KR200341143Y1 - Heat Recovery Ventilation System without Duct System - Google Patents

Abstract

The present invention relates to a waste heat recovery ventilation system of the ductless type, the body portion 11 is fixedly installed on one side of the side wall of the building, and the heat storage type heat exchange element 12 and the bi-directional blowing is possible in the body portion 11 The air supply and exhaust means 13 is installed so that indoor and outdoor air is ventilated periodically through the heat storage heat exchange element 12 by driving the air supply and exhaust means 13.

Description

Heatless Ventilation System without Duct {Heat Recovery Ventilation System without Duct System}

The present invention relates to a ventilation system installed in a building, in particular, it is possible to recover waste heat while ventilating indoor air through a compact size ventilation means that does not require a complicated duct installed on the ceiling of the building and is easy to maintain. The ductless waste heat recovery ventilation system.

As it is well known, the trend of these days is to build a highly sealed building by blocking the interior of the building from the outside environment in order to secure the independence of the surrounding environment and the building interior environment or to suppress energy waste. If the building's airtightness is increased, natural ventilation becomes difficult, so a separate ventilation facility is required. The conventional ventilation method through the window is the outdoor cold in the process of discharging the indoor air to the outside and introducing the outdoor air into the room. Or, as hot air flows into the room, cooling efficiency is lowered in summer and heating efficiency is lowered in winter.

In order to solve this problem, a ventilation system using a total heat exchanger configured to ventilate while recovering energy contained in air introduced into or discharged into a room has been recently introduced, and a ventilation system using the total heat exchanger is illustrated. With reference to Figure 1 and Figure 2 showing the structure of the total heat exchanger will be described a conventional ventilation system.

As shown in FIG. 2, the heat exchanger 200 has an exhaust inlet 280 for introducing indoor air and an outside air outlet 270 for delivering outdoor air to one side of a case of a predetermined shape. On the other side of the case, an outdoor air inlet 250 for introducing outdoor air and an exhaust outlet 260 for discharging indoor air to the outside are formed, and the inner space of the case is divided into four spaces by a partition wall. The heat exchange unit 210 is provided at the center of the case where the partition wall is intersected to exchange heat between the indoor air discharged to the outside and the air introduced from the outside, and an exhaust fan 220 and an air supply fan 230. These are each provided.

The heat exchanger 200, as shown in Figure 1, is installed on one side of the ceiling formed in the upper part of the building, the exhaust inlet 280 of the heat exchanger 200 is an exhaust duct that is a flow path of the air exhausted to the outside It is connected to the 230, the exhaust duct 230 is installed in a structure in communication with the exhaust port 210 installed in the ceiling of each of the interior (100, 110, 120, 130).

On the other hand, the outside air outlet 270 of the heat exchanger 200 is connected to the air supply duct 240, which is a distribution path of air flowing into the room, the air supply duct 240 is provided to the ceiling of each of the interior (100, 110, 120, 130) It is installed in a structure in communication with the mechanism 220.

That is, the exhaust inlet 280 and the outdoor air outlet 270 of the total heat exchanger 200 are connected to the indoor space by the exhaust duct 230 and the air supply duct 240, and the outdoor air inlet of the total heat exchanger 200 ( 250 and the exhaust outlet 260 is connected to the outdoor space.

Accordingly, when the above-described ventilation system is operated for ventilation of indoor air, a path for introducing external air and a path for discharging indoor air operates differently from each other.

Thus, the conventional ventilation system using the total heat exchanger 200 is too large in size and requires the configuration of a complex exhaust duct 230 and the air supply duct 240, the exhaust duct 230 and the air supply duct 240 In order to install the ceiling height (天井 高) of a certain height must have secured a problem.

In addition, when the heat exchange function of the heat exchanger 200 is not desired and only the normal ventilation is desired, there is a problem that the heat exchanger 200 has to be complicated to perform the bypass function.

In addition, the pre-heat exchanger 200 has a problem that the maintenance is difficult even though the device price is quite expensive.

The present invention has been devised to solve the above problems, and can be installed directly on the side wall of the building without the need for a complicated duct installed on the ceiling of the building, and the compact ventilation means for easy maintenance The purpose of the present invention is to provide a ductless waste heat recovery ventilation system capable of recovering waste heat while ventilating indoor air.

1 is an internal installation showing a state of a building installed with a ventilation system according to the prior art,

Figure 2 is a schematic cross-sectional view showing the structure of a total heat exchanger according to the prior art,

Figure 3 is an internal installation showing the appearance of the building installed the ventilation system according to the present invention,

Figure 4 is a schematic cross-sectional view showing the structure of the ventilation means according to the present invention,

Figure 5 is a schematic cross-sectional view showing the structure of the ventilation means separated from the supply and exhaust means according to the present invention,

6 is a plan view of a building installed with a plurality of ventilation means according to the present invention.

-Explanation of symbols for the main parts of the drawings-

10: ventilation means 11: body

12: heat storage heat exchange element 13: supply and exhaust means

13 ': Exhaust fan 13 ": Air supply fan

20 control means

The present invention for achieving the above object, the body portion is fixed to one side wall of the building is installed, the heat storage heat exchange element and the air supply and exhaust means is installed in the body portion, By the drive, the indoor and outdoor air is ventilated through the regenerative heat exchange element periodically.

Here, the air supply and exhaust means may be made of a single fan capable of two-way blowing, or divided into an air supply fan and an exhaust fan may be disposed in front and rear of the heat storage heat exchange element, respectively, the moisture storage material and the filter inside the body portion It is characterized in that it is possible to additionally install the humidity control and foreign matter removal.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an internal installation showing the appearance of a building with a ventilation system according to the present invention, Figure 4 is a schematic cross-sectional view showing the structure of the ventilation means according to the present invention, Figure 5 is a supply and exhaust means according to the present invention is separated Figure 6 is a schematic cross-sectional view showing the structure of the ventilation means, Figure 6 is a plan view of a building in which a plurality of ventilation means according to the present invention is installed.

Ventilation means 10 according to the present invention, the body portion 11 is fixed to one side wall of the building is installed, the heat storage heat exchange element 12 and the supply and exhaust means 13 is installed in the body portion 11 It is made, but the air supply and exhaust means 13 is made of a single fan capable of two-way blowing, the fan can perform the air supply and exhaust function in a way to reverse the rotation direction or a variable pitch method.

Here, the heat storage heat exchange element 12 is made of a phase change material (PCM) such as paraffin or other heat storage material.

In addition, as shown in FIG. 5, the air supply and exhaust means 13 may be divided into an air supply fan 13 ′ and an exhaust fan 13 ″ and disposed at the front and the rear of the heat storage heat exchange element 12, respectively.

Hereinafter, the operation of the present invention will be described in detail.

When the outside air temperature is lower than the indoor (100,110) air being heated as in winter, when the air supply and exhaust means (13) of the ventilation means (10) is vented to ventilate the interior (100,110), the room (100,110) The heat exchange is performed in the course of the warm air passing through the heat storage heat exchange element 12, the heat storage heat exchange element 12 is stored in a predetermined temperature range, the temperature of the discharged air is discharged to the outside while lowering.

On the contrary, when the air supply / exhaust means 13 is supplied with air, heat is exchanged through the heat storage heat exchange element 12 in which external cool air is already stored, and the temperature of the heat storage heat exchange element 12 is lowered and radiated. The temperature of the air supplied to the rooms 100 and 110 is increased.

As described above, in the winter, the air introduced into the rooms 100 and 110 through the repetition of the above-described ventilation process always introduces air having a temperature higher than the outside temperature.

On the other hand, when the outside air temperature is higher than the air (100, 110) air cooling, such as summer, when the air supply and exhaust means (13) of the ventilation means 10 to ventilate the room (100, 110), the indoor ( The heat exchange is performed in the course of the cold air of the 100,110 via the heat storage heat exchange element 12, and the heat storage heat exchange element 12 is cooled down within a predetermined temperature range, and the temperature of the discharged air is discharged to the outside. .

On the contrary, when the air supply / exhaust means 13 is supplied to supply air, heat exchange is performed while the external hot air is stored through the heat storage heat exchange element 12 which is stored cold storage, and the temperature of the heat storage heat exchange element 12 is cooled and cooled. The temperature of the air supplied to the rooms 100 and 110 is lowered.

As described above, in the summer, the air introduced into the indoors 100 and 110 through the repetition of the above-described ventilation process always introduces air having a temperature lower than the outside air temperature.

In addition, a heat storage material (not shown) is disposed between the heat storage type heat exchange element 12 and the supply / exhaust means 13 so as to recover not only the sensible heat but also the latent heat, so that the appropriate indoor (100, 110) humidity is obtained. It can be maintained, and by installing a separate filter to prevent the inflow of the room (100, 110) of foreign matter or the heat storage heat exchange element 12 is contaminated.

On the other hand, even when the air supply and exhaust means 13 according to the present invention is divided into an exhaust fan 13 ′ and an air supply fan 13 ″, the ventilation principle is the same as described above, and thus detailed description thereof will be omitted.

Thus, by installing the ventilation means 10 according to the present invention alone in the room (100,110) that requires ventilation, such as living room or room, it is possible to perform the waste heat recovery ventilation function while repeatedly operating the air supply and exhaust for an appropriate time. 6, when the plurality of ventilation means 10 are electrically connected to the control means 20 and installed in each of the rooms 100, 110, and 120, the control means (by adjusting the airflow balance of each ventilation means 10) Properly controlling the supply and exhaust through 20, the function of supply and exhaust can be performed simultaneously.

In addition, by installing a plurality of ventilation means 10 according to the present invention, it is possible to easily achieve the bypass function for the external air cooling implemented in the conventional heat exchanger 200, which is the exhaust or When only one of the air supply functions is activated, the flow of air proceeds in one direction, and the bypass function is naturally performed after a certain time.

The ventilation means 10 may be manufactured in various sizes to suit the purpose within the scope not departing from the gist of the present invention, and can be variously modified by those skilled in the art.

As described above, according to the present invention, there is no need for a complicated duct installed on the ceiling of the building, and it can be installed directly on the side wall of the building, so it is not limited to the ceiling of the building, and it is manufactured in a compact size and is easy to maintain. This can reduce costs.

Claims (5)

In the ventilation system installed in the building, A body part is fixedly installed at one side of the side wall of the building, and a heat storage heat exchange element and an air supply / exhaust means are installed in the body part, and indoor and outdoor air periodically drives the heat storage heat exchange element by driving the air supply / exhaust means. Waste heat recovery ventilation system of the ductless method, characterized in that the ventilation via. The method of claim 1, The air supply and exhaust means is a ductless waste heat recovery ventilation system, characterized in that consisting of a single fan capable of two-way blowing. The method of claim 1, The air supply and exhaust means is divided into an air supply fan and an exhaust fan, waste heat recovery ventilation system of the ductless type, characterized in that arranged in front and rear of the heat storage heat exchange element, respectively. The method of claim 1, A ductless waste heat recovery ventilation system, characterized in that the damping material is installed in the body portion. The method of claim 1, And ductless waste heat recovery ventilation system, characterized in that the ventilation means is electrically connected to the control means, and the control means is adjusted to simultaneously perform the functions of supply and exhaust.