KR101996782B1 - Temperature Controlling Device For Ventilation Apparatus - Google Patents

Abstract

The present invention relates to a temperature control apparatus for a ventilator which is directly connected to a ventilator ventilating a residential space or an office space while minimizing an occupation space at an installation position of the ventilator. Moreover, the temperature control apparatus for a ventilator can minimize a heat loss and internal dew condensation which can be generated in a ventilation mode, and further, can provide an antibacterial function.

Description

TECHNICAL FIELD [0001] The present invention relates to a temperature control device for a ventilator,

The present invention relates to a temperature control device for a ventilator. More specifically, the present invention minimizes the occupied space at the installation position of the ventilation device for ventilating the residential or office space, minimizes the heat loss and internal condensation that can be generated in the ventilation mode, To a temperature control device for a ventilator.

Generally, the room air ventilation function is generally provided only in a large space such as an office space or a factory. However, in recent years, it is often the case that each household of the newly built apartment is provided with a ventilation function for controlling the pollution degree of indoor air. Since indoor air pollution increases when indoor activity increases, it is necessary to ventilate the room to periodically supply fresh outdoor air to the room and to discharge the contaminated room air to the outside. Recently, the necessity of ventilation of indoor air has become an issue due to reasons such as cooking flue gas, sick house syndrome, or hysteria syndrome.

Such ventilation is preferable in terms of supplying fresh air to the room and discharging the polluted air to the outside, but it is preferable to discharge the indoor air in which heating (or cooling) has been performed at an optimal temperature and to discharge cold (or hot) Heat loss (increase in air conditioning load or energy loss) in the process of entering the air conditioner. In order to prevent heat loss which may be generated in the ventilation process, the ventilator includes a heat exchanger for exchanging heat between the air supplied to the room and the air discharged to the outside, but the temperature difference between the supply air and the exhaust, Because it is not narrowed, it is impossible to operate pure ventilation which completely blocks heat loss.

Also, in the conventional ventilating apparatus, the temperature difference between room air discharged from the room and outdoor air supplied to the room is high in the winter season, so that a condensation phenomenon may occur in the vicinity of the flow path inside the ventilator or the heat exchanger. If the condensation phenomenon is repeated, the heat exchange efficiency between the exhaust gas and the air supply through the heat exchanger is lowered, and the moisture generated by the condensation phenomenon can facilitate the propagation of the germs.

The ventilation device may cause a hygienic problem of polluting the air supplied to the room through the ventilation device if the ventilation device is structurally difficult for the user to wash the inside repeatedly and condensation is generated therein.

The general shape of the ventilator equipped with the heat exchanger applied to the recent apartment or the like is a flat rectangular parallelepiped shape and minimizes the occupancy of the veranda living space and is mounted on the ceiling of the space such as the veranda to exhaust or supply the indoor air and the outdoor air And adopts a structure that minimizes heat loss through a heat exchanger.

A new additional facility for solving the above-mentioned problems can be considered. However, a method of additionally applying to a space in which a general ventilation system is installed and a method for solving a narrow space limitation problem are required. There is no bar.

The present invention minimizes the occupied space at the installation position of the ventilation device for ventilating the residential space or the office space, minimizes the heat loss and internal condensation which can be generated in the ventilation mode, The present invention provides a temperature control device for a ventilating apparatus.

In order to solve the above problems, the present invention provides a temperature control device for a ventilator, which is mounted on an outdoor side surface of a ventilator provided with an air-entraining exchanger and provided with a supply mechanism and an exhaust port on the opposite side, A housing; A pair of air supply mechanisms for introducing air into opposite side surfaces of the upper region; A pair of exhaust ports through which air is exhausted from opposite sides of the upper region; A first damper member and a second damper member which are provided on a side surface on the outdoor side of the upper region and which are provided on the exhaust port and selectively open and close the air supply and exhaust ports; And a third damper member provided in the lower region for selectively interrupting the inflow of the room air from the ventilator, wherein the pair of air supply and exhaust ports face each other, The indoor air is exhausted to the outside, and the outdoor air is exhausted to the outside of the room. The indoor air is exhausted to the outside of the room, Wherein the ventilation mode is a mode in which a part of room air is mixed with outdoor air and is supplied to the room and the rest of the room air is discharged to the outside of the room. have.

Further, in the air cleaning mode, the first damper member and the second damper member of the upper region are closed, and the third damper member of the lower region is controlled to be opened, so that the indoor air passed through the ventilator The bottom area is circulated and contaminants can be filtered and fed to the ventilator through the top area.

In the ventilation mode, the first damper member and the second damper member of the upper region are in an open state, and the third damper member of the lower region is controlled in a closed state, One indoor air passes through the upper region and is discharged to the outside, and the air supplied from the outside can be supplied to the ventilator through the upper region through the upper region.

Here, in the temperature regulation ventilation mode, the first damper member and the second damper member of the upper region are controlled to be partially opened, and the third damper member of the lower region is controlled to be opened or partially opened, Is partially mixed with outdoor air supplied through the upper area and the lower area and supplied to the ventilator through the upper area, and at the same time, the rest of the indoor air via the ventilator is supplied to the upper And can be discharged outdoors through the area.

In this case, the opening ratio of at least one of the damper members of the upper region and the damper member of the lower region may be different from the opening ratio of the remaining damper members.

The thickness of the lower region may be greater than the thickness of the upper region.

Further, a clamp for clamping the side end portions of the ventilating apparatus may be provided at the upper and lower ends of the upper region of the temperature regulating apparatus.

The width of the upper region of the temperature regulating device may coincide with the width of the ventilator.

The width of the upper region of the temperature regulating device may be the same as the width of the lower region.

Here, the lower region of the temperature regulating device may include a filter portion for removing indoor air, outdoor air, or mixed air of indoor air and outdoor air passing therethrough.

In this case, the lower region of the temperature regulating device may further include a phonontide liquid spraying portion spraying the phytoncide solution to the room air, the outdoor air, or the mixed air of the indoor air and the outdoor air.

In addition, a step corresponding to the thickness deviation of the upper region and the lower region may be provided between the upper region and the lower region of the temperature regulating apparatus.

Also, the total thickness of the lower region may be in the range of 1.5 to 5 times the thickness of the upper region.

The indoor air or outdoor air flowing through the upper region of the temperature regulating device and passing through the lower region may have a U-shaped flow path.

According to the temperature control device for a ventilator according to the present invention, a part of exhausted indoor air passing through a heat exchanger of a ventilator in a temperature-controlled ventilation mode is supplied to the room by mixing with outdoor air through a temperature control device It is possible to suppress or minimize the occurrence of condensation due to heat loss and a temperature deviation therefrom.

In addition, according to the temperature control device for a ventilator according to the present invention, a filter portion including, for example, a HEPA filter is provided on the flow path inside the temperature control device, and the air passing through the temperature control device is filtered again The concentration of fine dust can be further reduced.

In addition, according to the temperature control device for a ventilator according to the present invention, antibacterial means by a phonontide liquid spraying portion is provided on a ventilation flow path to minimize antibacterial or contamination of the ventilator, have.

In addition, according to the temperature control device for a ventilator according to the present invention, the thickness of the upper region, which is an area to be coupled with the ventilator, is made smaller than the thickness of the lower region where temperature control, filtering and phytoncide antibacterial are performed, The upper area of the temperature control device is mounted between the walls so that there is no need to waste a separate space or replace the equipment while using a general ventilation device.

Further, according to the temperature control device for a ventilator according to the present invention, it is possible to provide a supplementary means that can alleviate or solve the problem of the ventilator, which has not been solved in the prior art, while achieving the original purpose of the ventilator.

FIG. 1 is a plan view of a residential space provided with a ventilation system according to an embodiment of the present invention, and FIG. 2 is a view illustrating a ventilation system constituting the ventilation system of FIG. 1 mounted on a ceiling of an air conditioner.
Fig. 3 shows a perspective view of the ventilation device and the temperature control device of Fig. 1 in a directly assembled state.
Fig. 4 shows a perspective view of the ventilation device and the temperature control device of Fig. 3 in their separated states.
Fig. 5 shows a flow path of air in a state in which the ventilation device and the temperature control device of the present invention are operated in the air purification mode.
6 shows a flow path of air in a state where the ventilator and the temperature control device of the present invention are operated in a general ventilation mode.
FIG. 7 shows a flow path of air in a state in which the ventilator and the temperature control device of the present invention are operated in the temperature regulation ventilation mode.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Like reference numerals designate like elements throughout the specification.

FIG. 1 is a plan view of a residential space provided with a ventilation system according to an embodiment of the present invention, and FIG. 2 is a view illustrating a ventilation system constituting the ventilation system of FIG. 1 mounted on a ceiling of an air conditioner.

1 and 2, a ventilation system according to an embodiment of the present invention includes a ventilation device 100, a temperature control device 200, ventilation ducts 10a and 10b, ventilation ducts 10a and 10b, And the indoor diffusers 140a and 140b that are coupled to each other.

Since the ventilation pipe is disposed mainly on the ceiling of the house, the ventilation device 100 may also be installed on the ceiling of the air conditioner (as) such as a veranda as shown in FIG. The ventilator 100 constituting the ventilating system of the present invention according to an embodiment of the present invention includes the ventilator 100 as the heat recovery ventilator and the ventilating system of the present invention further includes the temperature regulator 200 can do.

The temperature regulating device 200 of the present invention can be fastened to be perpendicular to the ventilator 100 which is kept horizontal with respect to the bottom surface when the ventilator 100 is installed on the side and ceiling of the ventilator 100 have. The structure of the temperature control device 200 of the present invention will be described in detail later.

The ventilation device 100 is provided with ventilation ducts 10a and 10b arranged in the interior direction and a temperature control device 200 is mounted on the other side of the ventilation device 100, A duct for outdoor connection and a diffuser (not shown) may be fastened.

The ventilation device 100 according to the embodiment of the present invention can be supplied or discharged to the diffusers 20a and 20b for air supply or exhaust.

As shown in FIG. 2, a space such as a veranda or a utility room is used as an air conditioning room (as) in which a ventilator is installed. Considering the size of a motor and a heat exchanger for securing a sufficient amount of ventilation and heat exchange, 100) may occupy most of the width of the air conditioner in the indoor / outdoor direction.

However, as described above, in order to connect the additional equipment for preventing condensation or contamination inside the ventilator to the ventilator in series, it is necessary to lower the piping in the ventilator 100 and install the additional equipment in a place other than the ceiling And the air passing through the additional equipment must be connected to the outside direction again, so that the piping becomes complicated and the air conditioning space is occupied considerably.

However, in the temperature regulating apparatus 200 of the present invention shown in FIG. 2, the upper region is smaller in thickness and the lower region is relatively thicker, and the upper region of the temperature regulating apparatus 200 is mounted between the ventilator and the outdoor wall And the lower region of the temperature regulating device 200 may be extended below the upper region to provide a temperature regulating function or an antibacterial function in the inner space.

The temperature control device 200 for a ventilator of the present invention will be described in detail with reference to FIG.

3 is a perspective view of the ventilating apparatus 100 and the temperature regulating apparatus 200 of FIG. 1 in a directly assembled state. FIG. 4 is a perspective view of the ventilating apparatus 100 and the temperature regulating apparatus 200 of FIG. FIG.

3, the ventilation device 100 is installed horizontally and the temperature control device 200 is vertically installed. Therefore, when the ventilation device 100 and the temperature control device 200 are assembled, Can form an 'a' shape.

As described above, the ventilator 100, which has a small space between the ventilator 100 and the outdoor sidewall, and which has a certain volume, is disposed at the edge of the ventilator, such as a veranda, In a manner that minimizes the number of the devices. In the ventilation device installation environment, the upper region of the temperature regulating device 200 is disposed between the ventilation device and the outdoor sidewall, and a region for performing the temperature control function or the antibacterial function corresponding to the lower region is disposed in the horizontal direction of the ventilation device If deployed, the ceiling occupancy area of the workroom increases and a separate ceiling fixture is required to withstand the load of the thermostat. There may also be installation parameters related to the installation environment, such as interference with the ceiling mounted illumination.

However, when the upper area of the temperature control device 200 is installed in the space between the ventilator 100 and the outdoor side wall surface and the lower area is arranged downward, space limitation can be minimized, The property can be improved.

The present invention relates to a temperature control device for a ventilating apparatus mounted on an outdoor side surface of a ventilator (100) provided with an total enthalpy heat exchanger (130) and having a supply mechanism and an exhaust port on a side surface facing each other, A housing 210 defined by a region lp; A pair of air supply units (270, 280) into which air flows into opposite side surfaces of the upper region (up), respectively; A pair of exhaust ports (250, 260) through which air is discharged from opposite side surfaces of the upper region (up), respectively; A first damper member 261 provided in an exhaust port 260 provided on an outdoor side surface of the upper region up and a power supply mechanism 270 for selectively opening and closing the exhaust port 260 and the power supply mechanism 270, 2 damper member 271; And a third damper member (281) provided in the lower region (lp) to selectively block the inflow of indoor air from the ventilator (100), wherein a pair of air supply and exhaust ports 280 are opposed to each other and the other pair 250 and 270 are staggered and contaminants in the room air are removed by opening or closing of the first damper member 261 to the third damper member 281 The indoor air is discharged to the outside, the outdoor air is supplied to the room, or a part of the indoor air is mixed with the outdoor air to be supplied to the indoor, and the rest of the indoor air is discharged to the outdoor The temperature control device for a ventilator 200 is driven in a controlled ventilation mode.

The present invention relates to a ventilation system for a ventilator which is equipped with an total enthalpy heat exchanger (130) and which is mounted on an outdoor side surface of a ventilator (100) having air supply mechanisms (150, 170) and exhaust ports (160, Wherein the housing 210 of the temperature regulating device 200 is divided into an upper region lp and a lower region lp and the temperature regulating device 200 is disposed between the upper region lp and the upper region lp, And a pair of air supply ports and air exhaust ports 260 and 280 are provided so as to face each other and to face each other, (250, 270) may be staggered.

The ventilator 100 in which the temperature regulating device 200 of the present invention is installed includes an exhaust heat exchanger 130 for reducing the temperature difference between the air supply and exhaust and at least one filter 140a and 140b for filtering contaminants of the air supply, And at least one blower fan (not shown). The total enthalpy heat exchanger 130 may be a system in which flow paths are crossed, and heat exchange of the flowing air may be performed. Since it is related to a conventional ventilator 100, a detailed description thereof will be omitted.

In addition, the ventilator 100 may include a pair of air supply units 150 and 170 and air exhaust ports 160 and 180, respectively, on the side facing the indoor and the outdoor.

The air supply and exhaust ports connecting the respective flow paths communicate in a diagonal direction so that the air supply and exhaust can flow in the indoor and outdoor directions.

The temperature regulating device 200 of the present invention is provided with the air supply devices 270 and 280 and air exhaust ports 250 and 260 through which the air flows in opposite sides of the upper region Ip, The pair of supply mechanisms and the exhaust ports 260 and 280 are opposed to each other and the other pair 250 and 270 are staggered and a pair of opposite classes The mechanism and the exhaust port may be a first exhaust mechanism 280 through which the exhaust gas passing through the ventilation device 100 flows into the temperature regulating device 200 and a first exhaust port 260 through which the exhaust gas is discharged outdoors.

The pair of staggered supply and exhaust ports provided in the upper region Ip of the temperature regulating device 200 includes a second supply mechanism 270 through which outdoor air is supplied, And a second exhaust port 250 through which air is supplied into the room.

The room air supplied to the first supply mechanism 280 provided in the upper region lp is discharged to the outside through the first outlet 260 or the lower region lp of the temperature reducing apparatus 200 Or a part thereof may be discharged to the outside through the first exhaust port 260 and the rest may be mixed with the outdoor air introduced through the second class mechanism 270 and supplied to the room.

The outdoor air supplied from the second air supply mechanism 270 provided in the upper region lp is supplied to the room through the second air exhaust port 250 and the ventilator 100 alone, The air can be supplied to the indoor space via the second exhaust port 250 and the ventilator 100 without mixing with indoor air via the lower region lp without being discharged to the outside.

If room air supplied by the first supply mechanism 280, which is supplied with indoor air to the upper region Ip, is discharged to the outside of the room, it is discharged through the upper region Ip through the first outlet 260 However, there is a difference in that the outdoor air supplied through the second-class mechanism 270 bypasses the lower region 1p and is supplied to the room through the second exhaust port 250 and the ventilator 100. [

The upper region Ip of the temperature regulating device 200 provides a flow path determining function and the lower region Ip of the temperature regulating device 200 functions as a temperature regulating function by mixing air passing therethrough, Function can be performed.

3 and 4, the width of the upper region lp of the temperature regulating device 200 can be matched with the width of the ventilator 100, and the width of the lower region lp The thickness w2 may be greater than the thickness w1 of the upper region lp.

Also, the thickness h1 of the ventilator 100 and the height h2 of the upper region lp may be matched. That is, steps 211 and 213 corresponding to the thickness w2 deviation between the upper region lp and the lower region lp are formed between the upper region lp and the lower region lp of the temperature regulating apparatus 200 And the ventilator 100 seated on the steps 211 and 213 may be configured not to protrude outside the upper region lp of the temperature regulating device 200 in the width direction thickness direction.

The width of the stepped portions 211 and 213 formed in the housing of the temperature regulating device 200 is configured such that the stepped portion in the direction of the room 213 is larger than the width of the outwardly directed stepped portion 211, It is possible to minimize the size or thickness of the ventilation device 100 and the temperature control device 200 protruding outward in the assembled state.

The thickness w2 of the lower region lp is larger than the total thickness w1 of the upper region lp of the temperature regulating apparatus 200. The total thickness of the lower region lp, It is preferable to have a size of about 1.5 to 5 times the thickness w1 of the upper region lp.

That is, when the thickness w2 of the lower region lp is smaller than 1.5 times the thickness w1 of the upper region lp, the lower region lp sufficient to perform the temperature control function, the filtering function, The inner space can not be secured and when the thickness w2 of the lower region lp is larger than 5 times the thickness w1 of the upper region lp, It was confirmed that the output of the blowing fan of the apparatus 100 could become insufficient.

Clamps 233 for clamping the side end portions of the ventilator 100 are provided at the upper and lower ends of the upper region lp of the temperature regulating device 200 to improve the assemblability, And can be stably supported.

In addition, a supply mechanism and a damper member for selectively interrupting the flow path on the exhaust port may be provided on both sides of the upper region lp.

3 and 4, first and second damper members 261 and 271 are provided on the first exhaust port 260 and the second exhaust port 270, respectively, The first exhaust port 260 and the second exhaust port 270 can be closed and the first exhaust port 260 and the second exhaust port 270 can be opened in the ventilation mode, The opening degree of the first exhaust port 260 and the second exhaust port 270 can be adjusted.

In addition, a third damper member 281 (see FIG. 5) may be further provided in the lower region lp of the temperature regulating device 200. The third damper member 281 can selectively block the flow of the room air supplied from the ventilator 100 to bypass the lower region lp.

The air purifying mode, the temperature control ventilation mode, and the general ventilation mode will be described in detail with reference to FIGS. 5 to 7. FIG.

That is, the damper members 261, 271, and 281 may include only a damper member for shutting off the flow path and a driving motor for driving the damper member, and a separate fan unit may be omitted. The degree of opening of the damper member can be adjusted only by rotation control of the damper member.

5 shows air flow paths in a state where the ventilator 100 and the temperature control device 200 of the present invention are operated in the air purifying mode.

The first damper member and the second damper member of the upper region up are closed and the third damper member 281 of the lower region lp is controlled in the open state in the air cleaning mode, The indoor air passed through the apparatus 100 circulates through the lower region lp and the pollutant can be filtered and supplied to the ventilator 100 through the upper region up.

To this end, the lower region (lp) of the temperature control device may include a filter unit (290) for removing indoor air, outdoor air, or mixed air of indoor air and outdoor air passing therethrough. In addition, in order to perform antibacterial treatment inside the temperature control device, the ventilator, or the ventilation duct, the lower region (lp) of the temperature control device injects the phytoncide solution into the indoor air, outdoor air, or mixed air of indoor air and outdoor air And may further include a phononide liquid spraying unit 240.

Phytoncide is a substance that plants excrete or secretes to resist pathogens, pests and fungi. When phytoncide is exposed, stress is relieved, intestines and cardiopulmonary functions are enhanced, and sterilization is also effected. Accordingly, the phytoncide solution in the form of a concentrated liquid, which is concentrated in the form of phytoncide, is sprayed into the air flowing through the flow path in the shape of a mist to sterilize the whole of the temperature control device, the ventilator (particularly, the entire heat exchanger or the ventilating fan) Can be provided.

The phononchid liquid sprayer 240 can be controlled to be periodically or intermittently sprayed only on a predetermined schedule or condition, and the phytoncide solution can be replenished or the phytoncide liquid container (not shown) can be replaced through the control port of the temperature controller Lt; / RTI >

The filter unit 290 may include at least one or both of a HEPA filter 291 and an activated carbon filter 293.

Therefore, when the outdoor air temperature is too low or too high, ventilation of the indoor air is not required. However, when the indoor air needs to be purified, as shown in FIG. 5, Can be operated.

In this case, when the temperature regulating device 200 is driven in the air purifying mode, since the exhaust of room air and the supply of outdoor air are unnecessary, the damper members of the upper region lp are all closed, the damper member of the damper lp can be controlled in the open state. Specifically, when the first damper member 261 and the second damper member 271 are controlled to be in a closed state and the ventilator 100 is driven in a state in which only the third damper member 281 is opened, The air is passed through the ventilator 100 and the pollutant is removed through the filter unit 290 and the phytoncide liquid spraying unit 240 injects the phytoncide liquid so that the second exhaust port 250 and the ventilator 100 to the inside of the room.

In general, the ventilation device 100 is provided with the filter portions 140a and 140b, but its performance is not sufficient and the replacement is not easy, so that the fine dust blocking means is not sufficient.

4, the temperature regulating device 200 of the present invention is provided with an opening / closing member (not shown) which can be opened and closed so as to be able to access the inner space of the lower region lp in a direction toward the inside of the room lower in height than the ventilator 100 202 and 203 are provided to easily replenish the replacement phytoncide solution of the filter constituting the filter portion 290. [

The lower region lp of the temperature regulating device 200 is lower in height than the ceiling and is easily accessible to the maintenance ports 202 and 203 so that the filter portion 290 or It is possible to provide an effective solution for the fine dust reduction contained in the air to be ventilated to remove the anxiety of the user who hesitates to ventilate due to the increasingly widespread fine dust since the maintenance of the phytonid liquid spraying part can be facilitated.

In addition, a space 201 may be provided in the space between the control ports 202 and 203, in which a phytoncide liquid supply unit or a control unit is provided.

The indoor air flowing through the upper region (up) and flowing through the lower region (lp) flows so as to have a U-shaped flow path, It is possible to obtain the effect of minimizing the thickness or horizontal width of the temperature control device.

6 shows a flow path of air in a state where the ventilator 100 and the temperature regulating device 200 of the present invention are operated in a general ventilation mode. The temperature difference between outdoor air and indoor air is not large and ventilation is necessary.

In the ventilation mode, the first damper member and the second damper member of the upper region (up) are in an open state, and the third damper member 281 of the lower region lp is controlled in a closed state, The indoor air passing through the ventilator 100 is discharged through the upper region up to the outside and the air supplied from the outside flows through the lower region lp to the upper region up, To the ventilator (100).

As shown in FIG. 6, the indoor air heat exchanged via the ventilator 100 is supplied to the first supply mechanism 280 of the temperature control device 200 and is discharged to the outside through the first exhaust port 260, The outdoor air is supplied through the second classifier 270 and then passed through the inner space of the lower region Ip and is injected into the second exhaust port 250 and the total enthalpy heat exchanger 130 of the upper region Ip after filtering and phytoncide liquid injection, The ventilator 100 may be provided with a plurality of ventilating chambers.

In this case, when the temperature regulating device 200 is driven in the ventilation mode, the damper members of the upper region lp are all opened and the damper members of the lower region lp can be controlled to be closed .

Specifically, when the first damper member 261 and the second damper member 271 are controlled to be opened and the ventilator 100 is driven in a state in which only the third damper member 281 is closed, The air introduced into the temperature regulating device 200 through the apparatus 100 can be discharged without passing through the lower region lp of the temperature regulating device 200 by the third damper member 281. [ On the other hand, the outdoor air flowing into the temperature regulating device 200 is filtered through the filter unit 290, the phytoncide liquid is sprayed, and the antibacterial treatment is performed after passing through the second exhaust port 250 and the ventilator 100 It can be supplied indoors.

In this case, the outdoor air flowing through the upper region (up) and passing through the lower region (lp) may have a flow path of 'U' shape.

7 shows a flow path of air in a state in which the ventilator 100 and the temperature regulating device 200 of the present invention are operated in the temperature regulation ventilation mode.

The first damper member and the second damper member of the upper region up are controlled to be partially opened in the temperature regulation ventilation mode and the third damper member 281 of the lower region lp is opened or partially opened A part of the room air passed through the ventilator 100 is mixed with the outdoor air supplied through the upper area up in the outdoor and the lower area lp to be mixed with the outdoor air through the upper area up, The rest of the room air passing through the ventilator 100 can be discharged to the outside through the upper area up.

However, if it is expected that energy loss will be large when the indoor air and the outdoor air are operated in the general ventilation mode because the temperature difference between the indoor air and the outdoor air is large, the temperature control apparatus 200 of the present invention is operated in the temperature- Lt; / RTI >

When the temperature regulating device 200 is driven in the temperature regulation ventilation mode, the damper member of the upper region lp is controlled to be partially opened, and the damper member of the lower region lp is opened or partially opened Lt; / RTI >

That is, when the ventilator 100 is driven with the first damper member 261, the second damper member 271 and the third damper member 281 partially opened (partially opened), the ventilator A part of the indoor air flowing into the temperature regulating device 200 flows into the lower region 1p of the temperature regulating device 200 and the remaining air is discharged through the first exhaust port 260 to the outside of the room. Since the third damper member 281 is also opened or partially opened, the air flowing into the lower region lp flows toward the filter unit 290 and the second damper member 271 is also open, The second exhaust port 250 and the ventilator 100 are mixed with the indoor air, and the pollutant is removed through the filter unit 290 and the phytoncide liquid is sprayed, To the inside of the room.

That is, the indoor air and the outdoor air are partially mixed to minimize the energy waste or thermal shock. The contaminants that may be present in the outdoor air are filtered through the filter unit and supplied from the phytoncide liquid spray unit 240 to the antibacterial treatment .

In this case, the outdoor air, the indoor air, and the mixed air flowing through the upper region (up) and passing through the lower region (lp) may each have a U-shaped flow path.

5 to 7, it can be expected that each of the damper members 261, 271 and 281 is closed or opened, or opened at 45 degrees when a part of the damper members 261, 271 and 281 is partially opened. However, The opening ratio of at least one of the damper members of the upper region lp and the damper members of the lower region lp is different from the opening ratio of the other damper members in the open state, 30 degrees or 60 degrees). In summary, the opening ratio of at least one of the damper members of the upper region (up) and the damper member of the lower region (lp) may be different from the opening ratio of the remaining damper members.

In this way, when the temperature difference between the indoor and the outdoor is large but the ventilation is required, the air conditioning load of the indoor space can be reduced and the ventilation can be performed while the air purification and the antibacterial treatment can be performed at the same time.

Similarly, indoor air, outdoor air, and mixed air flowing through the upper region (up) and passing through the lower region (lp) may have a 'U' shaped flow path.

5 to 7, the present invention controls the damper unit and the phytoncide liquid spraying unit 240 so that the fan can be driven in various modes according to the operation of the ventilator 100, .

In this way, ventilation can be minimized by mitigating the room heat shock by mixing indoor air to be discharged and outdoor air to be supplied, while performing ventilation in cold weather or intense heat.

In addition, even in the process of mitigating the room heat shock and minimizing the air conditioning load, the mixed air can pass through the filter unit 290 and the phytoncide liquid spraying unit to perform indoor air purification and antibacterial treatment simultaneously.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims. . It is therefore to be understood that the modified embodiments are included in the technical scope of the present invention if they basically include elements of the claims of the present invention.

100: Ventilation device
200: Temperature control device
240: Phytoncide liquid dispenser
290:
up: upper region
lp: lower region

Claims (14)

A temperature control device for a ventilator mounted on an outdoor side surface of a ventilator provided with a total enthalpy heat exchanger and provided with a supply mechanism and an exhaust port on a side opposite to each other,
A housing partitioned into an upper region and a lower region;
A pair of air supply mechanisms for introducing air into opposite side surfaces of the upper region;
A pair of exhaust ports through which air is exhausted from opposite sides of the upper region;
A first damper member and a second damper member which are provided on a side surface on the outdoor side of the upper region and which are provided on the exhaust port and selectively open and close the air supply and exhaust ports; And
And a third damper member provided in the lower region for selectively blocking the inflow of indoor air from the ventilator,
A pair of air supply and exhaust ports face each other, and a pair of air supply and exhaust ports are staggered,
An air purifying mode in which contaminants of the indoor air are removed according to the opening or closing of the first damper member to the third damper member and is supplied again to the room, a ventilation mode in which indoor air is discharged to the outside, A part of the indoor air is mixed with the outdoor air and supplied to the indoor, and the rest of the indoor air is discharged to the outdoor,
The first damper member and the second damper member of the upper region are controlled to be partially opened in the temperature regulation ventilation mode and the third damper member of the lower region is controlled to be opened or partially opened, A part of the indoor air is mixed with the outdoor air supplied through the upper area from the outdoor area and the lower area and supplied to the ventilator through the upper area and the rest of the indoor air passed through the ventilator is supplied to the upper area And is discharged to the outside of the room. The method according to claim 1,
Wherein the first damper member and the second damper member of the upper region are in the closed state and the third damper member of the lower region is controlled in the open state in the air cleaning mode, And the pollutant is filtered and supplied to the ventilator through the upper region. The method according to claim 1,
The first damper member and the second damper member of the upper region are opened and the third damper member of the lower region is controlled in the closed state in the ventilation mode, Wherein air is exhausted to the outside through the upper region, and air supplied from the outside is supplied to the ventilator through the upper region via the lower region. delete The method according to claim 1,
Wherein the open ratio of at least one of the damper members of the upper region and the damper member of the lower region is different from the open ratio of the remaining damper members. The method according to claim 1,
Wherein the thickness of the lower region is greater than the thickness of the upper region. The method according to claim 6,
And a clamp for clamping a side end portion of the ventilator by placing the upper end and the lower end of the upper region of the temperature regulating device. The method according to claim 6,
Wherein the width of the upper region of the temperature regulating device coincides with the width of the ventilator. 9. The method of claim 8,
Wherein the width of the upper region of the temperature regulating device is equal to the width of the lower region. The method according to claim 1,
Wherein the lower region of the temperature regulating device includes a filter portion for removing dust from mixed indoor air, outdoor air, or mixed air of indoor air and outdoor air. The method according to claim 1,
Wherein the lower region of the temperature regulating device further comprises a phonontide liquid spraying portion for spraying phytoncide liquid to the mixed indoor air, outdoor air, or mixed air of indoor air and outdoor air. The method according to claim 6,
Wherein a step corresponding to a thickness deviation between an upper region and a lower region is provided between an upper region and a lower region of the temperature regulating apparatus. The method according to claim 6,
Wherein the total thickness of the lower region is in the range of 1.5 to 5 times the thickness of the upper region. The method according to claim 1,
Wherein indoor air or outdoor air flowing through the upper region of the temperature regulating device and passing through the lower region has a flow path of 'U' shape.

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