 40 based on the operation state of the lighting device 130. The occurrence of a situation where it is difficult to open the kitchen window can be suppressed.

  In the ventilation system 3, when the exhaust capacity in the exhaust unit 30, that is, the exhaust amount can be changed in a plurality of stages, instead of increasing the opening time or increasing the number of openings, the exhaust air amount of the exhaust unit 30, That is, the air volume of the exhaust fan 32 may be set larger than the initial set value set in the control unit 22. Thereby, the ventilation system 3 can implement | achieve appropriate ventilation corresponding to the condition of the object room similarly to the above based on the operation state of the illuminating device 130. Further, by combining the change of the opening time or the number of opening times of the air supply port 41 of the air supply unit 40 with the change of the exhaust air volume of the exhaust unit 30, it is possible to further control the ventilation amount.

  As a modification of the ventilation system 1, the control unit 22 of the control device 20 may have a clock function. Thereby, the control unit 22 automatically changes the opening time of the air supply port 41 of the air supply unit 40 provided in the bedroom to be longer than the initial setting value at night when the bedroom is used, and the bedroom is used. In the daytime when there are few, it is possible to automatically change the value shorter than the initial setting value. As described above, since the control unit 22 has a clock function, it is possible to change the opening time of the air supply port 41 of each air supply unit 40 according to the living pattern of the resident or the use situation of the room. Necessary and sufficient ventilation is possible for each room.

  In addition, switching of opening / closing of the air supply port 41 in the air supply unit 40 is performed based on an open / close signal transmitted from the control unit 22 of the control device 20. For this reason, it is possible to forcibly ventilate an arbitrary room at an arbitrary timing by sending an interrupt processing signal from the remote control device 10 to the control unit 22.

  In addition, the ventilation systems 2 and 3 can easily adjust the ventilation amount after building of the building, which was difficult in general type 3 ventilation due to diversification of the room layout, by the setting in the control unit 22. Settings and changes are possible.

  Further, in the ventilation systems 2 and 3, by connecting the control device 20 and the HEMS, the above-described ventilation can be performed as one method of air conditioning management of each room in the house 200. Further, the function of the control device 20 may also serve as a home equipment centralized management device that controls operations such as operation, stop, and air volume adjustment of a plurality of home equipment in the house 200 by remote management in the HEMS.

  As described above, the ventilation systems 2 and 3 according to the second embodiment have the same effects as the ventilation system 1.

  Moreover, the ventilation system 2 concerning this Embodiment 2 can implement | achieve appropriate ventilation corresponding to the condition of a target room by performing the ventilation driving | operation linked with various sensors. Moreover, the ventilation system 3 concerning this Embodiment 2 can implement | achieve appropriate ventilation corresponding to the condition of a target room by performing the ventilation driving | operation linked with in-home equipment.

Embodiment 3 FIG.
In the above-described embodiment, the case where the third type ventilation is performed in which the exhaust side is mechanical ventilation and the supply side is natural ventilation has been described. However, the above-described processing is performed in which the exhaust side is natural ventilation and the supply side is mechanical ventilation. You may apply when performing a certain 2nd type ventilation. That is, the shutter-equipped air supply unit 40 may be an air supply fan. In this case, the shutter-equipped exhaust unit 30 does not include the exhaust-side fan 32.

  FIG. 17: is a figure which shows the structural example in the house 200 of the ventilation system 4 concerning Embodiment 3 of this invention. FIG. 18 is a block diagram illustrating a functional configuration of the ventilation system 4 according to the third embodiment of the present invention. The ventilation system 4 according to the third embodiment provided in the house 200 which is a two-story building includes a remote control device 10, a control device 20, an air supply unit 160 with a shutter, an exhaust unit 150 with a shutter, The home wireless line 50 and the home communication line 60 are provided. In the ventilation system 4, about the structure similar to the ventilation system 1, the same code | symbol as the ventilation system 1 is attached | subjected and description is abbreviate | omitted.

  As shown in FIG. 17, in the house 200, an exhaust unit 150 with a shutter is disposed on a wall adjacent to the outside of the building in the room 211 on the first floor. In addition, the ventilation system 4 includes an air supply unit 160a with a first shutter, an air supply unit 160b with a second shutter, and an air supply unit 160c with a third shutter as the air supply unit 160 with a shutter. The air supply unit 160a with the first shutter is disposed on a wall adjacent to the outside of the building in the room 212 on the first floor. The air supply unit 160b with the second shutter is disposed on a wall adjacent to the outside of the building in the room 213 on the second floor. The third shutter-equipped air supply unit 160c is disposed on a wall adjacent to the outside of the building in the room 214 on the second floor.

  The exhaust unit 150 with a shutter does not include the exhaust side blower 32, and is different from the exhaust unit 30 with a shutter in that natural ventilation is performed at the exhaust port 31.

  The air supply unit 160 with a shutter includes an air supply side blower 45 and is different from the air supply unit 40 with a shutter in that mechanical ventilation is performed at the air supply port 41. The air supply side blower 45 is a blower that blows air to supply air outside the building through the air supply port 41 into the building. In other words, the air supply side blower 45 is a mechanical ventilation device that ventilates room air through a vent.

  In the third embodiment, the air supply port 41 is one or more air ventilated by the air supply side blower 45 among a plurality of air vents provided in a wall adjacent to the outside of the building in the ventilation system 3. It is the 1st vent which is a vent. Moreover, in this Embodiment 3, the exhaust port 31 is 1st by which ventilation is performed by the supply side air blower 45 among the some vent holes provided in the wall adjacent to the exterior of a building in the ventilation system 4. A vent other than the vent. In the third embodiment, the exhaust port 31 corresponds to one second vent that is opened by the shutter during the ventilation operation and another vent that is not opened by the shutter during the ventilation operation.

  Therefore, the ventilation system 4 performs the second type ventilation. The ventilation system 4 replaces the opening time of the air supply port 41 of the air supply unit with shutter 40 in each of the above-described embodiments with the operation time of the air supply side blower 45 of the air supply unit 160 with shutter. The same effects as those in the above-described embodiment can be obtained. In the above-described embodiment, the ventilation system 4 determines the number of openings in one cycle of the ventilation operation at the air supply port 41 of the air supply unit 40 with the shutter in each room as the supply side in one cycle of the ventilation operation. By replacing with the number of operations of the blower 45, the same effect as in the above-described embodiment can be obtained.

  In the ventilation system 4, when the exhaust capacity in the air supply unit 160 with a shutter, that is, the air supply amount can be changed in a plurality of stages, the opening time of the air supply port 41 in the target room within one cycle of the ventilation operation. Instead of increasing the air flow rate, or instead of increasing the number of operations of the air supply side fan 45 in the target room within one cycle of the ventilation operation, the air supply amount of the air supply unit 160 with the shutter, that is, the air amount of the air supply side fan 45 is changed. The number may be larger than the initial setting value set in the control unit 22. Thereby, the ventilation system 4 can implement | achieve appropriate ventilation corresponding to the condition of the object room similarly to the case of the ventilation system 2 and the ventilation system 3. Further, by combining the change in the opening time of the air supply port 41 or the change in the number of operations of the air supply side blower 45 and the change in the air supply air amount of the air supply unit 160 with the shutter, further fine ventilation amount can be obtained. Can be controlled.

  Therefore, even in the ventilation system 4 that performs the second type ventilation, it is possible to reliably perform the necessary ventilation in each room without being affected by the more diversified floor plan, and the balance of the necessary ventilation amount for each room can be achieved. Good ventilation is possible.

Embodiment 4 FIG.
FIG. 19 is a diagram illustrating a configuration example in the house 200 of the first ventilation system 5 and the second ventilation system 6 according to the fourth embodiment of the present invention. In the first embodiment described above, as shown in FIG. 1, a configuration is shown in which ventilation of each room on the first floor and the second floor is performed by one exhaust part 30 provided on the first floor. The exhaust unit 30 may be provided in one room on each floor. It is assumed that there are a plurality of rooms provided with the air supply unit 40 on each of the first floor and the second floor.

  In this case, the first shutter-equipped exhaust unit 30a that is the exhaust unit 30 is disposed in the first-floor room 221, and the first shutter-equipped supply unit 40a that is the air-supply unit 40 is disposed in the first-floor room 222. The air supply unit 40b with the second shutter which is the air supply unit 40 is arranged in the room 223 which is a room on the first floor. In addition, a second shutter-equipped exhaust unit 30b serving as the exhaust unit 30 is disposed in the second-floor room 224, and a third shutter-equipped air supply unit 40c serving as the air-supplying unit 40 is disposed in the second-floor room 225. An air supply unit 40d with a fourth shutter, which is an air supply unit 40, is arranged in a room 226 which is a room on the second floor.

  And the remote operation apparatus 10, the control apparatus 20, the 1st air supply part 40a and the 2nd air supply part 40b which are the air supply parts 40 of the some room of the 1st floor, and the 1st exhaust provided in the 1st floor The first ventilation system 5 is configured by the unit 30a. In addition, the remote operation device 10, the control device 20, the third air supply unit 40c and the fourth air supply unit 40d, which are the air supply units 40 of a plurality of rooms on the second floor, and the second exhaust provided on the second floor. The second ventilation system 6 is configured by the unit 30b.

  The first ventilation system 5 and the second ventilation system 6 can perform the ventilation operation shown in the above-described embodiment. In addition, the remote operation device 10 and the control device 20 control the ventilation shown in the above-described embodiment with respect to the first ventilation system 5 and the second ventilation system 6. Thereby, ventilation shown in the embodiment mentioned above can be performed for each of the first floor and the second floor. Thereby, the ventilation time of each room per day can be secured for a long time at the initial setting stage, the air in the target room can be further purified, and a comfortable and safe environment can be provided. .

  Therefore, in Embodiment 4, the building has a multi-storey structure, and the exhaust-side blower 32 that is a mechanical ventilation device is arranged on each floor of the building. And the control part 22 opens the exhaust port 31 which ventilates with the exhaust part 30 with a shutter, and operates the exhaust side air blower 32 in each floor of a building in the target room among several air supply openings 41. The provided air supply port 41 is opened by a shutter, and the other air supply ports 41 are closed.

  The first ventilation system 5 and the second ventilation system 6 may perform ventilation operation completely independently. In addition, the first ventilation system 5 and the second ventilation system 6 may perform ventilation operation alternately. In this case, when the exhaust part 30 of one of the first ventilation system 5 and the second ventilation system 6 is operating, the exhaust part 30 of the other ventilation system is stopped and the shutter is also turned off. It should be closed.

  The first ventilation system 5 and the second ventilation system 6 can also be applied when the second type ventilation is performed by the ventilation system 4 described in the third embodiment.

  The configuration described in the above embodiment shows an example of the contents of the present invention, and the technologies of the embodiment can be combined with each other or can be combined with another known technology. However, part of the configuration may be omitted or changed without departing from the gist of the present invention.

  1, 2, 3, 4 Ventilation system, 5 First ventilation system, 6 Second ventilation system, 10 Remote control device, 11 Input unit, 12 Display unit, 13, 21, 34, 43 Communication unit, 14, 22 35, 44 Control unit, 20 Control device, 30, 150 Exhaust unit with shutter, 30a Exhaust unit with first shutter, 30b Exhaust unit with second shutter, 31 Exhaust port, 32 Exhaust air blower, 33, 42 Opening / closing processing unit 40,160 Air supply part with shutter, 40a Air supply part with first shutter, 40b Air supply part with second shutter, 40c Air supply part with third shutter, 40d Air supply part with fourth shutter, 41 Air supply port 45 Air supply side blower 50 Home wireless line 60 Home communication line 70 Human sensor 80 Carbon dioxide sensor 90 Indoor temperature sensor 1 0 outside air temperature sensor, 101 processor, 102 memory, 110, 140 communication line, 120 range hood fan, 130 lighting equipment, 160a first air supply unit with shutter, 160b second air supply unit with shutter, 160c third air supply with shutter Kibe, 200 houses, 211, 212, 213, 214, 221, 222, 223, 224, 225, 226 rooms.

Claims (15)

A plurality of vents provided in each of a plurality of rooms provided in the building and communicating with the outside of the building;
A shutter that opens and closes the vent;
A mechanical ventilator for ventilating the room air through the vent;
A controller for controlling opening and closing of the shutter and operation of the mechanical ventilation device;
With
The control unit is configured to open a first ventilation port, which is one or more of the plurality of ventilation holes, with the shutter and operate the mechanical ventilation device, except for the first ventilation hole. One of the plurality of vents is opened by the shutter and the other vent is closed,
Ventilation system featuring. The control unit opens, after the passage of a predetermined time, one of the plurality of vent holes other than the first vent hole by the shutter, and opens the second vent hole. Closing by the shutter;
The ventilation system according to claim 1. The control unit is based on any one of a volume of the room, a distance between the room and the mechanical ventilation device, a carbon dioxide concentration of air in the room, or a person's occupancy state in the room, Changing the opening time of the shutter of the second vent;
The ventilation system according to claim 1 or 2. The control unit has an opening time for opening the shutter that opens and closes the vent provided in the room having a relatively large volume among the vents that are not ventilated by the mechanical ventilator. An opening time for opening the shutter that opens and closes the vent provided in the room is relatively small,
The ventilation system according to claim 3. The control unit has a relative distance between the mechanical ventilator and the room provided with the vent that is not ventilated by the mechanical ventilator among the vents that are not ventilated by the mechanical ventilator. The time for opening the shutter that opens and closes the vent provided in the long room is the distance between the room provided with the vent that is not ventilated by the mechanical ventilator and the mechanical ventilator. Longer than the time for opening the shutter to open and close the vent provided in the relatively short room,
The ventilation system according to claim 3. A human sensor for detecting a person in the room;
When the number of people in the room in which the second ventilation port is provided is equal to or greater than a predetermined threshold number based on the detection result of the human sensor, the control unit performs the second ventilation. An opening time for opening the mouth by the shutter is longer than a predetermined opening time of the second ventilation port;
The ventilation system according to claim 3. A carbon dioxide sensor for detecting the carbon dioxide concentration of the air in the room;
When the carbon dioxide concentration of the air in the room provided with the second vent is higher than a predetermined threshold concentration based on the detection result of the carbon dioxide sensor, the control unit Making the opening time for opening the vent by the shutter longer than the predetermined opening time of the second vent;
The ventilation system according to claim 3. The air volume of the mechanical ventilator is determined based on any one of the volume of the room, the distance between the room and the mechanical ventilator, the carbon dioxide concentration of the air in the room, or the presence of a person in the room. Changing,
The ventilation system according to claim 1 or 2. The controller is configured to open the shutter that opens and closes the vent provided in the room having a relatively large volume among the vents that are not ventilated by the mechanical ventilator. The air volume is larger than the air volume of the mechanical ventilator when the shutter that opens and closes the vent provided in the room having a relatively small volume is opened,
The ventilation system according to claim 8. The control unit has a relative distance between the mechanical ventilator and the room provided with the vent that is not ventilated by the mechanical ventilator among the vents that are not ventilated by the mechanical ventilator. The air volume of the mechanical ventilator when the shutter that opens and closes the vent provided in the long room is opened, the room provided with the vent that is not ventilated by the mechanical ventilator, and the room More than the air volume of the mechanical ventilator when opening the shutter that opens and closes the vent provided in the room with a relatively short distance to the mechanical ventilator,
The ventilation system according to claim 8. A human sensor for detecting a person in the room;
The said control part is the air volume of the said mechanical ventilator in case the number of people in the said room in which the said 2nd vent was provided is more than a predetermined threshold number of persons based on the detection result of the said human sensor More than the predetermined air volume of the mechanical ventilation device,
The ventilation system according to claim 8. A carbon dioxide sensor for detecting the carbon dioxide concentration of the air in the room;
The controller controls the mechanical ventilation device when the carbon dioxide concentration of the air in the room provided with the second vent is higher than a predetermined threshold concentration based on the detection result of the carbon dioxide sensor. Making the air volume larger than the predetermined air volume of the mechanical ventilation device;
The ventilation system according to claim 8. The mechanical ventilator is an exhaust mechanical ventilator that exhausts air in the building to the outside of the building,
Performing type 3 ventilation,
A ventilation system according to any one of claims 1 to 12, characterized in that The mechanical ventilation device is a mechanical ventilation device for supplying air that supplies air outside the building into the building,
Performing type 2 ventilation,
A ventilation system according to any one of claims 1 to 12, characterized in that The building has a multi-story structure;
The mechanical ventilation is located on each floor of the building;
The control unit opens the second vent hole with the shutter while the mechanical ventilator is opened and the vent hole for ventilating with the mechanical ventilator is opened with the shutter on each floor of the building. Closing the other vents,
15. A ventilation system according to any one of claims 1 to 14, characterized in that

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