KR101291647B1 - Bathroom integrated ventilation system and method - Google Patents

Abstract

Bathroom integrated ventilation systems and methods are disclosed. In an integrated bathroom system according to an embodiment of the present invention, an exhaust heat exchanger for discharging at least one of indoor air and bathroom air to the outside by using an exhaust fan and supplying outdoor air to the indoor by using an air supply fan, to the heat exchanger It is connected to the generation air supply and ventilation ports for the generation, the first duct unit including an air supply damper and a ventilation damper for generation ventilation, connected to the bathroom exhaust port configured in the heat exchanger, comprising a bathroom damper for bathroom exhaust Controls the operation for the second duct unit and the household ventilation and bathroom exhaust, and when receiving the bathroom exhaust start signal (on) input by the user, open the bathroom damper and air supply damper and close the ventilation damper to close the bathroom exhaust And performing an additional exhaust for a predetermined time after receiving the end signal (off) of the bathroom exhaust, and then completing the bathroom exhaust operation. It includes a.

Description

BATHROOM INTEGRATED VENTILATION SYSTEM AND METHOD}

The present invention relates to a bathroom integrated ventilation system and method thereof.

In order to prevent indoor air pollution and winter condensation in apartments such as apartments, active indoor ventilation must be achieved. In addition, recently, apartments have become a trend to become high-rise, high-insulation and high-density, and the air-tightening is difficult to introduce natural outside air, and thus there is a limit in preventing pollution problems in the conventional natural ventilation method, so it is necessary to install a ventilation system. .

In general, the ventilation system uses an electrothermal heat exchanger to supply indoor fresh air and quickly discharge indoor contaminated air to promote smooth ventilation of the room and to improve heat exchange efficiency between indoor and outdoor air.

However, the conventional ventilation system can only exchange indoor and outdoor air, and in the case of a multi-family house such as an apartment, a separate bathroom exhaust duct (Air Duct, AD) must be installed for ventilation of the bathroom.

Since the bathroom exhaust duct is commonly used in a building, there is a problem that the actual residential area is narrowed for installation in a part of the bathroom wall surface. And, with the generation ventilation system, there is an additional cost for the individual construction costs and maintenance, and because the roof fan must be configured on the roof, there is a problem that damages the beauty of the building. In addition, there is a problem that the noise caused by the exhaust fan installed in the bathroom and the noise between floors according to the use of the bathroom (toilet) and life are transmitted as it is.

In addition, since the bathroom exhaust duct exhausts relatively high temperature and high humidity bathroom air, residual moisture, condensation water and pollutant gas may be present in the duct, which causes severe condensation due to condensation and leakage and mold contamination. There is a problem.

An embodiment of the present invention is to provide a bathroom integrated ventilation system and method for performing household ventilation and bathroom exhaust through one system.

According to an aspect of the invention, the bathroom integrated ventilation system,

An electric heat exchanger for discharging at least one of indoor air and bathroom air to the outside by using an exhaust fan and supplying outdoor air to the indoor by using an air supply fan; A first duct connected to the generation air supply and the ventilation port configured in the total heat exchanger and including an air supply damper and a ventilation damper for generation ventilation; A second duct portion connected to an exhaust port for a bathroom configured in the heat exchanger and including a damper for bathroom exhaust; And controlling an operation for the household ventilation and bathroom exhaust, and upon receiving a bathroom exhaust start signal (on) input by a user, opening the bathroom damper and an air supply damper, closing the ventilation damper to perform bathroom exhaust, And a controller for completing the bathroom exhaust operation after additionally performing additional exhaust for a set time when receiving the end signal (off) of the bathroom exhaust.

Here, the bathroom exhaust port may be connected to the exhaust port of the heat exchanger to discharge the bathroom air sucked in at least one bathroom to the outside.

The controller may further include: an external connection module configured to transmit a control signal to the heat exchanger, the exhaust damper, the air supply damper, and the bathroom damper, and to receive an operation state accordingly; A switch module configured to receive one of the bathroom exhaust start signal and the end signal from a bathroom exhaust switch; A detection module collecting sensing information of at least one of temperature, humidity, and air pollution level installed in the room; A display module for visually displaying information received through the detection module and an operation state according to driving of the household ventilation and the bathroom ventilation; Memory for storing a program for controlling the operation and the interlocking operation of the bathroom exhaust and household ventilation; And a control module for generating a control signal for controlling the operation of the heat exchanger and each damper based on the program.

The controller may wait for the generation ventilation and perform the bathroom exhaustion when the generation ventilation and the bathroom exhaust are overlapped.

In addition, the bathroom dampers may be provided in a flow path branched to each bathroom by providing a number corresponding to the number of bathrooms when the number of bathrooms is plural.

On the other hand, the integrated bathroom ventilation system according to an aspect of the present invention the method for performing the ventilation and bathroom exhaust,

a) determining whether the household ventilation is in operation when receiving the bathroom exhaust start signal (on) from the bathroom exhaust switch; b) if the generation ventilation is in operation, stopping and waiting for the generation ventilation and operating as the bathroom exhaust; c) when the bathroom exhaust end signal (off) is received from the bathroom exhaust switch, further performing additional exhaust for a preset time and then completing the bathroom exhaust; And d) determining whether the generation ventilation operation is on standby, and resuming the generation ventilation on standby.

In addition, before the step a), if the generation ventilation is started (on) according to the generation ventilation control conditions (operating) the step of operating the supply fan and the exhaust fan of the total heat exchanger; And opening the air supply damper and the ventilation damper of the first duct part connected to the household air supply and the ventilation port configured in the heat exchanger, and closing the bathroom damper of the second duct part connected to the bathroom exhaust port configured in the heat exchanger. It may include.

In addition, the step b) may include opening the air supply damper of the first duct portion and the bathroom damper of the second duct portion, and closing the ventilation damper.

The step d) may include opening the ventilation damper of the first duct part and closing the bathroom damper.

According to an embodiment of the present invention, the exhaust heat exchanger may be provided in the heat exchanger and connected to the bathroom duct to perform the bathroom exhaust together with the household ventilation without the configuration of a separate bathroom fan and a common exhaust duct.

Further, even after the bathroom exhaust is terminated by the user, by performing additional exhaust for a predetermined time, there is an effect of forcibly removing residual moisture, gas, and smell remaining in the bathroom duct.

In addition, it is possible to solve the noise problem between floors by eliminating the exhaust vents for the bathroom and reducing the cost of construction and maintenance costs by managing the household ventilation and the bathroom exhaust.

In addition, since the existing common exhaust duct is unnecessary, it is possible to secure the interior space necessary for constructing it and to secure the architectural beauty by removing the roof fan.

In addition, there is an effect that can perform intensive bathroom exhaust by performing the bathroom exhaust preferentially and polluting the generation air supply during the exhaust of the bathroom.

1 schematically shows the installation structure of the integrated bathroom ventilation system according to an embodiment of the present invention.
Figure 2 shows a control configuration of the bathroom integrated ventilation system according to an embodiment of the present invention.
3 is a block diagram schematically illustrating a configuration of a controller according to an exemplary embodiment of the present invention.
4 is a flowchart illustrating a method of performing household ventilation in an integrated bathroom ventilation system according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating a method of performing a bathroom exhaust by the integrated bathroom ventilation system according to an exemplary embodiment of the present invention.
6 is a flowchart illustrating a method of performing a bathroom exhaust during generation ventilation by the integrated bathroom ventilation system according to an embodiment of the present invention.
Figure 7 shows a control configuration of the bathroom integrated ventilation system according to another embodiment of the present invention.
Figure 8 shows the comparison of the effect of the conventional bathroom exhaust system and the integrated bathroom ventilation system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. Also, the terms " part, "" module," and " module ", etc. in the specification mean a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software have.

Now with reference to the drawings with respect to the integrated bathroom ventilation system and method according to an embodiment of the present invention will be described in detail.

1 schematically shows the installation structure of the integrated bathroom ventilation system according to an embodiment of the present invention.

Referring to FIG. 1, the bathroom integrated ventilation system according to an exemplary embodiment of the present invention includes a total heat exchanger 100, a first duct part 200, a second duct part 300, and a controller 400.

The total heat exchanger (100) discharges indoor air and bathroom air to the outside by using the exhaust fan (110) to perform household ventilation and bathroom exhaust, and supplies the outdoor air to the room by using the air supply fan (120). Ventilate the air.

Hereinafter, the household ventilation is to perform the ventilation of the interior space divided into a room, a living room, a kitchen, and the like by using a ventilation system, the same meaning as the indoor ventilation, the exhaust of the bathroom to exhaust the air in the bathroom to the outside using the ventilation system It means each to discharge.

The first duct unit 200 is connected to the generation air supply and exhaust ports of the total heat exchanger 100 for generation ventilation, respectively.

The second duct part 300 is connected to a bathroom exhaust port configured in the total heat exchanger 100 to exhaust the bathroom.

The controller 400 controls the overall operation of the ventilation system for the household ventilation and bathroom exhaust.

The controller 400 controls the electric heat exchanger 100 and the plurality of electric dampers provided in each of the duct parts 200 and 300, respectively, to stop the generation ventilation and improve the generation air supply to improve the bathroom exhaust volume when the bathroom is exhausted. do. Therefore, the indoor airflow movement for the bathroom exhaust is smooth. The description of the control logic of the generation ventilation and the bathroom exhaust of the controller 400 will be described in detail later.

In addition, the diffuser unit 500 is installed in each interior space through the first duct unit 200 or the second duct unit 300, and the air supply diffuser 510 and the ventilation to perform the air supply function according to the installation purpose It is divided into a ventilation (exhaust) diffuser 520 to perform a function.

On the other hand, Figure 2 shows a control configuration of the bathroom integrated ventilation system according to an embodiment of the present invention.

Referring to FIG. 2, the total heat exchanger 100 of the integrated bathroom ventilation system according to the embodiment of the present invention includes an exhaust fan 110, an air supply fan 120, an external device 130, an air supply 140, Ventilation port 150, an exhaust port 160 and the exhaust port 170 for the bathroom.

The exhaust fan 110 discharges indoor air to the outside, and the air supply fan 120 supplies the outdoor air to the indoor.

The external device 130 sucks outdoor air, and the air supply device 140 is an air passage for supplying fresh air heat-exchanged and purified by the heat exchanger 100 to the room.

The ventilation port 150 sucks indoor contaminated air, and the exhaust port 160 is an air path for discharging the indoor air heat-treated by the pre-heat exchanger 100 to the outside.

Bathroom exhaust port 170 is an air passage for discharging the bathroom air sucked in at least one bathroom to the outside. In this case, the bathroom exhaust port 170 may be connected to the exhaust port 160 of the total heat exchanger 100 to discharge the bathroom air to the outside, but may be connected to the ventilation port 150 to perform a heat recovery process and then the exhaust port 160. Can be discharged through

The first duct part 200 is formed in a pipe shape and includes an air supply pipe 210 and a ventilation pipe 220 connecting the air passage of the total heat exchanger 100.

The air supply pipe 210 is connected to the air supply 140 of the total heat exchanger 100 to transfer outdoor air sucked through the air supply fan 120 to each indoor space, and is formed at an end connected to the air supply 140. The air supply damper 211 is included.

The air supply damper 211 serves as an electric damper to open or close the flow path of the air supply pipe 210 according to the control signal of the controller 400. That is, the air supply damper 211 includes a blocking film and a driving device for passing air to the air supply pipe 210 in the open mode and blocking the air in the closed mode. Since a well-known technique can be used, detailed description thereof is omitted.

The ventilation pipe 220 is connected to the ventilation port 150 of the total heat exchanger 100 to transfer the indoor air sucked in the indoor space to the exhaust fan 110, the ventilation damper 221 formed at the end connected to the ventilation port 150. ).

Like the air supply damper 211, the ventilation damper 221 opens or closes the flow path of the ventilation pipe 220 according to the control signal of the controller 400.

The second duct unit 300 is connected to the bathroom exhaust port 170 added to the total heat exchanger 100 to transfer the air in the bathroom to be discharged to the outside by the exhaust fan 110, and the bathroom exhaust port 170 and Bathroom damper 310 is formed at the end to be connected.

Like the air supply damper 211, the bathroom damper 310 performs an operation of opening or closing the flow path of the second duct part 300 according to a control signal of the controller 400.

3 is a block diagram schematically illustrating a configuration of a controller according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the controller 400 of the integrated bathroom ventilation system according to the embodiment of the present invention includes an external connection module 410, a switch module 420, a display module 430, a detection module 440, Memory 450 and control module 460.

The external connection module 410 transmits a control signal to the total heat exchanger 100 and the respective electric dampers 211, 221, 310, and a communication line for receiving an operation state is connected.

The switch module 420 receives a bathroom exhaust on and off switch signal from a bathroom exhaust switch (not shown).

The display module 430 visually displays the information received through the sensing module and the operation of the bathroom integrated ventilation system.

The detection module 440 collects information detected through a temperature sensor, a humidity sensor, and an air pollution measurement sensor installed in the room. The air pollution measurement sensor may be, for example, a sensor for measuring at least one of carbon dioxide, formaldehyde and volatile organic compounds contained in indoor air.

The memory 450 stores a program for controlling bathroom exhaust and generation ventilation interlocking operations. In addition, the control condition according to the user setting can be stored.

The control module 460 generates a control signal for controlling the operation of the heat exchanger 100 and the electric dampers 211, 221, 310 based on the program.

The control module 460 may basically perform generation ventilation automatically according to one or more control conditions of an operation cycle, time, room temperature, and humidity. For example, the control module 460 may adjust the ventilation amount of the household ventilation in stages (eg, 1/2/3 stages) according to the general occupancy mode, the outing mode, the sleep mode, and the like. Here, the ventilation amount may be adjusted by the output amount of the exhaust fan 110 and the air supply fan 120, for example.

In particular, when the control module 460 receives the end signal off while the bathroom exhaust is performed, the control module 460 does not immediately terminate the bathroom exhaust and performs a delay operation of exhausting the additional bathroom for a preset time (for example, 2 minutes). Characterized in that the control to complete the bathroom exhaust.

That is, by additionally performing additional exhaust for a predetermined time after receiving the bathroom exhaust end signal off by the user, residual moisture, gas, and smell remaining in the second duct part 300 may be forcibly removed. At this time, although the setting time was confirmed to be effective by an additional exhaust operation of about 2 minutes through experiments, the setting time is not limited thereto.

In addition, the controller 400 may receive a control command for generation ventilation and bathroom exhaust and a control condition for an interlocking operation through an input unit (not shown). The control condition includes an operation condition of the ventilation system set by default in the product and an operation condition changed by the user's setting environment.

Meanwhile, the control method of the integrated bathroom ventilation system according to an exemplary embodiment of the present invention will be described with reference to FIGS. 4 to 6.

Operation of the integrated bathroom ventilation system according to an embodiment of the present invention can be largely divided into a case that is not performed at the same time as the generation ventilation and bathroom exhaust. In detail, when only the ventilation of the household is performed, only the ventilation of the bathroom may be divided into four cases of performing the ventilation of the bathroom and the ventilation of the bathroom.

First, FIG. 4 is a flowchart illustrating a method of performing household ventilation by an integrated bathroom ventilation system according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the integrated bathroom ventilation system according to the embodiment of the present invention stops the air supply fan 120 and the exhaust fan 110 in an initial state without an operation command, and stops all dampers 211, 221, and 310. Close (S110).

The controller 400 of the integrated bathroom ventilation system operates the air supply fan 120 and the exhaust fan 110 when the generation ventilation is started according to the generation ventilation control condition, and the air supply damper 211 and the ventilation damper 221. Is switched to the open state. At this time, the bathroom damper 310 maintains a closed state irrespective of the generation ventilation (S120). Hereinafter, the operation of the fan and dampers as in the step S120 is called generation ventilation mode operation.

When the generation ventilation is off, the air supply fan 120 and the exhaust fan 110 stop operation, and the air supply damper 211 and the ventilation damper 221 return to the closed state and return to the initial state ( S130).

Next, FIG. 5 is a flowchart illustrating a method of performing bathroom exhaust by the integrated bathroom ventilation system according to an exemplary embodiment of the present disclosure.

Referring to FIG. 5, the bathroom integrated ventilation system according to an exemplary embodiment of the present invention stops the air supply fan 120 and the exhaust fan 110 in an initial state without an operation command, and stops all the dampers 211, 221, and 310. Close (S210).

The controller 400 of the integrated bathroom ventilation system operates the air supply fan 120 and the exhaust fan 110 when the bathroom exhaust start signal (on) is received from the bathroom exhaust switch provided in the bathroom, and the air supply damper 211 and the bathroom. The damper 310 is switched to the open state (S220). Hereinafter, the operation of the fan and dampers as in step S220 is called a bathroom exhaust mode operation.

At this time, since the hot and humid air is generated in the bathroom, it is preferable to increase the exhaust rate in comparison with other spaces. Thus, the controller 400 of the bathroom integrated ventilation system maintains the ventilation damper 221 in a closed state so that the concentrated exhaust air can be made only in the bathroom.

In addition, when a sudden negative pressure is generated due to the concentrated exhaust of the bathroom in a dense indoor environment, the exhaust is not smoothly made and there is a problem that the exhaust fan 110 is overloaded. Thus, the controller 400 may control the air supply damper 211 in the open state to perform generation air supply so that the bathroom exhaust may be smoothly generated by generating positive pressure in the room.

When the controller 400 of the integrated bathroom ventilation system receives an end of the bathroom exhaust from the bathroom exhaust switch provided in the bathroom, the controller 400 performs additional exhaust for a predetermined time to force residual moisture and gas into the second duct 300. Discharge to (S230).

Then, the controller 400 of the bathroom integrated ventilation system completes the bathroom exhaust until the set time count expires. That is, the air supply fan 120 and the exhaust fan 110 stop operation, and the air supply damper 211 and the ventilation damper 221 return to the closed state to return to the initial state (S240).

Next, a control method for processing the bathroom exhaust first when the integrated ventilation system according to an embodiment of the present invention to perform the generation ventilation and the bathroom exhaust at the same time through FIG. Here, the case of performing the household ventilation and the bathroom exhaust at the same time may be divided into the case of performing the bathroom exhaust of the household ventilation and the case of performing the household ventilation of the bathroom exhaust, in Figure 6 the bathroom exhaust of the household ventilation It will be described with a case to perform.

6 is a flowchart illustrating a method of performing a bathroom exhaust during generation ventilation by the integrated bathroom ventilation system according to an embodiment of the present invention.

The reason for preferentially performing the bathroom exhaust during the household ventilation is that the switch signal is inputted when necessary for the user's bathroom and should be processed immediately. In addition, the bathroom exhaust and generation ventilation may be performed at the same time, but in this case, since the output of the exhaust fan is distributed, the exhaust output is concentrated on the bathroom exhaust.

Referring to FIG. 6, when the controller 400 of the integrated bathroom ventilation system according to the embodiment of the present invention receives a bathroom exhaust start signal (on) from a bathroom exhaust switch provided in a bathroom (S301), the current generation ventilation It is determined whether the operation is in the mode (S302).

At this time, when the controller 400 is not the generation ventilation mode (S302; NO), as shown in FIG. 4, the bathroom integrated ventilation system is operated in the bathroom exhaust mode to start bathroom exhaust (S304).

On the other hand, if the controller 400 is operating in the household ventilation mode (S302; yes), the standby ventilation mode to stop the generation ventilation to preferentially perform the bathroom exhaust (S303), operating the integrated bathroom ventilation system in the bathroom exhaust mode To start the bathroom exhaust (S304). Here, the operation to the bathroom exhaust in the household ventilation mode may be changed by switching the ventilation damper 221 to closed and the bathroom damper 310 to open.

When the controller 400 of the integrated bathroom ventilation system receives a bathroom exhaust end (off) from the bathroom exhaust switch provided in the bathroom (S305), the second duct 300 is performed by performing additional exhaust for a set time (for example, 2 minutes). ) Is forcibly discharged residual water and gas (S306). When the set time count expires, the bathroom exhaust is completed (S307).

Thereafter, the controller 400 of the integrated bathroom ventilation system determines whether the current generation ventilation mode operation is waiting, and if not waiting, terminates all operations and switches to the initial state mode (S308; No).

On the other hand, the controller 400 of the integrated bathroom ventilation system is currently waiting for the generation ventilation mode operation (S308; Yes), the remaining generation ventilation at the time when the generation ventilation is stopped by switching the bathroom exhaust mode operation to the generation ventilation mode operation To perform (S309). At this time, the operation from the bathroom exhaust mode to the household ventilation mode can be switched to the bathroom damper 310 closed, the ventilation damper 221 can be switched to open to resume the household ventilation.

The controller 400 switches to the initial state mode when the generation ventilation resumed according to the generation ventilation control condition (off) (S310).

On the other hand, in the case of performing the ventilation of the bathroom exhaust, the controller 400 of the integrated bathroom ventilation system according to an embodiment of the present invention waits until the completion of the additional exhaust operation after the user off the bathroom exhaust (off) Generation ventilation is started.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications are possible.

For example, in the embodiment of the present invention shown in Figure 2 described as configuring one bathroom damper 310 at the end of the second duct 300 connected to the bathroom exhaust port 170, but is not limited thereto. A plurality of bathroom dampers may be configured according to the number of bathrooms.

Figure 7 shows a control configuration of the bathroom integrated ventilation system according to another embodiment of the present invention.

Referring to FIG. 7, the control configuration of the integrated bathroom ventilation system according to another embodiment of the present invention is similar to the embodiment of FIG. 2, but a plurality of bathrooms are provided so that the flow path of the second duct 300 is The point where the 1st bathroom damper 311 and the 2nd bathroom damper 312 is respectively comprised in the branched into a some bathroom is different.

Therefore, when the controller 400 receives the first bathroom exhaust start signal on from the bathroom exhaust switch provided in the first bathroom, the controller 400 operates the air supply fan 120 and the exhaust fan 110, and supplies the air supply damper 211 with the air supply fan 120. In a state in which the first bathroom damper 311 is opened, the ventilation damper 221 performs a first bathroom exhaust mode operation of controlling to a closed state.

When the controller 400 receives the first bathroom exhaust end signal off from the switch of the first bathroom, the controller 400 performs an additional exhaust for a predetermined time and remains in the flow path of the second duct 300 connected to the first bathroom. Forcibly release moisture and gas.

Similarly, when the controller 400 receives the bathroom exhaust start signal on from the bathroom exhaust switch provided in the second bathroom, the controller 400 operates the air supply fan 120 and the exhaust fan 110, and supplies the air supply damper 211 and the second. With the bathroom damper 312 in the open state, the ventilation damper 221 performs the second bathroom exhaust mode operation to control to the closed state.

When the controller 400 receives the bathroom exhaust end signal off from the switch of the first bathroom, the controller 400 performs additional exhaust for a predetermined time and the residual moisture in the flow path of the second duct 300 connected to the second bathroom. Force gas out.

Therefore, even in a generation in which a plurality of bathrooms are provided, it is possible to perform intensive exhaust for each bathroom, and there is an advantage of forcing residual moisture and gas in the flow path of the duct connected to each bathroom through additional exhaust operation. .

Here, when the ventilation of the bathroom and at least one of the plurality of bathrooms at the same time is made, even if not described in detail in light of the technical spirit of the contents described with reference to FIGS. 6 and 7 Since it can be implemented easily, a detailed description is omitted.

On the other hand, Figure 8 compares the effect of the conventional bathroom exhaust system and the integrated bathroom ventilation system according to an embodiment of the present invention.

Referring to FIG. 8, the bathroom integrated ventilation system according to an exemplary embodiment of the present invention includes an exhaust port 170 for the bathroom in the total heat exchanger 100, and is connected to the second duct part 300 to separate the bathroom fan. There is an effect that can perform the bathroom exhaust with the household ventilation without the configuration of the common exhaust duct (AD).

Even after the bathroom exhaust is terminated by the user, by performing additional exhaust for a predetermined time, there is an effect of forcibly removing residual moisture, gas and odor remaining in the bathroom duct.

In addition, it is possible to solve the noise problem between floors by eliminating the exhaust vents for the bathroom and reducing the cost of construction and maintenance costs by managing the household ventilation and the bathroom exhaust.

In addition, eliminating the bathroom fan can solve the problem of fan noise.

In addition, since the existing common exhaust duct is unnecessary, there is an advantage that the indoor space required to configure it is enlarged.

In addition, there is an effect that can perform intensive bathroom exhaust by performing the bathroom exhaust preferentially and polluting the generation air supply when exhausting the bathroom.

The embodiments of the present invention are not limited to the above-described apparatuses and / or methods, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100: total heat exchanger
110: exhaust fan 120: air supply fan 130: external air
140: air supply port 150: ventilation port 160: exhaust port
170: exhaust vent for the bathroom
200: first duct section
210: air supply line 211: air supply damper
220: ventilation tube 221: ventilation damper
300: second duct portion 310: bathroom damper
400: controller
410: external connection module 420: switch module 430: display module
440: detection module 450: memory 460: control module

Claims (9)

An electric heat exchanger for discharging at least one of indoor air and bathroom air to the outside by using an exhaust fan and supplying outdoor air to the indoor by using an air supply fan;
A first duct connected to the generation air supply and the ventilation port configured in the total heat exchanger and including an air supply damper and a ventilation damper for generation ventilation;
A second duct portion connected to an exhaust port for a bathroom configured in the heat exchanger and including a damper for bathroom exhaust; And
Controlling the operation for the household ventilation and bathroom exhaust, when receiving the bathroom exhaust start signal (on) input by the user, and open the bathroom damper and air supply damper to close the ventilation damper to perform the bathroom exhaust,
When receiving the end signal (off) of the bathroom exhaust comprises a controller for completing the bathroom exhaust operation after further performing additional exhaust for a set time,
The controller may include: an external connection module configured to transmit a control signal to the heat exchanger, the exhaust damper, the air supply damper, and the bathroom damper, and to receive an operation state accordingly; A switch module configured to receive one of the bathroom exhaust start signal and the end signal from a bathroom exhaust switch; A sensing module for collecting at least one information of temperature, humidity, and air pollution level installed in the room; A display module for visually displaying information received through the sensing module and an operation state according to the generation ventilation and the bathroom ventilation operation; Memory for storing a program for controlling the operation and the interlocking operation of the bathroom exhaust and household ventilation; And a control module configured to generate a control signal for controlling the operation of the heat exchanger and each damper based on the program. The method of claim 1,
The bathroom exhaust port,
Bathroom integrated ventilation system is connected to the exhaust port of the heat exchanger characterized in that for discharging the bathroom air sucked in at least one bathroom to the outside. delete The method of claim 1,
The controller,
When the generation ventilation and the bathroom exhaust is overlapped, the integrated bathroom ventilation system, characterized in that the generation of the ventilation and preferentially performing the bathroom exhaust. The method of claim 1,
The damper for the bathroom,
If the number of bathrooms is a plurality of bathroom integrated ventilation system characterized in that provided in the number corresponding to the number of bathrooms configured in the flow path branched to each bathroom. In the integrated bathroom ventilation system to perform household ventilation and bathroom exhaust,
a) determining whether the household ventilation is in operation when receiving the bathroom exhaust start signal (on) from the bathroom exhaust switch;
b) if the generation ventilation is in operation, stopping and waiting for the generation ventilation and operating as the bathroom exhaust;
c) when the bathroom exhaust end signal (off) is received from the bathroom exhaust switch, further performing additional exhaust for a preset time and then completing the bathroom exhaust; And
d) determining whether the generation ventilation operation is on standby and resuming the generation ventilation on standby
Bathroom integrated ventilation method comprising a. The method according to claim 6,
Prior to step a)
Operating the air supply fan and the exhaust fan of the total heat exchanger when generation ventilation is started according to the generation ventilation control condition; And
Opening the air supply damper and the ventilation damper of the first duct part connected to the household air supply and the ventilation port configured in the heat exchanger, and closing the bathroom damper of the second duct part connected to the bathroom exhaust port configured in the heat exchanger
Bathroom integrated ventilation method further comprising. The method of claim 7, wherein
The step b)
And opening the air supply damper of the first duct part and the bathroom damper of the second duct part, and closing the ventilation damper. The method of claim 7, wherein
The step d)
And opening the ventilation damper of the first duct part and closing the bathroom damper.

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