KR101349812B1 - Heat recovery type ventilator - Google Patents

Abstract

The present invention relates to a heat recovery type ventilator, the outside air inlet 11 and the air outlet 12 is provided on the wall surface exposed to the outside of the building, respectively, the outside air supply mechanism ( 13) and the intake air inlet 14 and the housing 10 having an inner space in the center, and disposed in the inner space of the housing 10, each corner is in close contact with the center of each inner surface of the wall four corners Filters are provided in the heat exchanger 20 for partitioning the space and for performing heat exchange between the indoor and outdoor air, and adjacent to the heat exchanger 20 on the outside air inlet 11 side and the inside air intake 14. 30) and check the filter 30 by detecting a pressure change in the air supply, exhaust fans 41 and 42, and the air supply and exhaust air flows passing through the filter 30, which control the flow of the internal and external air. Configuration including filter checking time recognition means do.
Therefore, it is possible to easily understand the condition of the filter and to manage the filter, and to prevent the deterioration of the life of the element due to dust deposition, and to improve the competitiveness and reliability by increasing the heat exchange efficiency and minimizing the loss of air volume. Effect such as being able to.

Description

Heat recovery type ventilator

The present invention relates to a heat recovery type ventilator, and more particularly, a pressure sensor for detecting a pressure change of a supply and exhaust air flow through a filter and a guide tube for guiding the supply and exhaust air flow to the pressure sensor. And a filter inspection timing recognizing means comprising a notification unit for informing the external user of the detection signal of the pressure sensor so as to detect the pressure change of the air supply and exhaust air flow passing through the filter, and then inspect the filter. The present invention relates to a heat recovery type ventilator for reminding the user of the timing.

In general, in recent apartments and houses, due to the development of construction technology, the airtightness of the interior is greatly improved, and a heat recovery type ventilation device is installed in which air is supplied and ventilated because ventilation is not performed without opening a window. .

Such a heat recovery type ventilator forcibly sucks indoor air and outdoor air by the operation of a blower, ventilates the indoor air to the outside, and supplies fresh air to the indoor air, thereby absorbing and exhausting the outside air. An outdoor air intake and exhaust duct, which is a passage, and an indoor air intake and exhaust duct, which are passages for sucking and releasing indoor air, are configured as a heat exchanger for conducting heat exchange between the outdoor air and indoor air.

The heat exchanger uses the principle of exchanging latent heat by using a temperature difference between the supplied external air and the internal air, and since the outdoor hot or cold air does not flow into the room as it is, the supplied external air rapidly increases the room temperature. It is possible to prevent the heat loss by not lowering or lowering.

Referring to the heat recovery type ventilation apparatus of the prior art, as shown in FIG. 1, the outside air inlet 11 and the air outlet 12 are provided on the wall exposed to the outside of the building, respectively, and are exposed to the inside of the building. The external air supply mechanism 13 and the air intake opening 14 are provided on the wall, respectively, and have a housing 10 having an inner space at the center thereof, and are disposed in the inner space of the housing 10, each corner of which is disposed in each of the walls. The heat exchanger 20 closes to the center of the side and divides the four corner spaces and simultaneously exchanges heat between the inside and the outside air, and the heat exchanger 20 on the outside air intake port 11 side and the inside air intake port 14 side. The filter 30 provided in the adjacent part and the air supply and exhaust fan 41 and 42 which control the flow of the said internal and external air are comprised, respectively.

Here, when the ventilation device is operated, external air is sucked through the outside air inlet 11 by the exhaust fan 41 and 42, and then sequentially passes through the filter 30 and the heat exchanger 20, and then the outside air supply mechanism 13 Through the room.

Then, the ventilated internal air is sucked through the intake air inlet 14, and then sequentially passed through the filter 30 and the heat exchanger 20, and then discharged to the outside through the intake air outlet 12.

At this time, the dust and the like contained in the air to be sucked and the discharged bet is filtered by the filter 30, respectively, by the heat exchanger 20, the outdoor hot air or cold air does not flow into the room as it is, supply The outside air is prevented from rapidly increasing or lowering the room temperature to prevent heat loss and to be supplied to the room.

During this ventilation, suspended matter such as dust and the like contained in the air to be supplied and exhausted is filtered by a filter, and the filtered suspended matter and the like are removed through a filter inspection and cleaning to ensure smooth supply and exhaust. It is.

On the other hand, as a notification function for recognizing the degree of contamination and the state of the conventional filter, for example, when it arrives at the operation accumulation time set at the time of manufacture to inform the user of the filter cleaning notification of the heat recovery type ventilation device, A function for informing the user and determining whether the filter 30 is blocked has been presented.

However, the heat recovery type ventilation apparatus of the related art is provided with a function to determine whether the filter is clogged by recognizing the accumulated operation time of the ventilation device to the user as described above. The accuracy of the filter cannot be determined by indicating only the degree.In areas with high air pollution due to regional deviations, it is necessary to replace the filter before the cumulative operation time arrives. The filter is in good condition even when it is exceeded, so it is not possible to confirm the exact replacement time of the filter only by the cumulative operation time, and there is no separate recognition means for the user to accurately know the inspection time of the filter. Long-term use or short-term use in dusty areas In addition, the filter was clogged, the overall performance of the ventilator is not only degraded, but also had problems such as damage to the components (elements) inside the device.

The present invention is to solve the above problems, an object of the present invention is a pressure sensor for detecting a pressure change of the air supply, exhaust air flow through the filter and a guide for guiding the air supply, exhaust air flow to the pressure sensor Filter inspection timing recognition means comprising a tube and a notification unit for informing the external user to detect the detection signal of the pressure sensor to detect the change in the supply and exhaust air flow through the filter and then inspect the filter By making the user aware of the timing, it is possible to easily understand the condition of the filter and manage the filter, and to prevent the element's lifespan from being accumulated due to dust accumulation, as well as to increase the overall heat exchange efficiency and minimize the loss of air volume. Providing heat recovery type ventilation device that can improve competitiveness and reliability through will be.

In the heat recovery type ventilation apparatus according to the present invention for achieving the above object, the air inlet and the air outlet are provided on the wall surface exposed to the outside of the building, respectively, and the air supply mechanism on the wall surface exposed to the interior of the building, respectively. A housing having an internal space at the center and provided with an air inlet; A heat exchanger disposed in the interior space of the housing, the corners of which are in close contact with the center of each inner surface of the wall to partition four corner spaces and simultaneously exchange heat between the inside and the outside air; A filter installed at adjacent portions of the heat exchanger on the outside air inlet side and the inside air inlet side; And a grade and exhaust fan for controlling the flow of the internal and external air, the heat recovery type ventilator including: detecting a change in pressure of the grade and exhaust air flow passing through the filter to recognize a check time of the filter; The filter is characterized in that the filter inspection time recognition means is further provided.

The filter checking time recognizing means may include: a pressure sensor for detecting a change in pressure of the air supply and exhaust air flow passing through the filter, and a guide tube for guiding the pressure of the air supply and exhaust air flow to the pressure sensor; And a notification unit for informing the external user to recognize the detection signal of the pressure sensor.

In addition, the filter check time detecting means is characterized in that arranged around the supply, exhaust fan.

In addition, the guide tube is characterized in that the open front end is arranged to be perpendicular to the air flow discharged by the supply, exhaust fan.

In addition, the guide tube is in close contact with the housing which is the rim of the air outlet, one end thereof is connected to the pressure sensor, the other end is extended straight to the air outlet, air supply, exhaust fan is disposed inside the air outlet Characterized in that the structure made a right angle with the air flow direction discharged from.

As described above, the heat recovery type ventilator according to the present invention includes a pressure sensor for detecting a pressure change of the air supply and exhaust air flow through the filter, a guide tube for guiding the air supply and exhaust air flow to the pressure sensor; Filter inspection time recognition means comprising a notification unit for informing the external user to detect the detection signal of the pressure sensor to detect the change in the supply and exhaust air flow passing through the filter to determine the inspection time of the filter By making the user aware of the filter, it is possible to easily understand the condition of the filter and manage the filter, thereby preventing the deterioration of the life of the element due to dust deposition, and to improve the overall heat exchange efficiency and minimize the loss of air volume. And the like to achieve improved reliability.

1 is a schematic plan view showing a heat recovery type ventilation apparatus according to the prior art.
Figure 2 is a schematic perspective view showing a heat recovery type ventilation apparatus according to the present invention.
Figure 3 is a schematic plan view showing a heat recovery type ventilator according to the present invention.
Figure 4 is a schematic side view showing a heat recovery type ventilator according to the present invention.
5 is a conceptual view showing a differential pressure detection process of the heat recovery type ventilation apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 2 to 5, the heat recovery type ventilator of the present invention is provided with an outside air suction port 11 and the air outlet 12, respectively, on the wall surface exposed to the outside of the building, which is exposed to the inside of the building The external air supply mechanism 13 and the air intake opening 14 are provided on the wall, respectively, and have a housing 10 having an internal space at the center thereof, and are disposed in the internal space of the housing 10, each corner having a respective inner surface of the wall. Adjacent to the center and the heat exchanger 20 to partition the four corner spaces at the same time to allow the heat exchange between the indoor, outside air, and adjacent to the heat exchanger 20 on the outside air intake port 11 side and the inside air intake port 14 side The filter 30 is installed in each of the parts, and the air supply, the exhaust fan (41, 42) for controlling the flow of the internal and external air, and the pressure change of the air supply and exhaust air flow through the filter 30 to detect the filter Recognition of filter inspection time to recognize the inspection time of (30) It is a structure including a means.

Here, the filter check time recognition means, the pressure sensor 51 for detecting a pressure change of the supply and exhaust air flow passing through the filter 30, the supply and exhaust air flow to the pressure sensor 51 It comprises a guide tube 52 for guiding the pressure and the notification unit 53 for informing the external user to recognize the detection signal of the pressure sensor 51.

On the other hand, the notification unit 53 may take various means within a range that can be recognized by the user, for example, an alarm for generating a sound by receiving a signal from the pressure sensor 51 may be applied.

In addition, a signal of the pressure sensor 51 may be output to a display (not shown) of a remote controller (not shown) capable of controlling the device so that the user may recognize it.

In addition, the filter check time recognition means is preferably disposed around the supply and exhaust fans 41 and 42, the guide tube 52 has an open end thereof to the supply and exhaust fans (41, 42) It may be arranged to be perpendicular to the air flow discharged by.

That is, the guide tube 52 is tightly fixed to the housing 10 which is an edge of the bet outlet 12 so that one end thereof is connected to the pressure sensor 51, and the other end thereof is the bet outlet 12. It extends straight into the furnace and has a structure perpendicular to the direction of the air flow discharged from the air supply and exhaust fans 41 and 42 disposed inside the air exhaust outlet 12.

Here, the guide tube 52 may be applied to a straight pipe-like copper pipe or silicon hose.

In the heat recovery type ventilation apparatus according to the embodiment of the present invention according to such a configuration, when looking at the installation process of the filter check time recognizing means, first, the guide tube 52 closely adheres to the housing 10 which is an edge of the bet outlet 12. One end thereof is connected to the pressure sensor 51 in a fixed state, and the other end thereof extends straight to the air outlet 12 to be discharged from the exhaust fan 42 disposed inside the air outlet 12. It should be perpendicular to the direction of airflow.

In addition, the pressure sensor 51 is connected to the notification unit 53 is exposed to the outside of the housing 10, such as a separate alarm, the installation is completed.

In this state, when the ventilation device is operated, the outside air is sucked through the outside air intake port 11 by the exhaust fans 41 and 42 to sequentially pass through the filter 30 and the heat exchanger 20, and then to the outside air level. The air is supplied into the room through the mechanism 13.

Then, the vented internal air is sucked through the intake air inlet 14 and sequentially passed through the filter 30 and the heat exchanger 20, and then discharged to the outside through the intake air outlet 12.

At this time, the dust and the like contained in the air to be sucked and the discharged bet is filtered by the filter 30, respectively, indoors where outdoor hot air or cold air passing through the heat exchanger 20 passes through the heat exchanger. By exchanging heat with the temperature and supplying it to the room, heat loss is prevented because outdoor air does not cause the room temperature to increase or decrease rapidly.

While the ventilation is performed for a predetermined time, dust is accumulated to some extent in the filter 30, and as a result, a change occurs in the supply and exhaust air flow pressures.

At this time, the pressure change of the air flow is the same change (so-called static pressure change) occurs in the pressure of the air flowing through the guide tube 52 disposed in the direction perpendicular to the air flow, this pressure sensor 51 After detecting that the user through the notification unit 53 to allow the user to check the filter (30).

As described above, the heat recovery type ventilator according to an embodiment of the present invention includes a pressure sensor for detecting a pressure change of the air supply and exhaust air flow through the filter, and a guide tube for guiding the air supply and exhaust air flow with the pressure sensor. And a filter inspection timing recognizing means comprising a notification unit for informing the external user of the detection signal of the pressure sensor so as to detect the pressure change of the air supply and exhaust air flow passing through the filter, and then inspect the filter. By making the user aware of the timing, it is possible to easily understand the condition of the filter and manage the filter, and to prevent the life of the element due to dust deposition, and to increase the heat exchange efficiency and minimize the air flow loss. Through this, it is possible to improve competitiveness and reliability.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It should be understood that all of the techniques that can be easily changed and used by those skilled in the art are included in the technical scope of the present invention.

10 housing 11 outside air intake
12: bet outlet 13: air supply mechanism
14: air intake 20: heat exchanger
30: filter 41: air supply fan
42 exhaust fan 51 pressure sensor
52: guide tube 53: notification unit

Claims (5)

The outside air inlet 11 and the air outlet 12 are respectively provided on the wall surface exposed to the outside of the building, and the outside air supply mechanism 13 and the air intake 14 are respectively provided on the wall exposed to the interior of the building. A housing 10 having an inner space in the center;
A heat exchanger (20) disposed in the interior space of the housing (10), each corner being in close contact with the center of each inner surface of the wall to partition four corner spaces and at the same time to exchange heat between the interior and the outside;
A filter (30) installed at adjacent portions of the heat exchanger (20) on the outside air inlet (11) side and the inside air inlet (14);
The air supply and exhaust fans 41 and 42 which govern the flow of the internal and external air; and
In the heat recovery type ventilator comprising a filter check time detection means for detecting the pressure change of the supply and exhaust air flow passing through the filter 30 to recognize the check time of the filter 30,
The filter check time recognition means,
Pressure sensor 51 for detecting the pressure change of the supply, exhaust air flow passing through the filter 30; And
A guide tube 52 for guiding the pressure of the air supply and exhaust air flow to the pressure sensor 51; And
Notification unit 53 for informing the external user to recognize the detection signal of the pressure sensor 51;
Heat recovery type ventilator, characterized in that configured to include. delete The method of claim 1,
The filter check time recognition means is a heat recovery type ventilator, characterized in that disposed around the air supply, exhaust fan (41, 42). The method of claim 3,
The guide tube (52) is a heat recovery type ventilator, characterized in that the open end is arranged to be perpendicular to the air flow discharged by the supply and exhaust fan (41, 42). 5. The method of claim 4,
The guide tube 52 is in close contact with the housing 10, which is an edge of the bet outlet 12, and one end thereof is connected to the pressure sensor 51, and the other end thereof extends straight to the bet outlet 12. And a heat recovery type ventilator configured to form a right angle with the air flow direction discharged from the air supply and exhaust fans 41 and 42 disposed inside the air exhaust outlet 12.

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