KR102390415B1 - Heat exchanging unit - Google Patents

Abstract

A heat exchanging unit according to the present invention, which is a heat exchanging unit installed in the intersection region of an air supply flow path and an air discharge flow path of a heat exchanger, comprises: a plurality of heat exchanging elements for air supply having an air supply path, through which outside air flowing along the air supply flow path can pass; a plurality of heat exchanging elements for air discharge having an air discharge path, through which indoor air flowing along the air discharge flow path can pass; a frame including a plurality of air supply connection paths arranged at intervals to pass outside air flowing along the air supply flow path and a frame groove perpendicular to the air supply connection paths, and composed of a light-transmitting material; and a sterilizing lamp installed to be inserted into the frame groove and radiating light to the air supply connection paths to sterilize outside air passing through the air supply connection paths. The plurality of heat exchanging elements for air supply are combined with the frame to connect the air supply path to the air supply connection paths and are arranged with gaps therebetween. The plurality of heat exchanging elements for air discharge are combined with the frame to be stacked alternately with the plurality of heat exchanging elements for air supply. Therefore, provided is a heat exchanging unit, wherein outdoor air can be sterilized to be supplied to an indoor place, and the propagation of germs and viruses can be prevented.

Description

Total heat exchange unit {HEAT EXCHANGING UNIT}

The present invention relates to a total heat exchange unit, and more particularly, to a total heat exchange unit capable of sterilizing outdoor air supplied to a room by heat exchange with indoor air exhausted from the room, and preventing the propagation of bacteria or viruses.

High-rise buildings, high airtightness, high insulation, and large-scale unit households are keywords of the recent changes taking place in apartment houses. As the rectangular plane of the existing plate-type load-bearing wall structure is converted to a ramen structure that includes columns and slabs, residential spaces are changing more dynamically, such as polygonal planes with multiple orientations per household. In addition, in consideration of the elevation of the entire building, excluding the protruding veranda, a curtain wall method such as an office building is adopted for residential buildings. Many changes are taking place in residential air conditioning and ventilation systems as a result of these changes.

First, as the cooling load increased due to the increase of the exclusive area and the curtain wall structure, the cooling system became an essential condition. Also, in the case of high-rise buildings, there are structures in which occupants cannot open windows arbitrarily, and since natural ventilation by crevice winds due to high airtight structures is hardly expected, ventilation with mechanical devices with heat exchangers, etc. is mostly applied. there is. In addition, considering the effect of the exhaust from the outdoor unit of the air conditioner on the adjacent upper floor as the skyscraper increases, and the performance review of the ventilation system by external static pressure, consideration of the draft, which was only reviewed in commercial buildings in the past, is essential in residential buildings such as apartment houses. is becoming a matter

Ventilation methods used in apartment houses include natural ventilation and mechanical ventilation.

Natural ventilation is a way to open windows and let outside air into the room. Natural ventilation is a method that allows supply and exhaust to be performed naturally by pressure and temperature difference, and there is a problem in that the ventilation amount changes according to environmental factors such as draft and temperature difference.

On the other hand, mechanical ventilation is a method that uses power to constantly supply oxygen required for breathing. Mechanical ventilation supplies an appropriate amount of ventilation according to the number of people in the room to keep the room comfortable and minimizes heating and cooling costs through heat exchange between outgoing and incoming air. A total heat exchanger is used for mechanical ventilation.

The total heat exchanger is a component of the air conditioning system of a building. The insulation exchanger is a device provided to reduce heat loss during ventilation by allowing the indoor air exhausted and the intake outdoor air to exchange heat with each other in the process of sucking the outdoor air into the room.

The total heat exchanger includes a main body provided so that an exhaust flow path for discharging indoor air and an intake flow path for sucking outside air cross each other inside, and an exhaust fan and an intake fan respectively installed on the side of the exhaust flow path and the intake flow path. A total heat exchange unit is installed in a region where the exhaust passage and the intake passage intersect each other so as to exchange heat without mixing the indoor air and the outdoor air with each other.

In general, the total heat exchange unit has a structure in which a plurality of air guide layers provided by bonding a heat transfer film base paper and a corrugated core paper are stacked to form a flow path in which they cross each other.

However, since the conventional total heat exchange unit has only a function of exchanging the outdoor air with the indoor air, it is inevitable to pass the outdoor air contaminated with bacteria or viruses into the room as it is.

In addition, in the conventional total heat exchange unit, bacteria or viruses moving by being carried in outdoor or indoor air are easily attached to and propagated therein. In addition, bacteria or viruses propagating in the total heat exchange unit may be introduced into the room by riding outside air and contaminate the room.

Registered Utility Model Publication No. 0462636 (2012.09.20.)

An object of the present invention is to provide a total heat exchange unit capable of sterilizing outdoor air and supplying it to the room, and preventing the propagation of bacteria or viruses.

Another object of the present invention is to provide a total heat exchange unit that is easy to assemble and disassemble, and which is easy to maintain.

Objects of the present invention are not limited to those described above, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The total heat exchange unit according to the present invention for achieving the above object is a total heat exchange unit installed at the intersection area of the supply air passage and the exhaust passage of the total heat exchanger. a plurality of heat exchange elements for supply air having an air supply passage; a plurality of exhaust heat exchange elements having an exhaust passage through which indoor air flowing along the exhaust passage can pass; a frame comprising a plurality of supply air connection passages spaced apart from each other so that the outside air flowing along the air supply passage can pass, and a frame groove perpendicular to the air supply connection passage, and comprising: a frame made of a light-transmitting material; and a sterilization lamp installed to be inserted into the frame groove and irradiating light to the supply air connection path to sterilize the outside air passing through the supply air connection path; It is coupled to the frame so as to be connected to the connection path and disposed to be spaced apart from each other, and the plurality of heat exchange elements for exhaust are coupled to the frame so as to be alternately stacked with the plurality of heat exchange elements for air supply.

The frame may include a pair of air supply connection parts disposed on both sides of the frame groove with the frame groove interposed therebetween, and a plurality of the air supply connection paths may be spaced apart from each other in each of the pair of air supply connection parts.

The frame includes a plurality of exhaust connection passages spaced apart from each other so that the indoor air flowing along the exhaust passage passes, and an exhaust connection portion perpendicular to the supply air connection portion, wherein the plurality of heat exchange elements for exhaust include: The exhaust passage may be coupled to the exhaust connection portion to be connected to the exhaust connection passage.

A pair of the exhaust connection parts may be disposed on both sides of the frame groove with the frame groove interposed therebetween.

The air supply connection part has a two-part structure including a pair of air supply connection plates overlapping each other, and the exhaust connection part has a two-part structure including a pair of exhaust connection plates overlapping each other to face each other, The air supply connecting plate and the exhaust connecting plate are coupled to the plurality of heat exchange elements for supply air and the plurality of heat exchange elements for exhaust to form a heat exchange module, and four heat exchange modules are coupled to surround the frame groove. , each of the four heat exchange modules may be coupled such that an air supply connection plate overlaps an air supply connection plate of another heat exchange module and an exhaust connection plate overlaps an exhaust connection plate of another heat exchange module.

The air supply connecting plate has a plurality of air supply connecting plate grooves arranged to be spaced apart and a plurality of air supply connecting plate projections alternately arranged with the plurality of air supply connecting plate grooves, and a pair of overlapping air supply connecting plates are respectively air supply The air supply connecting plate projections of the other air supply connecting plates are coupled to each other to be inserted into the connecting plate grooves, and the exhaust connecting plate includes a plurality of exhaust connecting plate grooves spaced apart from each other and a plurality of exhaust connecting plate grooves alternately arranged with the plurality of exhaust connecting plate grooves. A pair of exhaust connection plates provided with exhaust connection plate projections and overlapping each other may be coupled to each other so that the exhaust connection plate projections of other exhaust connection plates are inserted into the exhaust connection plate grooves, respectively.

The total heat exchange unit according to the present invention includes a lower plate covering the lower surfaces of each of the plurality of heat exchange modules, an upper plate covering the upper surfaces of each of the plurality of heat exchange modules, and a plurality of connecting rods connecting the lower plates and the upper plates. frame; may include.

The four heat exchange modules may be coupled to each other to form a heat exchange module assembly having a hexahedral shape, and the plurality of connecting rods may be disposed to surround four corners of the heat exchange module assembly.

The air supply connection part is provided with an air supply connection part fixing part protruding outward at each position corresponding to the supply air connection path, and the heat exchange element for supply is coupled to the supply air connection part in such a way that the supply air connection part fixing part is inserted into the air supply passage, and the exhaust The connection part may be coupled to the exhaust connection part in such a way that the exhaust connection part fixing part protrudes outward at each position corresponding to the exhaust connection path, and the exhaust heat exchange element is inserted into the exhaust connection part fixing part into the exhaust passage.

The supply air connection part fixing part includes a pair of air supply connection part fixing protrusions spaced apart to face each other, wherein the pair of supply air connection part fixing projections are inclined so that each end gradually decreases in the protruding direction, and the exhaust connection part is fixed The unit includes a pair of exhaust connection fixing protrusions spaced apart from each other to face each other, and the pair of exhaust connection fixing protrusions may be disposed to be inclined so that each end thereof gradually decreases in a protruding direction.

The total heat exchange unit according to the present invention is provided with a connection port into which a lamp terminal of the sterilization lamp can be detachably inserted in order to supply power to the sterilization lamp, and a socket installed on the outside of the frame groove; includes can do.

An insertion groove into which at least a portion of the socket can be inserted may be formed in the frame to be connected to the frame groove.

In the total heat exchange unit according to the present invention as described above, a plurality of heat exchange elements for supply air having an air supply passage through which outside air passes and a plurality of heat exchange elements for exhaust having an exhaust passage through which indoor air passes are supported on a frame having light transmittance. and the sterilization lamp may irradiate light for sterilization to the outside air passing through the heat exchange element for supply air through the frame. Therefore, it is possible to prevent bacteria or viruses from entering the room through the outside air.

In addition, in the total heat exchange unit according to the present invention, since the light generated from the sterilization lamp reaches the heat exchange element for supply air and the heat exchange element for exhaust through the light-transmissive frame, the heat exchange element for supply air or the heat exchange element for exhaust can prevent bacteria or viruses. breeding can be prevented.

Effects of the present invention are not limited to those described above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is an exploded perspective view showing a total heat exchanger including a total heat exchange unit according to an embodiment of the present invention.
2 and 3 are perspective views showing a total heat exchange unit according to an embodiment of the present invention.
4 is a side view showing a total heat exchange unit according to an embodiment of the present invention.
5 is a cross-sectional view showing a total heat exchange unit according to an embodiment of the present invention.
6 and 7 are exploded perspective views showing a total heat exchange unit according to an embodiment of the present invention.
8 is a perspective view illustrating a unit heat exchange element of a total heat exchange unit according to an embodiment of the present invention.
9 is a perspective view illustrating a heat exchange module assembly of a total heat exchange unit according to an embodiment of the present invention.
10 is an exploded perspective view showing a heat exchange module assembly of a total heat exchange unit according to an embodiment of the present invention.
11 is a perspective view illustrating a heat exchange module of a total heat exchange unit according to an embodiment of the present invention.
12 is a cross-sectional view taken along line I-I of FIG. 11 .
13 is a cross-sectional view taken along line II-II of FIG. 11 .
14 is for explaining a method of coupling the heat exchange module of the total heat exchange unit according to an embodiment of the present invention.
15 to 18 show various modifications of the total heat exchange unit.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in several different forms and is not limited to the embodiments described herein.

In describing the present invention, the size or shape of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation.

In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. These terms should be interpreted as meanings and concepts consistent with the technical spirit of the present invention based on the contents throughout this specification.

In order to clearly explain the present invention, the description of parts not related to the technical idea of the present invention is omitted, and the same reference numerals are given to the same or similar elements throughout the specification.

In addition, in various embodiments, components having the same configuration will be described using the same reference numerals only in the representative embodiment, and only configurations different from the representative embodiment will be described in other embodiments.

Throughout the specification, when a part is "connected" to another part, it includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. In addition, when a part "includes" a certain component, this may mean further including other components, not excluding other components, unless otherwise stated.

As shown in the drawing, the total heat exchange unit 100 according to an embodiment of the present invention is installed in the total heat exchanger 200 to exchange heat with indoor air discharged from the room and outdoor air sucked from the outside.

The total heat exchanger 200 is installed to be connected to the air supply duct and the exhaust duct of the ventilation system. The total heat exchanger 200 may use the total heat exchange unit 100 to heat-exchange outdoor air with indoor air exhausted from the room and supply it to the room.

The total heat exchanger 200 includes a housing 210 , an outdoor air intake unit 212 for introducing outside air into the housing 210 , an outside air supply unit 214 for exhausting heat exchanged outside air from the housing 210 , and an indoor It includes an indoor air intake unit 216 for introducing air into the housing 210 , and an indoor air discharge unit 218 for exhausting heat-exchanged indoor air from the housing 210 . A supply air flow path 220 through which outdoor air flows is provided between the outdoor air intake unit 212 and the outdoor air supply unit 214 , and the indoor air flows between the indoor air intake unit 216 and the indoor air discharge unit 218 . An exhaust flow path 222 is provided. An air supply fan 224 is installed in the air supply flow path 220 , and an exhaust fan 226 is installed in the exhaust flow path 222 . The total heat exchange unit 100 is installed at a portion where the air supply flow path 220 and the exhaust flow path 222 intersect.

The total heat exchange unit 100 according to an embodiment of the present invention includes a support frame 110 , a heat exchange module assembly 120 supported by the support frame 110 , and light for sterilization to the heat exchange module assembly 120 . Includes a sterilization lamp 160 to irradiate.

The support frame 110 supports the heat exchange module assembly 120 while partially surrounding the outside of the heat exchange module assembly 120 . The support frame 110 includes a lower plate 111 covering the lower part of the heat exchange module assembly 120 , an upper plate 113 covering the upper part of the heat exchange module assembly 120 , and the lower plate 111 and the upper plate 113 connecting the upper plate 113 . It includes a plurality of connecting rods 116 . The heat exchange module assembly 120 is formed in a hexahedral shape, and four connecting rods 116 are disposed to surround the four corners of the heat exchange module assembly 120 , respectively. The support frame 110 can stably support the heat exchange module assembly 120 by covering the lower surface, the upper surface, and the four corners of the heat exchange module assembly 120 while exposing the four sides of the heat exchange module assembly 120 to the outside. there is. A through hole 114 for installing the sterilization lamp 160 is provided in the central portion of the upper plate 113 .

The heat exchange module assembly 120 includes four heat exchange element assemblies 121 and a frame 140 supporting these heat exchange element assemblies 121 . The outdoor air flowing along the air supply passage 220 of the total heat exchanger 200 and the indoor air flowing along the exhaust passage 222 exchange heat while passing through the inside of the heat exchange module assembly 120 .

The heat exchange element assembly 121 has a hexahedral shape in which a plurality of unit heat exchange elements 123 having a rectangular plate shape are stacked.

As shown in FIG. 8 , the unit heat exchange element 123 has a structure in which a spacer 125 is interposed between a pair of partition plates 124 spaced apart from each other in parallel. The spacer 125 supports the pair of partition plates 124 to be spaced apart from each other at regular intervals. A passage 126 through which air can flow is formed between a pair of partition plates 124 spaced apart by the spacer 125 .

The plurality of unit heat exchange elements 123 are alternately stacked so that the passages 126 are orthogonal to each other. The unit heat exchange element 123 through which the passage 126 is connected to the supply air flow path 220 of the total heat exchanger 200 becomes a heat exchange element 128 for supply air through which the outside air supplied to the supply air flow path 220 can pass. And the unit heat exchange element 123 through which the passage 126 is connected to the exhaust passage 222 of the total heat exchanger 200 includes an exhaust heat exchange element 130 through which the indoor air discharged to the exhaust passage 222 can pass. do.

The heat exchange element 128 for supply and the heat exchange element 130 for exhaust are alternately stacked to form the heat exchange element assembly 121 . The passage 126 of the unit heat exchange element 123 constituting the heat exchange element 128 for supplying air becomes the air supply passage 129 for guiding the outside air. And the passage 126 of the unit heat exchange element 123 constituting the heat exchange element 130 for exhaust becomes the exhaust passage 131 for guiding the indoor air. Since the heat exchange element 128 for supply air and the heat exchange element 130 for exhaust contact each other, the outdoor air passing through the air supply passage 129 and the indoor air passing through the exhaust passage 131 may exchange heat.

The frame 140 is formed in a cross shape in which a pair of air supply connection parts 141 made of a flat plate type and a pair of exhaust connection parts 147 made of a flat plate shape are disposed to be perpendicular to each other. A frame groove 153 capable of accommodating the sterilization lamp 160 is provided in the center of the frame 140 . The frame groove 153 is positioned between the pair of air supply connections 141 and the pair of exhaust connections 147 . The frame 140 is made of a light-transmitting material that can transmit light generated from the sterilization lamp 160 accommodated in the frame groove 153 .

A pair of air supply connection parts 141 and a pair of exhaust connection parts 147 are radially arranged around the frame groove 153 . That is, the pair of air supply connection parts 141 are disposed so that each end faces each other with the frame groove 153 interposed therebetween. And the pair of exhaust connection parts 147 are disposed so as to face each end of the air supply connection part 141 and the vertical frame groove 153 therebetween.

The air supply connection part 141 is made of a two-part structure including a pair of air supply connection plates 142 overlapping each other facing each other. The air supply connecting plate 142 includes a plurality of partitions 143 spaced apart from each other at regular intervals, and a spacer 144 interposed between the partitions 143 . A supply air connection path 145 through which external air flowing along the supply air passage 220 can pass is provided between the partitions 143 . A plurality of air supply connection passages 145 provided on the air supply connection plate 142 are spaced apart at regular intervals and are connected to the air supply passages 129 of each of the air supply heat exchange elements 128 constituting the heat exchange element assembly 121. .

The exhaust connection part 147 has a two-part structure including a pair of exhaust connection plates 148 overlapping each other. The exhaust connection plate 148 includes a plurality of partitions 149 spaced apart from each other at regular intervals and a spacer 150 interposed between the partitions 149 . An exhaust connection path 151 through which indoor air flowing along the exhaust flow path 222 can pass is provided between the partitions 149 . The plurality of exhaust connection passages 151 provided in the exhaust connection plate 148 are spaced apart at regular intervals and are connected to the exhaust passages 131 of each of the exhaust heat exchange elements 130 constituting the heat exchange element assembly 121 . .

11 to 14 , the air supply connecting plate 142 and the exhaust connecting plate 148 are coupled to one heat exchange element assembly 121 one by one to form a heat exchange module 155 . That is, the heat exchange module 155 has a structure in which the air supply connection plate 142 and the exhaust connection plate 148 are vertically coupled to one heat exchange element assembly 121 . The air supply connection plate 142 is a heat exchange element assembly such that a plurality of air supply connection passages 145 provided therein are connected to the air supply passages 129 of each of the plurality of air supply heat exchange elements 128 constituting the heat exchange element assembly 121 . It is coupled to one side of (121). The exhaust connection plate 148 is a heat exchange element assembly such that the plurality of exhaust connection paths 151 provided therein are connected to the exhaust passages 131 of each of the plurality of exhaust heat exchange elements 130 constituting the heat exchange element assembly 121 . It is coupled to the other side of (121). The heat exchange element assembly 121 may be coupled to the air supply connecting plate 142 and the exhaust connecting plate 148 in various ways such as bonding, fusion, and mechanical bonding.

The four heat exchange modules 155 are coupled to each other so as to abut two each to form a hexahedral heat exchange module assembly 120 having a frame groove 153 formed in the center. In one heat exchange module 155 , the air supply connecting plate 142 is overlapped with the air supply connecting plate 142 of the other heat exchange module 155 , and the exhaust connecting plate 148 is an exhaust connecting plate of another heat exchange module 155 . It is coupled with the other two heat exchange modules 155 so as to overlap with the 148 . The air supply connecting plates 142 provided in each of the two heat exchange modules 155 coupled to each other are superimposed on each other to form the air supply connecting portion 141 . In addition, the exhaust connection plates 148 provided in the two heat exchange modules 155 coupled to each other are superimposed on each other to form the exhaust connection part 147 . The heat exchange module 155 may be combined with other heat exchange modules 155 in various ways such as adhesion, fusion, and mechanical bonding.

Outside air flowing into the air supply passage 129 provided in one heat exchange module 155 flows along the air supply passage 129 of the other heat exchange module 155 through the air supply connection passage 145 of the supply air connection part 141 . do. In addition, the indoor air flowing into the exhaust passage 131 provided in the same heat exchange module 155 goes along the exhaust passage 131 of another heat exchange module 155 through the exhaust connection passage 151 of the exhaust connection part 147 . will move

4 to 7 and 9 to 10, the sterilization lamp 160 is installed to be inserted into the frame groove 153 to generate light capable of sterilizing air. As the sterilization lamp 160, various types capable of generating light having a sterilization function, such as an ultraviolet lamp, may be used. Light generated from the sterilization lamp 160 may be irradiated to the light transmissive supply air connection part 141 to sterilize the outside air passing through the supply air connection path 145 of the supply air connection part 141 . In addition, the light generated from the sterilization lamp 160 may be irradiated to the light-transmissive exhaust connection part 147 to sterilize the indoor air passing through the exhaust connection path 151 of the exhaust connection part 147 .

The sterilization lamp 160 is detachably coupled to the socket 165 installed on the outside of the support frame 110 . The socket 165 has a connection port 166 into which the lamp terminal 161 of the sterilization lamp 160 can be detachably inserted in order to supply power to the sterilization lamp 160 . The socket 165 may receive power supplied to the total heat exchanger 200 through the wire 168 .

As described above, the total heat exchange unit 100 according to an embodiment of the present invention includes a plurality of heat exchange elements 128 for supply air having an air supply passage 129 through which outside air passes, and an exhaust passage 131 through which indoor air passes. ) having a plurality of heat exchange elements 130 for exhaust are supported on a frame 140 having light transmittance, and a sterilization lamp 160 passes through the frame 140 to the heat exchange element for supplying air through the heat exchange element 128 for external air and exhaust. Light for sterilization may be irradiated to the indoor air passing through the heat exchange element 130 for use. Therefore, sterilized outdoor air can be supplied to the room. In addition, it is possible to reduce environmental pollution by sterilizing indoor air exhausted from the room and discharging it to the outside.

In addition, in the total heat exchange unit 100 according to an embodiment of the present invention, the light generated from the sterilization lamp 160 passes through the light-transmissive frame 140 for supplying air heat exchange element 128 and exhaust heat exchange element 130 . ), it is possible to prevent the propagation of bacteria or viruses in the heat exchange element 128 for supply air or the heat exchange element 130 for exhaust.

In addition, in the total heat exchange unit 100 according to an embodiment of the present invention, a plurality of supply air heat exchange elements 128 and a plurality of exhaust heat exchange elements 130 constitute a frame 140 , the air supply connection plate 142 . And since it is modularized into a heat exchange module 155 together with the exhaust connection plate 148 , it can be assembled in a manner that combines a plurality of heat exchange modules 155 . Therefore, it is easy to manufacture. And since only the heat exchange module 155 damaged during use can be replaced, maintenance is convenient.

On the other hand, 15 to 18 show various modifications of the total heat exchange unit.

First, FIGS. 15 and 16 show a portion of a total heat exchange unit in which the coupling structure of the heat exchange element assembly 121 and the air supply connection part 210 and the coupling structure of the heat exchange element assembly 121 and the exhaust connection part 215 are modified. .

The total heat exchange unit shown in FIGS. 15 and 16 is provided with a plurality of air supply connection part fixing parts 212 for coupling with the heat exchange element assembly 121 to the air supply connection plate 211 of the supply air connection part 210, and the exhaust connection part ( A plurality of exhaust connection part fixing parts 217 for coupling with the heat exchange element assembly 121 are provided on the exhaust connection plate 216 of the 215 .

The air supply connection part fixing part 212 is provided to protrude outward at each position corresponding to the air supply connection path 145 . The air supply connection part fixing part 212 includes a pair of air supply connection part fixing protrusions 213 spaced apart to face each other. A pair of air supply connection fixing protrusions 213 are inclined so that the ends of each of the protruding directions gradually decrease.

As shown in (a) and (b) of Figure 15, the air supply connection part 210 and the heat exchange element assembly 121 have an air supply connection part fixing part 212 in the supply passage 129 of the heat exchange element 128 for supply air. It can be simply coupled in such a way that it is inserted.

The exhaust connection part fixing part 217 is provided to protrude outward at each position corresponding to the exhaust connection path 151 . The exhaust connection part fixing part 217 has the same structure as the supply air connection part fixing part 212 . That is, the exhaust connection part fixing part 217 includes a pair of exhaust connection part fixing protrusions 218 spaced apart to face each other. The pair of exhaust connection fixing protrusions 218 are inclined so that their respective ends gradually decrease in the protruding direction.

16 (a) and (b), the exhaust connection part 215 and the heat exchange element assembly 121 have an exhaust connection part fixing part 217 in the exhaust passage 131 of the heat exchange element 130 for exhaust. It can be simply coupled in such a way that it is inserted.

17 shows the heat exchange module assembly 310 of the total heat exchange unit in which the structure of the frame 311 is modified.

The heat exchange module assembly 310 shown in FIG. 17 includes four heat exchange element assemblies 121 and a frame 311 supporting these heat exchange element assemblies 121 . The heat exchange element assembly 121 is the same as described above.

The frame 311 is formed in a cross shape in which a pair of air supply connection parts 312 and a pair of exhaust connection parts 317 are disposed to be perpendicular to each other. A frame groove 153 capable of accommodating the sterilization lamp 160 is provided in the center of the frame 311 .

The air supply connection part 312 is made of a two-part structure including a pair of air supply connection plates 313 overlapping each other facing each other. A plurality of air supply connection passages 145 (refer to FIG. 10 ) are provided inside the air supply connection plate 313 . In addition, the air supply connecting plate 313 is provided with a plurality of air supply connecting plate grooves 314 and a plurality of air supply connecting plate grooves 314 and a plurality of air supply connecting plate projections 315 that are alternately arranged to be spaced apart. A pair of air supply connecting plates 313 are coupled to each other in such a way that the air supply connecting plate protrusions 315 of the other air supply connecting plates 313 are inserted into each air supply connecting plate groove 314 to form an air supply connecting portion 312 . .

The exhaust connection part 317 has a two-part structure including a pair of exhaust connection plates 318 overlapping each other. A plurality of exhaust connection paths 151 (refer to FIG. 10 ) are provided inside the exhaust connection plate 318 . In addition, the exhaust connection plate 318 includes a plurality of exhaust connection plate grooves 319 spaced apart from each other and a plurality of exhaust connection plate projections 320 alternately arranged with the plurality of exhaust connection plate grooves 319 . A pair of exhaust connection plates 318 are coupled to each other in such a way that the exhaust connection plate protrusions 320 of the other exhaust connection plate 318 are inserted into each exhaust connection plate groove 319 to form an exhaust connection portion 317 . .

The air supply connecting plate 313 and the exhaust connecting plate 318 are coupled to the heat exchange element assembly 121 to form a heat exchange module 325 . In the heat exchange module 325 , the air supply connecting plate 313 is fitted with the air supply connecting plate 313 of another heat exchange module 325 , and the exhaust connecting plate 318 is an exhaust connecting plate of another heat exchange module 325 ( 318) and can be simply combined with the other two heat exchange modules 325 in a manner of fitting.

In the total heat exchange unit 400 shown in FIG. 18 , the structures of the outer frame body 410 and the frame 420 are slightly modified for the installation of the socket 165 for supplying power to the sterilization lamp 160 .

That is, the outer frame 410 is provided with a mounting groove 411 into which the socket 165 can be partially inserted, and the frame 420 has an insertion groove 421 into which the socket 165 can be partially inserted. will be prepared The socket 165 is inserted into the insertion groove 421 of the frame 420 through the mounting groove 411 of the outer frame 410 to support the sterilization lamp 160 in a state stably coupled to the frame 420 . can

Although preferred examples of the present invention have been described above, the scope of the present invention is not limited to the forms described and illustrated above.

For example, in the drawing, the air supply connection part of the frame is made of a two-part structure in which two air supply connection plates are overlapped, and the exhaust connection part is shown to have a two-part structure in which two exhaust connection plates are overlapped. may have an integral structure.

In addition, the total heat exchange unit may take a structure that can sterilize only the outside introduced from the outside with a sterilization lamp. In this case, the frame may be changed to a structure having only a supply air connection through which outside air passes.

While the present invention has so far been shown and described in connection with preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as so shown and described, and is not intended to be limited by the scope of the appended claims. It will be understood by those skilled in the art that many changes and modifications can be made to the present invention without departing from the spirit and scope of the present invention.

100, 400: total heat exchange unit 110: support frame
111: lower plate 113: upper plate
116: connecting rod 120, 310: heat exchange module assembly
121: heat exchange element assembly 123: unit heat exchange element
126: passage 128: heat exchange element for supply air
129: supply air passage 130: heat exchange element for exhaust
131: exhaust passage 140, 311, 420: frame
141, 210, 312: supply air connection part 142, 211, 313: supply air connection plate
145: supply air connection path 147, 215: exhaust connection part
148, 216, 318: exhaust connection plate 151: exhaust connection path
153: frame groove 155, 325: heat exchange module
160: sterilization lamp 165: socket
217: exhaust connection part fixing part 218: exhaust connection part fixing protrusion
200: total heat exchanger 210: housing
212: outdoor air intake 214: outdoor air supply
216: indoor air intake 218: indoor air exhaust
220: supply air flow path 222: exhaust flow path
224: supply fan 226: exhaust fan
314: supply air connection plate groove 315: supply air connection plate projection
319: exhaust connection plate groove 320: exhaust connection plate projection

Claims (13)

In the total heat exchange unit installed in the intersection area of the air supply flow path and the exhaust flow path of the total heat exchanger,
a plurality of heat exchange elements for supply air having an air supply passage through which outside air flowing along the air supply passage can pass;
a plurality of exhaust heat exchange elements having an exhaust passage through which indoor air flowing along the exhaust passage can pass;
a frame comprising a plurality of supply air connection passages spaced apart from each other so that the outside air flowing along the air supply passage can pass, and a frame groove perpendicular to the supply air connection passage, and comprising: a frame made of a light-transmitting material; and
A sterilization lamp installed to be inserted into the frame groove and irradiated with light to the supply air connection path to sterilize the outside air passing through the supply air connection path;
The plurality of heat exchange elements for air supply are coupled to the frame so that the air supply passage is connected to the air supply connection passage and are disposed to be spaced apart from each other,
The plurality of heat exchange elements for exhaust are coupled to the frame so as to be alternately stacked with the plurality of heat exchange elements for supply air,
The frame includes a pair of air supply connections disposed on both sides of the frame groove with the frame groove interposed therebetween,
A total heat exchange unit, characterized in that the plurality of air supply connection paths are spaced apart from each other in each of the pair of supply air connection parts.
delete According to claim 1,
The frame includes a plurality of exhaust connection passages spaced apart from each other so that indoor air flowing along the exhaust passage can pass, and an exhaust connection portion perpendicular to the supply air connection portion;
The plurality of exhaust heat exchange elements are coupled to the exhaust connection portion so that the exhaust passage is connected to the exhaust connection passage.
4. The method of claim 3,
The total heat exchange unit, characterized in that the light irradiated from the sterilization lamp is also irradiated to the exhaust connection path through which the indoor air passes.
4. The method of claim 3,
A pair of exhaust connection parts are provided on both sides of the frame groove with the frame groove interposed therebetween.
6. The method of claim 5,
The air supply connection part is made of a two-part structure including a pair of air supply connection plates that are overlapped to face each other,
The exhaust connection part is made of a two-part structure including a pair of exhaust connection plates overlapping each other,
The air supply connecting plate and the exhaust connecting plate are combined with the plurality of heat exchange elements for supply air and the plurality of heat exchange elements for exhaust to form a heat exchange module,
Four of the heat exchange modules are coupled to surround the frame groove,
The total heat exchange unit, characterized in that each of the four heat exchange modules is coupled such that an air supply connection plate is overlapped with an air supply connection plate of another heat exchange module and an exhaust connection plate is overlapped with an exhaust connection plate of another heat exchange module.
7. The method of claim 6,
The air supply connecting plate is provided with a plurality of air supply connecting plate grooves spaced apart and a plurality of air supply connecting plate projections alternately arranged with the plurality of air supply connecting plate grooves,
A pair of overlapping air supply connecting plates are mutually coupled so that the air supply connecting plate protrusion of the other air supply connecting plate is inserted into the supply air connecting plate groove, respectively,
The exhaust connection plate includes a plurality of exhaust connection plate grooves spaced apart and a plurality of exhaust connection plate projections alternately disposed with the plurality of exhaust connection plate grooves,
A pair of mutually overlapping exhaust connection plates are respectively coupled to each other so that the exhaust connection plate projections of the other exhaust connection plates are inserted into the exhaust connection plate grooves.
7. The method of claim 6,
and a support frame including a lower plate covering a lower surface of each of the plurality of heat exchange modules, an upper plate covering an upper surface of each of the plurality of heat exchange modules, and a plurality of connecting rods connecting the lower plate and the upper plate Total heat exchange unit.
9. The method of claim 8,
The four heat exchange modules are coupled to each other to form a heat exchange module assembly having a hexahedral shape,
The total heat exchange unit, characterized in that the plurality of connecting rods are arranged to surround the four corners of the heat exchange module assembly.
4. The method of claim 3,
The air supply connection part is provided with an air supply connection part fixing part protruding outward at each position corresponding to the air supply connection path,
The heat exchange element for air supply is coupled to the air supply connection part in such a way that the supply air connection part fixing part is inserted into the air supply passage,
The exhaust connection part is provided with an exhaust connection part fixing part protruding outward at each position corresponding to the exhaust connection path,
and the exhaust heat exchange element is coupled to the exhaust connection part in such a way that the exhaust connection part fixing part is inserted into the exhaust passage.
11. The method of claim 10,
The air supply connecting portion fixing portion includes a pair of air supply connecting portion fixing projections spaced apart to face each other, wherein the pair of supply air connection portion fixing projections are inclined so that each end gradually decreases in the protruding direction,
The exhaust connection part fixing part includes a pair of exhaust connection part fixing protrusions spaced apart to face each other, wherein the pair of exhaust connection part fixing protrusions are inclined so that the ends of each of the exhaust connection part fixing protrusions gradually decrease in the protruding direction. exchange unit.
According to claim 1,
In order to supply power to the sterilization lamp, it has a connection port into which the lamp terminal of the sterilization lamp can be detachably inserted, and a socket installed outside the frame groove; Total heat exchange unit comprising a.
13. The method of claim 12,
An insertion groove into which at least a part of the socket can be inserted is formed in the frame to be connected to the frame groove.

Images