KR102601433B1 - Hybrid type water-cooled heat recovery ventilation system having cooling and heating function and virus care function - Google Patents

Abstract

The present invention relates to a hybrid type water-cooled heat recovery ventilator using a fan coil unit (FCU). A hybrid type heat recovery ventilator with water-cooled heating/cooling and virus care functions according to the present invention includes a box-shaped main body, a plurality of filters arranged in a generally diamond shape at biased positions in the internal space of the main body, and the plurality of filters. and a rhombus-shaped heat exchange element disposed in a space partially or fully defined by, wherein the internal space of the main body is defined by a side wall of the main body and an arbitrary extension of a vertical corner of the heat exchange element as a boundary, forming a first compartment. It is divided into a first compartment, a second compartment, a third compartment, and a fourth compartment, and the second compartment and the third compartment An internal cleaning operation control damper (I.C.W damper) is installed between the parts. According to the present invention, not only the ventilation function but also the desired indoor cooling and heating efficiency is improved. Additionally, according to the present invention, it is also possible to remove mold and viruses occurring in the heating element.

Description

Hybrid type water-cooled heat recovery ventilation system having cooling and heating function and virus care function}

The present invention relates to a hybrid type heat recovery ventilator with water-cooled heating/cooling and virus care functions.

Recently, as fine dust/ultra-fine dust has been attracting attention as a social problem, interest in air quality management for indoor spaces of buildings such as large buildings and shopping malls as well as transportation vehicles such as buses and vans is increasing. If the indoor space is not properly ventilated, air quality deteriorates rapidly within a short period of time, causing the indoor oxygen concentration to decrease and the concentration of carbon dioxide and pollutants to increase. In particular, the risk of virus transmission by droplets in closed spaces is increasing due to the use of air conditioners and heaters in summer and winter. Therefore, periodic ventilation is necessary to improve indoor air quality even during heating and cooling operation due to seasonal changes.

Under this background, in order to create a comfortable residential environment, temperature control using air conditioning equipment or a total heat exchanger and carbon dioxide (CO ₂ ) control technology using carbon dioxide (CO ₂ ) adsorption equipment or ventilation equipment are becoming important as air conditioning technologies. Among them, the ventilation device is a device for recovering sensible and latent heat lost during ventilation, and is designed so that indoor air and outdoor air do not mix with each other. Sensible heat is recovered by the temperature difference between indoor and outdoor air, and latent heat is recovered by a moisture absorbent or dehumidifier.

A ventilation device capable of operating a negative pressure and positive pressure system that combines a total heat exchanger and a ventilation system is a system designed to exchange heat between air and air using air as a medium. For example, when mechanical ventilation is performed in a building, it flows into the building. The outside air passes through a total heat exchanger before being supplied to each room, and at this time, the incoming outside air is preheated or precooled before the air discharged from each room is exhausted. When a ventilation device capable of operating such negative pressure and positive pressure systems is used, energy can be saved by recovering heat from exhaust air and reducing the cooling or heating load that increases due to ventilation.

In related industries, various studies are being conducted to improve the structure of total heat exchangers to improve heat exchange efficiency and at the same time improve indoor air quality. For example, in Republic of Korea Patent No. 10-1630580 (registration date: June 8, 2016), there is a heat exchange ventilation device for supplying fresh and cool outside air to the indoor side by guiding air to flow evenly into the heat exchange unit. and a ventilation system using the same have been disclosed.

However, in the ventilation system disclosed in the above registered patent, the inflow efficiency of external air can be improved by making the air flow path guided to the heat exchanger side straight, but it can effectively block the inflow of fine dust or pollutants such as viruses existing indoors. There were limitations in its structure and operation method to eliminate it.

Additionally, the registered patent does not present any structure for improving cooling or heating efficiency.

Republic of Korea Patent No. 10-1630580 (registration date: June 8, 2016)

The present invention was created to solve the problems of the prior art. The purpose of the present invention is to provide a hybrid type heat recovery ventilator with water-cooled heating/cooling and virus care functions that can maximize not only the ventilation function but also the desired indoor cooling and heating efficiency. is to provide.

In addition, another object of the present invention is to provide a hybrid type heat recovery ventilator with a water-cooled heating/cooling and virus care function capable of removing mold and viruses generated in a heating element.

In order to achieve the above and other purposes, the present invention,

It includes a housing-shaped main body, a plurality of filters arranged in a generally diamond shape at biased positions in the internal space of the main body, and a diamond-shaped heat exchange element arranged in a space partially or fully defined by the plurality of filters, The internal space of the main body is divided into a first compartment, a second compartment, and a third compartment with the side wall of the main body and an arbitrary extension of the vertical edge portion of the heat exchange element as a boundary. It is divided into a third compartment and a fourth compartment, and an internal cleaning operation control damper (I.C.W damper) is installed between the second compartment and the third compartment. Provides a hybrid type heat recovery ventilator with water-cooled heating/cooling and virus care functions.

In the present invention, an outside air intake port (OA) is installed on the side wall of the first compartment for introducing outdoor air into the main body, and the outside air intake port (OA) is provided with an outside air intake port (OA) for selectively introducing outside air into the device. An outdoor air motor damper (OA MD) is installed, and an air exhaust port (EA) is installed in the fourth compartment adjacent to the first compartment to discharge indoor air sucked into the main body to the outdoors, and the air exhaust port (EA) is installed in the fourth compartment adjacent to the first compartment. The exhaust port (EA) is characterized in that an exhaust fan is installed.

In the present invention, an internal suction port (RA) for sucking indoor air into the main body is installed on the side wall of the second compartment, and the side wall of the third compartment adjacent to the second compartment is provided with the An outdoor air supply port (SA) is installed to selectively supply outdoor air from the first compartment or indoor air from the second compartment into the room, and an air supply fan is installed in the outdoor air supply port (SA). It is characterized by being

In the present invention, an intake passage for guiding outdoor air indoors and an discharge passage for guiding indoor air outdoors are provided inside the main body to diagonally intersect, wherein the outdoor air intake port (OA) and the outdoor air supply port (SA) are provided. ) is connected by the suction passage, the air intake port (RA) and the air discharge port (EA) are connected by the discharge passage, and the air supply fan and the exhaust are respectively disposed in the suction passage and the discharge passage. According to the operation of the fan, outdoor air and indoor air flow along the suction flow path and the discharge flow path, respectively, thereby achieving ventilation of the room.

In the present invention, a fan coil unit (FCU) is installed in the third compartment, and is installed so that indoor air from the second compartment is guided inward based on the suction direction. It is characterized by

In the present invention, the fan coil unit is driven by a refrigerant circulation system such as a chiller, the refrigerant inlet pipe and the discharge pipe are fluidly connected to the side wall of the third compartment, and the refrigerant circulation space is It is characterized in that it is arranged to be curved in the inner direction of the main body with respect to the direction of indoor air flow from the second compartment.

In the present invention, on the side wall of the third compartment where the inlet pipe and discharge pipe of the fan coil unit are installed, there is an indoor airflow that gradually guides the flow direction of the indoor air from the second compartment toward the inside of the main body. The air inducing structure is formed by bending vertically from the side wall of the third compartment and diagonally inward with respect to the direction of the second compartment.

In the present invention, a drainage structure is installed at the lower part of the fan coil unit to immediately concentrate liquid fluid or moisture generated by condensation of the fan coil unit downward and discharge it immediately. do.

In the present invention, the drainage structure has an outer inclined portion having a structure inclined to both sides and an inner inclined portion formed to be stepped downward from the outer inclined portion and having a structure inclined further inward of the outer inclined portion, A drainage channel is formed in the center of the inner slope to allow liquid fluid or water to be discharged to the outside.

In the present invention, the area ratio of the outer inclined portion and the inner inclined portion is characterized in that it is configured to be 2:1 or more.

In the present invention, a negative ion generator for air sterilization is installed in at least one space of the first compartment or the second compartment.

According to the present invention, not only the ventilation function but also the desired indoor cooling and heating efficiency is improved. Additionally, according to the present invention, it is also possible to remove mold and viruses occurring in the heating element.

Figure 1 is a perspective view schematically showing a water-cooled heat recovery ventilator according to a preferred embodiment of the present invention.
FIG. 2 is a diagram schematically showing the interior of a water-cooled heat recovery ventilator according to a preferred embodiment of the present invention shown in FIG. 1.
Figure 3 is a rear view of the water-cooled heat recovery type ventilator according to one preferred embodiment of the present invention shown in Figure 2.
Figure 4 is a diagram showing a fan coil unit (Fan Coil Uni, FCU) applied to a water-cooled heat recovery ventilator according to a preferred embodiment of the present invention.
Figure 5 is a diagram showing a drainage structure applied to a water-cooled heat recovery ventilator according to a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the attached illustrative drawings. In describing the present invention, descriptions of already known functions or configurations will be omitted to make the gist of the present invention clear. Additionally, like reference numerals represent like elements throughout the specification.

Figure 1 is a perspective view schematically showing a water-cooled heat recovery type ventilation device according to a preferred embodiment of the present invention, and Figure 2 is a perspective view schematically showing a water-cooled heat recovery type ventilator according to a preferred embodiment of the present invention shown in Figure 1. It is a drawing schematically showing the internal appearance, and FIG. 3 is a rear view of a water-cooled heat recovery type ventilator according to a preferred embodiment of the present invention shown in FIG. 2, and FIG. 4 is a view showing a preferred embodiment of the present invention. It is a diagram showing a fan coil unit (FCU) applied to a water-cooled heat recovery ventilator according to a preferred embodiment of the present invention, and FIG. 5 is a diagram showing a drainage structure applied to a water-cooled heat recovery ventilator according to a preferred embodiment of the present invention. am.

First, referring to FIG. 1, a hybrid type water-cooled heat recovery ventilator according to a preferred embodiment of the present invention includes a housing-shaped main body 10 and an internal operating structure thereof. As shown in FIG. 1, at the lower part of the enclosure-shaped main body 10, there is a drainage structure 30 that has a drainage function as well as an inspection function to be described later, and a door ( 80) is prepared.

Referring to Figures 2 and 3 along with Figure 1, a hybrid type water-cooled heat recovery ventilator according to a preferred embodiment of the present invention is arranged in a generally diamond shape at a biased position in the internal space of the main body 10. It includes a plurality of filters (22A) (22B) and a diamond-shaped heat exchange element (24) disposed in a space defined by the plurality of filters (22A) (22B).

The internal space of the main body 10 is divided into a first compartment 12 bordered by an arbitrary extension line of the side wall 11 of the main body 10 and the vertical edge of the heat exchange element 24. , it is divided into a second compartment (13), a third compartment (14) and a fourth compartment (15).

An internal cleaning operation control damper (I.C.W damper) is installed between the second compartment 13 and the third compartment 14. This provides the effect of not only cleaning the inside of the device, but also drying the coil of the fan coil unit, which will be described later, and compensating for some of the condensation phenomenon, which will be described later.

An outside air intake port (OA) 70 is installed on the side wall 11 of the first compartment 12 to introduce outdoor air into the main body 10, and the outside air intake port (OA) 70 An outdoor air motor damper (OA MD) is installed to selectively introduce outdoor air into the device.

The fourth compartment (15) adjacent to the first compartment (12) is provided with an interior exhaust port (EA) (76) for discharging indoor air sucked into the main body (10) to the outdoors. An exhaust fan 75 is installed at the exhaust discharge port (EA) 76.

An internal air intake port (RA) 72 is installed on the side wall 11 of the second compartment 13 to suck indoor air into the main body 10. The side wall 11 of the third compartment 14 adjacent to the second compartment 13 is exposed to outdoor air from the first compartment 12 or from the second compartment 13. An outdoor air supply port (SA) 74 is installed to selectively supply indoor air to the indoor space. In addition, an air supply fan 73 is installed in the outside air supply port (SA) 74.

Inside the main body 10, a suction passage for guiding outdoor air into the room and an discharge passage for guiding indoor air to the outdoors are provided to intersect diagonally, and the outside air intake port (OA) 70 and the outside air supply port ( SA) (74) is connected by the suction passage, and the internal air suction port (RA) 72 and the internal air discharge port (EA) (76) are connected by the discharge passage. According to the operation of the air supply fan 73 and the exhaust fan 75 disposed in the suction passage and the discharge passage, respectively, outdoor air and indoor air flow along the suction passage and the discharge passage, respectively, thereby improving indoor ventilation. It will come true.

Referring to FIG. 4 along with FIGS. 2 and 3, a fan coil unit (FCU) 40 is installed in a hybrid type water-cooled heat recovery ventilator according to a preferred embodiment of the present invention.

The fan coil unit 40 is installed in the space belonging to the third compartment 14 as shown in FIGS. 2 and 3. In more detail, the fan coil unit 40 is installed so that indoor air from the second compartment 13 is guided inward based on the suction direction.

The fan coil unit 40 is driven by a refrigerant circulation system such as a chiller, and the refrigerant inlet pipe 42 and discharge pipe 44 are fluidly connected to the side wall of the third compartment 14. The refrigerant circulation space is arranged to be curved toward the inside of the main body with respect to the direction of indoor air flow from the second compartment 13.

In addition, the flow of indoor air from the second compartment 13 is on the side wall of the third compartment 14 where the inlet pipe 42 and the discharge pipe 44 of the fan coil unit 40 are installed. An indoor air inducing structure 50 is installed that gradually guides the direction toward the inside of the main body.

This indoor air induction structure 50 is formed by bending the side wall of the third compartment 14 vertically and diagonally inward with respect to the direction of the second compartment 13. Due to this division structure, the indoor air flowing from the second compartment 13 first passes through the fan coil unit 40 and is then selectively cooled to a temperature lower than the indoor air or converted to indoor air by the operation of the air supply fan 73. This allows air heated to a higher temperature to be introduced back into the room. If the classification structure of the indoor air inducing structure 50 is omitted, its efficiency will be reduced as intended.

Referring to FIG. 5 along with FIGS. 1 to 3, liquid fluid or moisture generated by condensation of the fan coil unit 40 is immediately concentrated downward and collected at the lower portion of the fan coil unit 40. A drainage structure 30 is installed to allow immediate discharge.

The drainage structure 30 is formed with an outer inclined portion 32 having a structure inclined on both sides and stepped downward from the outer inclined portion 32, but is further inclined inward of the outer inclined portion 32. It has an inner inclined portion 34 having a structure, and a drainage channel 36 through which liquid fluid or water is discharged to the outside is formed in the center of the inner inclined portion 34.

At this time, preferably, the area ratio of the outer inclined portion 32 and the inner inclined portion 34 is 2:1 or more.

Additionally, in the present invention, a negative ion generator for air sterilization, such as a cluster ionizer, is installed in one or more spaces of the first compartment 12 or the second compartment 13. Through this cluster ionizer, mold and viruses occurring in the heating element are removed.

Although the present invention has been described above with reference to preferred embodiments, those skilled in the art can make various modifications and changes to the present invention without departing from the spirit and scope of the invention as set forth in the claims below. You will understand that it is possible.

10: main body 11: side wall
12: 1st compartment 13: 2nd compartment
14: 3rd compartment 15: 4th compartment
22A, 22B: Filter 24: Heat exchange element
30: Drainage structure 40: Fan coil unit
42: inlet pipe 44: discharge pipe
50: Indoor air induction structure 70: Outdoor air intake port (OA)
72: Exhaust suction port (RA) 73: Air supply fan
74: Outside air supply port (SA) 75: Exhaust fan
76: Exhaust discharge port (EA)

Claims (11)

The enclosure-shaped main body 10, a plurality of filters 22A and 22B arranged in a generally diamond shape at a biased position in the internal space of the main body 10, and the plurality of filters 22A and 22B. It includes a rhombic-shaped heat exchange element (24) partially or entirely disposed in a limited space,
The internal space of the main body 10 is divided into a first compartment 12 bordered by an arbitrary extension line of the side wall 11 of the main body 10 and the vertical edge of the heat exchange element 24. , divided into a second compartment (13), a third compartment (14) and a fourth compartment (15),
An outside air intake port (OA) 70 is installed on the side wall 11 of the first compartment 12 to introduce outdoor air into the main body 10, and the outside air intake port (OA) 70 An external air motor damper (OA MD) is installed to selectively introduce external air into the device, and in the fourth compartment (15) adjacent to the first compartment (12), the air sucked into the main body (10) is installed. An air exhaust port (EA) 76 is installed to discharge indoor air to the outdoors, and an exhaust fan 75 is installed at the air exhaust port (EA) 76,
An internal suction port (RA) 72 is installed on the side wall 11 of the second compartment 13 to suck indoor air into the main body 10, and an internal suction port (RA) 72 adjacent to the second compartment 13 is installed. The side wall 11 of the third compartment 14 is provided with a device for selectively supplying outdoor air from the first compartment 12 or indoor air from the second compartment 13 into the room. An external air supply port (SA) 74 is installed, and an air supply fan 73 is installed in the external air supply port (SA) 74,
Inside the main body 10, an intake passage for guiding outdoor air indoors and an discharge passage for guiding indoor air outdoors are provided to intersect diagonally, and the outside air intake port (OA) 70 and the outside air supply port ( SA) (74) is connected by the suction passage, the internal suction port (RA) 72 and the internal discharge port (EA) (76) are connected by the discharge passage, and the suction passage and the discharge passage According to the operation of the air supply fan 73 and the exhaust fan 75, respectively disposed in , outdoor air and indoor air flow along the intake passage and the discharge passage, respectively, to achieve indoor ventilation,
A fan coil unit (FCU) 40 is installed in the third compartment 14, and the indoor air from the second compartment 13 is directed inward based on the suction direction. It is installed to guide
The fan coil unit 40 is driven by a refrigerant circulation system such as a chiller, and the refrigerant inlet pipe 42 and discharge pipe 44 are fluidly connected to the side wall of the third compartment 14. The refrigerant circulation space is arranged to be curved toward the inside of the main body with respect to the direction of indoor air flow from the second compartment 13,
On the side wall of the third compartment (14) where the inflow pipe (42) and discharge pipe (44) of the fan coil unit (40) are installed, the flow direction of indoor air from the second compartment (13) is gradually increased. The indoor air induction structure 50, which essentially guides the inside of the main body, is formed by bending vertically from the side wall of the third compartment 14 and diagonally inward with respect to the direction of the second compartment 13. It is done,
A drainage structure 30 is installed at the lower part of the fan coil unit 40 to immediately concentrate the liquid fluid or moisture generated by condensation of the fan coil unit 40 downward and discharge it immediately. ,
The drainage structure 30 is formed with an outer inclined portion 32 having a structure inclined on both sides and stepped downward from the outer inclined portion 32, but is further inclined inward of the outer inclined portion 32. It has an inner inclined portion 34 having a structure, and a drainage channel 36 is formed in the center of the inner inclined portion 34 through which liquid fluid or water is discharged to the outside. A hybrid type heat recovery ventilator with functionalities. delete delete delete delete delete delete delete delete According to clause 1,
A hybrid type heat recovery ventilator with water-cooled heating/cooling and virus care functions, characterized in that the area ratio of the outer inclined portion 32 and the inner inclined portion 34 is 2:1 or more. According to claim 1 or 10,
Hybrid type heat recovery with water-cooled heating/cooling and virus care functions, characterized in that an anion generator for air sterilization is installed in at least one space of the first compartment (12) or the second compartment (13). type ventilation device.