KR20050110253A - Heat exchanger - Google Patents

Abstract

The present invention relates to a total heat exchanger having a filter to remove foreign substances from the air passing through the interior.

The total heat exchanger according to the present invention is disposed at an intersection point between the suction passage and the discharge passage, the main body having an external appearance and having an intake passage for guiding outdoor air to the interior and an exhaust passage for guiding the indoor air to the outside intersect each other. It is provided with a total heat exchange unit for heat exchange without mixing the air passing through the suction flow path and the air passing through the discharge flow path with each other, and a filter device for filtering foreign substances in the air flowing into the heat exchange unit, so that the filter devices are spaced apart from each other. A pair of rollers arranged and a filter, one end of which is installed on one of the pair of rollers and the other end of which is wound around the other, the middle of which covers the air flow direction upstream of the total heat exchange unit. If dust accumulates in some sections of the section, the sections used by a pair of rollers are wound on any one roller and the sections not used are A bunched released from one of the other roller has operational effects of being able to use a heat exchanger without a long-term replacement filters.

Description

Heat exchanger {HEAT EXCHANGER}

The present invention relates to a total heat exchanger, and more particularly to a total heat exchanger having a filter to remove foreign matter from the air passing through the inside.

In general, the electrothermal heat exchanger is used as a part of the building's air conditioning system. The indoor air discharged from the indoor air discharged in the process of discharging the indoor air to the outside and inhaling the outdoor air to the room to ventilate the building It is a device to reduce the heat loss generated during the ventilation process by heat exchange.

In this heat exchanger, the flow path through which the outdoor air sucked into the inside passes and the flow path through which the indoor air discharged into the outside passes are stacked at right angles to each other to mix the outdoor air sucked into the room and the indoor air discharged to the outside. A total heat exchange unit is provided to allow heat exchange without crossover.

In addition, in the heat exchanger, when foreign matters such as dust contained in the air flow into and accumulate in the heat exchanger unit, the flow path inside the heat exchanger unit may be blocked, so that a filter is disposed upstream of the air flow direction. The contained foreign matter can be filtered by the filter before it enters the heat exchange unit.

However, such a filter has a problem in that the filter needs to be replaced periodically because dust filtered in the air accumulates according to its use, and thus the flow resistance of the air flowing through the filter increases.

The present invention is to solve such a problem, it is an object of the present invention to provide a total heat exchanger that can be used for long-term replacement of the filter for filtering foreign matter in the air passing through.

The heat exchanger according to the present invention for achieving the above object, the main body is provided so that the intake passage for guiding the outdoor air to the interior and the discharge passage for guiding the indoor air to the outside and the suction passage And an electrothermal exchange unit arranged at an intersection point of the discharge passage to exchange heat between the air passing through the suction passage and the air passing through the discharge passage without mixing with each other, and filtering foreign matter from the air flowing into the electrothermal exchange unit. And a filter device, wherein the filter device is provided with a pair of rollers arranged to be spaced apart from each other, one end of which is installed on one of the pair of rollers, and the other end of which is wound around the other, the middle of which is air of the heat exchange unit. And a filter covering the upstream side in the flow direction.

In addition, the pair of rollers are characterized in that it comprises a drive roller is rotated by receiving a rotational force and the filter is wound, and a driven roller is rotated as the filter is wound around the drive roller and the filter is released.

In addition, the main body is characterized in that it comprises a filter drive motor for generating a rotational force to rotate the drive roller.

In addition, one side of the main body is characterized in that the rotary knob is rotated to receive the force from the outside and rotate the drive roller.

In addition, the filter is bent in the middle and is installed so as to pass through a wall partitioning between the flow path upstream of the heat exchange unit upstream of the suction flow path and the flow path upstream of the heat exchange unit of the discharge flow path is the total heat exchange of the suction flow path And an upstream side of the unit and an upstream side of the electrothermal exchange unit of the discharge passage.

Hereinafter, one preferred embodiment of the present invention will be described in detail with reference to the drawings.

The total heat exchanger according to the present invention is installed to be embedded in the ceiling of the building, so that the outdoor air sucked into the room and the indoor air discharged to the outside exchange heat with each other when the room is ventilated. By reducing the difference, the heat loss can be reduced.

The heat exchanger as shown in FIGS. 1 and 2 has an outer shape and an inlet passage 11 for guiding outdoor air to the inside and a discharge passage for guiding the indoor air to the outside in the main body 10 which is open downward. 12 is provided to be partitioned, and an indoor inlet 12a through which indoor air is sucked and an indoor outlet 11b through which outdoor air is discharged to one side of the main body 10 are provided, and outdoor air is sucked into the other side of the main body 10. The outdoor suction port 11a and the outdoor discharge port 12b through which the indoor air is discharged to the outside are respectively provided, and the outdoor suction port 11a and the indoor discharge port 11b are connected by the suction flow path 11 to suck the outdoor air into the room. In addition, the indoor suction port 12a and the outdoor discharge port 12b are connected by the discharge passage 12 to discharge the indoor air to the outside.

At this time, the suction flow path 11 and the discharge flow path 12 intersect with each other so that the outdoor air sucked into the indoor air and the indoor air discharged to the outside can exchange each other, and the suction flow path 11 and the discharge path 12 are discharged. At the intersection where the flow passage 12 intersects, an electrothermal exchange unit 20 is disposed so that the air passing through the suction flow passage 11 and the air passing through the discharge flow passage 12 can exchange heat with each other without being mixed with each other. have. Reference numeral 16 denotes a lower panel 16 covering the opening of the main body 10 which is opened downward, and a through hole 16a is provided at the center thereof to separate and clean the heat exchange unit 20 to the outside.

The total heat exchange unit 20 is alternately stacked such that the flow path through which the air sucked in and the discharged air pass passes at right angles to each other, thereby separating the air passing through the suction flow path 11 and the discharge flow path 12. The passing air is allowed to cross heat exchange without mixing with each other.

At this time, the suction passage 11 and the discharge passage 12 has an intake fan 13a and an exhaust fan 13b for generating a blowing force so that air can flow along the suction passage 11 and the discharge passage 12. In each case, the outdoor air and the indoor air flow along the suction flow path 11 and the discharge flow path 12, respectively, and operate according to the operation of the intake fan 13a and the exhaust fan 13b.

In this embodiment, the intake fan 13a and the exhaust fan 13b consist of a centrifugal fan that sucks air from the axial direction and discharges it in the radial direction, and the air discharged radially from the intake fan 13a and the exhaust fan 13b. Are installed in the fan casings 14a and 14b for guiding them to the indoor outlet 11b and the outdoor outlet 12b. In addition, fan driving motors 15a and 15b are formed on one side of each of the fan casings 14a and 14b to generate rotational force to rotate the intake fan 13a and the exhaust fan 13b.

In addition, the pre-heat exchanger according to the present invention, the filter for preventing foreign matters from accumulating on the flow path inside the pre-heat exchange unit 20 by filtering foreign matters, such as dust contained in the air before entering the pre-heat exchange unit 20 The apparatus 30 is provided.

The filter device 30 includes a filter 31 that filters foreign matter from the air flowing into the total heat exchange unit 20, and the filter 31 is disposed to cover an upstream side of the air flow direction of the total heat exchange unit 20. Foreign matter contained in the air is to be filtered by the filter 31 before entering the total heat exchange unit (20).

In addition, the filter device 30 is provided with a pair of rollers (32, 33) are installed to be spaced apart from each other by a predetermined distance and the filter 31 is wound. The pair of rollers 32 and 33 are composed of a driving roller 32 which rotates by receiving a rotational force and a driven roller 33 which receives and rotates a rotational force through the filter 31 from the driving roller 32, and a filter. 31, the first end of which is installed on the driving roller 32 and the other end is installed so as to be wound a plurality of times on the driven roller 33 and wound around the driving roller 32 according to the rotation of the driving roller 32 and at the same time the driven roller. It is supposed to be released from 33.

Therefore, a portion of the filter 31 disposed between the driving roller 32 and the driven roller 33 filters the dust contained in the air flowing into the total heat exchange unit 20, and the rotational force is transmitted to the driving roller ( When 32 is rotated, a portion of the filter 31 used to filter foreign matter in the air is wound around the driving roller 32, and at the same time, the filter 31 of the unused section is released from the driven roller 33. Since it is disposed between the 32 and the driven roller 33, the unused section of the filter 31 can be used to filter foreign matter in the air flowing into the total heat exchange unit 20 to replace the filter 31. The same effect as that can be obtained.

In this embodiment, the filter driving motor 35 is installed at one end of the driving roller 32 so as to rotate the driving roller 32 so as to rotate the driving roller 32. Thus, by allowing the filter drive motor 35 to operate, the section of the filter 31 which is not used can be automatically changed to cover the upstream side of the air flow direction of the total heat exchange unit 20.

In addition, in this embodiment, the filter 31 is bent in the middle and divides the flow path upstream of the heat exchange unit 20 upstream of the suction flow path 11 and the flow path upstream of the heat exchange unit 20 upstream of the discharge flow path 12. It is installed to penetrate the wall so as to cover both the upstream side of the total heat exchange unit 20 of the suction flow path 11 and the upstream side of the total heat exchange unit 20 of the discharge flow path 12, and supports the middle of the filter 31. A pair of auxiliary rollers 34 are arranged to keep the filter 31 bent.

In this embodiment, the filter driving motor 35 for rotating the driving roller 32 is disposed in the main body 10 so that the filter 31 may be periodically wound and replaced by the filter driving motor 35 periodically. 3, the filter 31 is disposed on the main body 10 on one side so that the user can manually rotate the driving roller 32 from the outside. It is also possible to move it manually.

In addition, in the present embodiment, the filter device 30 is bent in the middle of the filter 31, the upstream side of the total heat exchange unit 20 of the suction flow path 11 and the upstream side of the total heat exchange unit 20 of the discharge flow path 12. However, the present invention is not limited thereto, but the filter device 30 may be disposed upstream of the suction flow passage 11 and the discharge flow passage 12 upstream of the total heat exchange unit 20.

In addition, the present embodiment has been described as an example that the filter 31 to filter the dust, but not limited to this may be applied to the deodorizing filter for filtering the odor-causing substances and the like contained in the passing air.

As described in detail above, in the electrothermal exchanger according to the present invention, as the used section of the filter is wound around the driving roller according to the rotation of the driving roller, the unused section of the filter is driven upstream of the preheating exchanger. Since it is possible to obtain the same effect as replacing the new filter, and thus there is an effect that can be used for a long time heat exchanger without replacing the filter.

1 is a view showing the internal configuration of the total heat exchanger according to the present invention.

2 is a bottom perspective view of the total heat exchanger according to the present invention.

3 is a bottom perspective view of a total heat exchanger according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: main body 11: suction flow path

11a: outdoor inlet 11b: indoor outlet

12: discharge passage 12a: indoor suction port

12b: outdoor outlet 13a: intake fan

13b: exhaust fan 14a, 14b: fan casing

15a, 15b: Fan drive motor 16: Bottom panel

20: electrothermal exchange unit 30: filter device

31: filter 32: drive roller

33: driven roller 34: auxiliary roller

35: filter drive motor 36: rotary knob

Claims (5)

The main body is provided so that the suction flow path guiding the outdoor air to the inside and the discharge flow path guiding the indoor air to the outside intersect each other, and is disposed at the intersection of the suction flow path and the discharge flow path and passes through the suction flow path. And a preheat exchange unit for exchanging air without mixing the air passing through the discharge passage with each other, and a filter device for filtering foreign matter from the air flowing into the preheat exchange unit. The filter device includes a pair of rollers spaced apart from each other, one end of which is installed on one of the pair of rollers, and the other end of which is wound around the other so that the middle of the filter unit covers an upstream side of the air flow direction of the electrothermal exchange unit. A total heat exchanger comprising a filter. The method of claim 1, The pair of rollers are rotated by a rotational force is received, the heat transfer roller, characterized in that it comprises a driven roller that rotates as the filter is wound around the drive roller, the filter is unrolled and the filter is released. The method of claim 2, And a filter driving motor for generating a rotational force to rotate the driving roller in the main body. The method of claim 2, One side of the main body is a heat exchanger, characterized in that the rotary knob for rotating the drive roller is rotated by receiving a force from the outside. The method of claim 1, The filter is bent halfway and is installed to penetrate a wall partitioning between the flow path upstream of the heat exchange unit upstream of the suction flow path and the flow path upstream of the heat exchange unit upstream of the discharge flow path, so as to upstream the heat transfer unit upstream of the suction flow path. And a heat exchanger disposed to cover a side and an upstream side of the heat exchange unit of the discharge passage.