KR101710123B1 - Ventilation apparatus of stand type and heat transfer structure and phytoncides supplying of forced evaporation type - Google Patents

Abstract

More particularly, the present invention relates to a stand type ventilator for supplying a forced evaporation type phytoncide, and more particularly, to a forced ventilation device for forcedly evaporating a phytoncide through a driving heat of an air supply member for discharging outdoor air into a room, And a phytoncide supply device is provided in the ventilator so that the phytoncide is naturally evaporated and supplied to the inside of the room by the discharge of outdoor air discharged together with the ventilator. The present invention relates to a forced evaporation type phytoncide supplying device and a stand type ventilating device of a heat transfer structure which can be used as a stand type instead of being installed on a ceiling while allowing outdoor air and indoor air to be heat exchanged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation system for a forced evaporation type phytoncide and a stand type ventilating apparatus having a heat-

The present invention relates to a stand-type ventilator in which outdoor air and indoor air are exchanged, wherein the ventilator is forcedly evaporated by the heat transfer of the air supply member, and the phytoncide is naturally evaporated and mixed by the discharge of the outdoor air supplied to the room The present invention relates to a ventilator.

Generally, a ventilating apparatus is a device for ventilating indoor air by discharging contaminated air from the room to the outside in a home, an office or a restaurant, and introducing fresh air outdoors into the room.

In the process of discharging the indoor air to the outside by using the ventilator and sucking the outdoor air into the room, heat loss due to the temperature and humidity difference between indoor and outdoor is generated, which causes energy waste.

In other words, indoor air polluted by the air conditioner such as an air conditioner flows outdoors in the summer, and hot air and fresh air outdoors are introduced into the room, so that the temperature of the indoor air is increased The cooling efficiency is lowered, resulting in an increase in energy use for increasing the cooling efficiency.

In winter, indoor air heated by a heating device such as a boiler leaks out to the outside, and fresh and fresh air from the outside flows into the room, so that the temperature of the room is lowered due to the inflow of cold air from the outside The heating efficiency is lowered, so that the energy consumption for heating is increased.

Accordingly, there has been developed a ventilator having a heat exchanger for exchanging heat between outdoor air to be sucked and outdoor air to be sucked in order to minimize heat loss caused by temperature or humidity difference during ventilation.

However, a ventilator equipped with such a conventional heat exchanger is typically installed on the ceiling and connected to a separate duct facility. As such, the conventional ventilator is installed together with a separate duct facility, which is complicated to install and requires a large cost.

In addition, since the polluted air discharged through the human breath is heavy, the ventilation device installed on the ceiling can not effectively exhaust the contaminated indoor air and can not ventilate the indoor air. Therefore, the air purification efficiency .

Phytoncide (Phytoncide), which is a plant extract, has been used as an antioxidant for terpene materials including essential oil, which is produced by forest plants, and phytoncide It is a generic term for all compounds with bactericidal properties and is said to be the most important contributor to the forest-bathing effect.

Terpene, a component of phytoncide, is produced by plants. It is a kind of hydrocarbons in which many isoprenes (C5H8) are gathered. These are terpenes with two, three or four isoprenes, sesquiterpene, diterpene, etc. . Through the photosynthesis of solar energy, plants contain 0.01 to 5% terpene, which is used to obtain the components through steam distillation.

Terpenes are used as bactericides and preservatives because they kill bacteria, fungi, parasites and insects and inhibit growth and proliferation. They can be volatile and liquefied, so they can inhale deep into the body and have less toxicity It can be said that the practical use value is excellent. Since phytoncide, which is naturally produced in these forests, differs from general antibiotics in that it is produced by various plants, it is selective by each bacterium, and there is no side effect such that the antimicrobial agent attacks a specific intensive attack to induce the generation of resistant individuals It is known.

 In addition, they are absorbed by the human body with natural substances, and promote the defense ability of the human. Therefore, development of a device capable of using such a phytoncide with the ventilation device is being developed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a phytoncide to be supplied with mixing of phytoncide when supplying outside air to a room, The phytoncide supply solution is forcedly evaporated and naturally evaporated by the discharge power of the air supply member so that phytoncide is mixed with the outside air and supplied to the room. A ventilation device having a heat exchanger function is installed on the ceiling while a ventilation device of a forced evaporation type phytoncide which has a heat exchange function at the center of the device and is configured as a stand type and a stand- .

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by the means and the combination shown in the claims.

In order to solve the above problems, the present invention provides a stand-type ventilator comprising a central heat exchanger for heat exchange between outdoor air and indoor air, wherein an indoor air intake part (45) A case 1 in which an outdoor air outlet 31 is formed in an upper space 3 and a heat exchange chamber 4 is formed, The indoor air inflow surface 51 and the indoor air inflow surface 54 and the outdoor air inflow surface 53 and the outdoor air inflow surface 52 are formed in a transverse direction below the indoor air sucking portion 45 , A heat exchanger (5) arranged so that the room air inflow surface (51) faces the indoor air sucking portion (45) with an inclination angle; The indoor air inflow space 41 and the indoor air inflow space 41 are formed by the upper vertical partition 47a, the lower vertical partition 47b, the forward horizontal partition 47c and the rear horizontal partition 47d around the heat exchanger 5, A heat exchange chamber 4 defined by a space 42, an outdoor air inflow space 43, and an outdoor air inflow space 44; An air supply member provided in the outdoor air discharge space 44 and the indoor air discharge space 42; The phytoncide is naturally evaporated by the outdoor air discharged from the air supply member and is introduced into the room together with the outdoor air, A phytoncide supplying device 60 for increasing the amount of phytoncide mixed and supplied to the outdoor air by forcibly evaporating the phytoncide by heat transfer of the air supply member by driving the air supply member; And a control unit.

As described above, the present invention has an effect that the phytoncide solution is forcedly evaporated by the heat transfer of the air supply member that discharges outdoor air and supplies it to the room, and is supplied to the room while being mixed with outdoor air.

The present invention is also effective in that the phytoncide is naturally evaporated by the exhaust power of the air supply member in addition to forced evaporation by heat of the air supply member, and is supplied to the room by being mixed with outdoor air.

Further, according to the present invention, since the apparatus is constituted by a stand type without a separate duct facility, the room air is directly exhausted and the outdoor air is directly sucked, so that the installation efficiency can be improved and the installation efficiency can be improved. There is an effect that can be saved.

In addition, the present invention has an effect that the external air and the internal air are efficiently exchanged through the heat exchanger provided in the internal stop.

Further, in supplying the phytoncide, the present invention is not limited to the use of a separate spraying device, but may be a forced evaporation type by the heat of the air supply member provided inside the ventilator and a natural evaporation type by the outdoor air supplied to the indoor , The configuration of the apparatus is simple and simple.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an internal perspective view of a stand-type ventilator of a forced evaporation type phytoncide supply and heat transfer structure according to the present invention. FIG.
Figure 2 is a side view of Figure 1;
3 is a configuration diagram of an embodiment showing a phononchid supplying apparatus according to the present invention.
4 is a configuration diagram of another embodiment of the phononchild supply device according to the present invention.

Before describing in detail several embodiments of the present invention, it will be appreciated that the application is not limited to the details of construction and arrangement of elements set forth in the following detailed description or illustrated in the drawings. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front,""back,""up,""down,""top,""bottom, Expressions and predicates used herein for terms such as "left,"" right, ""lateral," and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation.

The present invention has the following features in order to achieve the above object.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

In order to achieve the above object, according to one embodiment of the present invention, there is provided a stand type ventilator having a central heat exchanger for heat exchange between outdoor air and indoor air, wherein an indoor air intake part (45) A case 1 in which an outlet 31 is formed and in which an inner space is partitioned and an upper space 3 and a heat exchange chamber 4 are formed; The indoor air inflow surface 51 and the indoor air inflow surface 54 and the outdoor air inflow surface 53 and the outdoor air inflow surface 52 are formed in a transverse direction below the indoor air sucking portion 45 , A heat exchanger (5) arranged so that the room air inflow surface (51) faces the indoor air sucking portion (45) with an inclination angle; The indoor air inflow space 41 and the indoor air inflow space 41 are formed by the upper vertical partition 47a, the lower vertical partition 47b, the forward horizontal partition 47c and the rear horizontal partition 47d around the heat exchanger 5, A heat exchange chamber 4 defined by a space 42, an outdoor air inflow space 43, and an outdoor air inflow space 44; An air supply member provided in the outdoor air discharge space 44 and the indoor air discharge space 42; The phytoncide is naturally evaporated by the outdoor air discharged from the air supply member and is introduced into the room together with the outdoor air, A phytoncide supplying device 60 for increasing the amount of phytoncide mixed and supplied to the outdoor air by forcibly evaporating the phytoncide by heat transfer of the air supply member by driving the air supply member; And a control unit.

The phytoncide supply device 60 is fixedly installed in the upper space part 3 such that one side corresponds to the air supply member in the outdoor air discharge space 44 and the phytoncide 61, A storage housing (62); A cover net (64) provided on the upper surface of the storage housing (62) and having a net shape; One end of the cover net 64 is fixedly installed on the bottom surface of the cover net 64 and the other end of the cover net 64 is vertically installed so as to be contained in the phytoncide 61 in the storage housing 62 to absorb the phytoncide 61, (65) that naturally evaporates and discharges the phytoncide (61) wetted to the cover net (64) by the outdoor air supplied to the room through the indoor air outflow section (31) so that the indoor air outlet (61) is moistened. And a control unit.

The phytoncide supply device 60 is fixedly installed in the upper space part 3 such that one side corresponds to the air supply member in the outdoor air discharge space 44 and the phytoncide 61, A storage housing (62); A support 63 fixed at one end to the center of the storage housing 62 and protruding from the upper end of the storage housing 62; A cover net (64) horizontally installed at the other end of the support (63) so as to be spaced apart from the storage housing (62), and having a net shape; The other end is dipped in the phytoncide 61 of the storage housing 62 to absorb the phytoncide 61 so that the phytoncide 61 is attached to the cover net 64. [ A derivative 65 for allowing the absorbed phytoncide 61 to spontaneously evaporate and to be discharged together with the outdoor air together with the phytoncide 61 moistened to the cover net 64 when the outdoor air is discharged into the room so as to be moistened. And a control unit.

Hereinafter, a stand-type ventilator for supplying and heating a forced evaporation type phytoncide according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4. FIG.

The stand type ventilator of the forced evaporation type phytoncide supply and heat transfer structure of the present invention includes a case 1, a heat exchanger 5, a heat exchange chamber 4, an air supply member, and a phonontid supply device 60.

The case 1 is divided into an upper space portion 3 and a heat exchange chamber 4 by partitioning the inner space portion through the partition plate 2. [

In the middle of the front of the case 1, there is formed an indoor air suction part 45 in which contaminated air in the room is sucked into the case 1, and outdoor fresh air An outflow portion 31 is formed. In other words, the outdoor air outflow portion 31 is formed in the upper space portion 3, and the indoor air intake portion 45 is formed in the heat exchange chamber 4.

The heat exchanger 5 is provided in the transverse direction below the indoor air intake part 45 of the heat exchange chamber 4 and has an indoor air inflow surface 51 and an indoor air inflow surface 54 and an outdoor air inflow surface 53 and an outdoor air outflow surface 52 are formed to exchange heat between outdoor air introduced into the heat exchanger 5 and the room air. The room air inlet surface of the heat exchanger 5 51 are disposed inside the heat exchange chamber 4 so as to face each other so as to have an inclination angle with the indoor air sucking portion 45.

The heat exchange chamber 4 is partitioned by the upper partition plate 47a and the lower partition plate 47 vertically provided on the upper and lower portions of the heat exchanger 5. The heat exchange chamber 4 is divided into upper and lower parts by a front horizontal partition 47c and a rear vertical partition 47d horizontally provided before and after the heat exchanger 5.

The inside of the heat exchange chamber 4 is connected to the indoor air inflow space 41, the indoor air inflow space 42, the outdoor air inflow space 43 and the outdoor air inflow space 43 44), so that the outdoor air and the indoor air in the heat exchange chamber are not mixed with each other.

In the present invention, an air supply member provided in the outdoor air discharge space 44 and the indoor air discharge space 42 is further provided. In the rear upper end of the heat exchange chamber 4, that is, the outdoor air discharge space 44, And an outdoor air supply fan 32 for introducing air into the indoor space and discharging the indoor air to the room through the indoor air discharge space 42. The outdoor air supply fan 32 is provided at the rear lower end of the heat exchange room 4, 46 are provided. At this time, the outdoor air supply fan 32 is provided to pass through the partition plate 2.

An outdoor air suction hole 481 is formed at the lower side of the case 1 so that outdoor air can be sucked by the outdoor air supply fan 32.

The indoor air inflow space 42 at the lower rear portion of the case 1 is connected to the lower vertical partition plate 43 so that the outdoor air sucked through the outdoor air intake hole 481 can be introduced into the outdoor air inflow space 43. [ And an outdoor air supply pipe 48 connected to the outdoor air inflow space 43 is installed.

An indoor air outlet hole 461 is formed at the lower side of the side of the case 1 so that indoor air flowing out to the indoor air outlet space 42 can be discharged outdoors by driving the indoor air exhaust fan 46. [ .

In the lower part of the total enthalpy heat exchanger 5, there is provided an absorption member 6 (hereinafter, referred to as an " absorption heat exchanger ") for absorbing condensation water generated on the surface of the total enthalpy heat exchanger 5 by a condensation phenomenon by capillary action, May be provided.

At this time, the absorbent member (6) absorbs moisture and absorbs moisture through a capillary action. The absorbent member (6) is connected to one side of the polymer absorbent and the polymer absorbent, And may be composed of fine fiber bundles.

Accordingly, the condensation water absorbed from the lower portion of the total enthalpy heat exchanger 5 is sucked toward the indoor air discharge hole 461 through the capillary phenomenon, and is discharged by the indoor air discharged according to the driving of the indoor air discharge fan 46 Evaporated and discharged to the outside, it is possible to remove the condensation water generated by the heat exchange action of the total enthalpy heat exchanger.

As described above, in the stand-type ventilator of the forced evaporation type phytoncide supplying and heating structure of the present invention, since the indoor air outlet hole and the outdoor air inlet hole are formed at the lower side of the case and penetrate the wall, As the air is ventilated, it is possible to reduce the cost required for the duct installation and improve the installation efficiency.

The phytoncide supply device 60 discharges the outdoor air to the upper space part 3 through the outdoor air supply fan 32 as an air supply member and then supplies the outdoor air to the indoor space through the indoor air outflow part 31 And the phytoncide 61 can be mixed and discharged to the outside air supplied in this way.

In the present invention, when the outdoor air is discharged through the outdoor air supply fan 32, the driving heat of the outdoor air supply fan 32, which is the air supply member, is not supplied through the separate spraying device, The phytoncide supply device 60 is installed on the bottom surface of the upper space portion 3 and one side of the phytoncide supply device 60 is connected to the outdoor air supply fan 44 installed in the outdoor air discharge space 44, (32) and the partition plate (2) are interposed therebetween. Of course, the discharge side of the outdoor air supply fan 32 is provided so as to pass through the upper space portion 3, and the remaining body portion of the outdoor air supply fan 32 is partitioned by the partition wall 2, (60).

Heat generated when the outdoor air supply fan 32 is driven is transmitted to the phytoncide supply device 60 through the partition plate 2 and the phytoncide (phytoncide supply liquid) in the phytoncide supply device 60 is supplied The phytoncide is mixed with the outdoor air discharged by the outdoor air supply fan 32 and supplied to the room through the outdoor air outlet 31. [

However, in the present invention, in addition to the form (forced evaporation) in which the phononchid is forcedly evaporated by the heat of the air supply member (driving heat of the outdoor air supply fan 32) as described above, The outdoor air is supplied from the outdoor air supply fan 32 to the upper space portion 3 due to the fact that the outdoor air is supplied to the phantom power supply device 60 adjacent to the fan 32, Is evaporated naturally and also serves as a natural evaporation type in which outdoor air is further contained.

To this end, the present invention provides two embodiments with a phononchild feeder 60.

The phonontide supply device 60 of the first embodiment includes a storage housing 62, a cover net 64, and a derivative 65.

The storage housing 62 is installed in the upper space portion 3 so as to correspond to the outdoor air supply fan 32 with the partition plate 2 therebetween as described above, And the phytoncide 61, which is an extract of the untreated white tree, is stored in the liquid storage in the storage housing 62. In other words, the storage housing 62 is fixedly installed on the upper surface of the partition plate 2 in the upper space portion 3 where outdoor air is supplied to the room.

The cover net 64 is formed of a material that can be wetted with the phytoncide 61 and has a net shape. The cover net 64 is formed in a shape corresponding to the upper surface of the storage housing 62, So that it is in the form of a cover corresponding to the upper surface of the storage housing 62.

One end of the derivative 65 is connected to the bottom of the cover net 64 in the interior of the storage housing 62, And the other end is immersed in the storage housing 62 so as to act to suck the phytoncide 61. The derivative 65 is made of a material such as paper or the like and may be made of a variety of materials as long as it is immersed in the phytoncide 61 and can suck the phytoncide 61. The material of the derivative 65 may be, The phytoncide 61 is sucked up to the cover net 64 by the derivative 65 so that the cover net 64 is constantly wetted with the phytoncide 61 do.

Due to this configuration, heat generated by driving the outdoor air supply fan 32 is transmitted to the storage housing 62 to forcefully evaporate the phytoncide in the storage housing 62, and the outdoor air supply fan 32 Is installed on the partition plate (2) in the upper space part (3) when the outdoor air is introduced into the upper space part (3) through the room air outflow part (31) The discharged outdoor air is naturally evaporated by the phytoncide supply device 60 of the first embodiment so that the phytoncide 61 wetted in the cover net 64 is discharged before being discharged through the indoor air outlet 31 And the phytoncide 61 is contained in the outdoor air and is supplied to the inside of the room.

The phonontide supply device 60 of the second embodiment comprises a storage housing 62, a support 63, a cover net 64, and a derivative 65.

In the phononchild supply device 60 of this second embodiment, the structure of the first embodiment and the structure of the storage housing 62 and the cover net 64 are the same.

The support 63 is formed so as to stand upright in a state where one end is fixed at the center of the inner bottom of the storage housing 62. The total length of the support 63 is longer than the total length of the storage housing 62 in the up- So as to protrude to the upper portion of the storage housing 62.

The cover 65 is horizontally raised and fixed to the protruded upper portion of the support 63. The cover 65 is fixed to the bottom surface of the cover 64 by hanging one end of the guide 65 And the other end is immersed in the phytoncide 61 in the storage housing 62. Accordingly, the derivative 65 absorbs the phytoncide 61 and is wetted to the cover net 64.

As a result, the heat generated by the driving of the outdoor air supply fan 32 is transmitted to the storage housing 62 to forcefully evaporate the phytoncide in the storage housing 62. At the same time, through the outdoor air supply fan 32 In the first embodiment of the present invention which is fixed to the partition plate 2 in the upper space portion 3 when the outdoor air is introduced into the upper space portion 3 and then supplied to the room through the room air outlet portion 31, The discharged outdoor air passes through the phytoncide 61 before being discharged through the room air outlet 31 and the derivative 65 and the phytoncide 61 that is soaked in the cover net 64 And the phytoncide 61 is contained in the outdoor air and is supplied to the inside of the room. In this second embodiment, the upper part of the storage housing 62 is opened so that the supplied external air is supplied to the phytoncide 61 (61) stored in the cover 65 and the cover net 64 and the storage housing 62 ) It is also possible to evaporate and discharge.

In such a phononchild feeder 60 according to the first and second embodiments of the present invention, the number of the derivatives 65 suspended from the cover net 64 is not limited to a single number, Or the thickness of the derivative 65 may be variously selected and adjusted to control the amount of phytoncide supplied to the room.

Hereinafter, the operation of the stand-type ventilator for supplying the forced evaporation type phytoncide and the heat-receiving structure according to the present invention will be described.

First, when the outdoor air supply fan 32 and the indoor air exhaust fan 46 are driven (at this time, the outdoor air supply fan 32 heats the phytoncide of the phytoncide supply device 60 by the drive heat and forcibly evaporates Fresh outdoor air is sucked through the outdoor air suction hole 481 and then flows into the heat exchanger 5 through the outdoor air inflow surface 53 and is sucked through the indoor air suction portion 45, Is introduced into the heat exchanger (5) through the room air inlet surface (51).

After the heat exchanged between the outdoor air and the indoor air, the outdoor air flows out through the outdoor air outflow surface 52 and the indoor air flows out from the heat exchanger 5 through the indoor air outflow surface 54 do.

The air flowing out through the outdoor air outflow surface 52 flows out to the upper space portion 3 by driving the outdoor air supply fan 32 and then flows out to the room through the outdoor air outflow portion 31 The phytoncide of the phytoncide supply device 60 is forcibly evaporated by the drive heat of the outdoor air supply fan 32 driven to supply the outdoor air to the room and supplied to the room by being mixed with the outdoor air The outside air is further supplied to the room together with the phytoncide 61 by the indoor air outlet 31 while naturally evaporating the phytoncide 61 of the phytoncide supply device 60 installed in the upper space portion 3 . The air flowing out through the room air outlet surface 54 flows out to the outside through the indoor air outlet hole 461 by driving the indoor air exhaust fan 46.

When the upper space portion 3 is further provided with a curved guide plate 33 having an inclined angle, an air flow path to the outdoor air outlet portion 31 is formed by the inclination angle of the guide plate 33 So that the fresh outdoor air supplied to the outdoor air supply fan 32 easily flows out to the room.

In this way, since the air in the contaminated room and the fresh outdoor air are mutually heat exchanged in the heat exchanger, the fresh air flows out into the room and the contaminated air flows out to the outside, so that the indoor air is cleaned. At the same time, phytoncide, which brings a forest bath effect, is also supplied.

Of course, according to the embodiment of the present invention, the outdoor air outlet 31 for discharging the outdoor air to the room may be formed on the upper side so that fresh air outdoors may not be directly discharged to the person staying in the room.

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 is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

1: Case 2: partition plate
3: upper space part 4: heat exchange chamber
5: heat exchanger 6: absorption member
31: outdoor air outlet 32: outdoor air supply fan
33: guide plate 41: indoor air inflow space
42: indoor air discharge space 43: outdoor air inflow space
44: outdoor air outflow space 45: indoor air intake part
46: indoor air exhaust fan 461: indoor air outlet ball
47a: upper vertical partition 47b: lower vertical partition
47c: front horizontal partition 47d: rear horizontal partition
48: outdoor air supply pipe 481: outdoor air inflow hole
51: room air inlet surface 52: outdoor air outlet surface
53: Outside air inflow surface 54: Indoor air outflow surface
60: Phytoncide supply device 61: Phytoncide
62: storage housing 63: support
64: Cover net 65: Derivative

Claims (3)

And a heat exchanger for heat exchange between the outdoor air and the indoor air is provided at a central portion of the stand type ventilator,
A case 1 in which an indoor air intake part 45 is formed at an intermediate part, an outdoor air outflow part 31 is formed at an upper part thereof, an internal space part is defined and an upper space part 3 and a heat exchange room 4 are formed;
The indoor air inflow surface 51 and the indoor air inflow surface 54 and the outdoor air inflow surface 53 and the outdoor air inflow surface 52 are formed in a transverse direction below the indoor air sucking portion 45 , A heat exchanger (5) arranged so that the room air inflow surface (51) faces the indoor air sucking portion (45) with an inclination angle;
The indoor air inflow space 41 and the indoor air inflow space 41 are formed by the upper vertical partition 47a, the lower vertical partition 47b, the forward horizontal partition 47c and the rear horizontal partition 47d around the heat exchanger 5, A heat exchange chamber 4 defined by a space 42, an outdoor air inflow space 43, and an outdoor air inflow space 44;
An air supply member provided in the outdoor air discharge space 44 and the indoor air discharge space 42;
The phytoncide is naturally evaporated by the outdoor air discharged from the air supply member and is introduced into the room together with the outdoor air, And a phytoncide supplying device 60 for increasing the amount of phytoncide mixed and supplied to the outdoor air by forcibly evaporating the phononchid by heat transfer of the air supply member by driving the air supply member,
The phytoncide supplying device 60 is fixedly installed in the upper space part 3 so as to correspond to the air supply member in the outdoor air discharge space 44 and has a phytoncide 61 A support 63 fixed at one end to the center of the storage housing 62 and the other end protruding from the upper portion of the storage housing 62 and a support 63 fixed at the other end of the support 63, 62 and the other end is connected to the phytoncide 61 of the storage housing 62. The other end of the cover net 64 is connected to the cover wall 64 of the storage housing 62, The cover net 64 is wetted with the phytoncide 61 so that the cover net 64 is wetted with the phytoncide 61 wetted with the cover net 64 when the outdoor air is discharged into the room, A derivative 65 for allowing the phytoncide 61 to spontaneously evaporate and to be discharged together with outdoor air, Made, including,
And the amount of the phytoncide supplied to the room is controlled by adjusting the number of the derivatives (65) or adjusting the thickness of the derivative (65).
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