KR102252087B1 - A heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger which comprises: a housing (1) which includes an inner air outlet (11) and an outer air inlet (12) communicating toward an outdoor side and an outer air supply hole (13) and an inner air inlet (14) communicating toward an indoor side; an air blower (3) provided in the inner air outlet (11) of the housing to discharge the inner air to the outdoors; an air supply fan (4) provided on the outer air supply hole (13) to supply outer air to the indoors; a thermoelectric exchange device (2) mounted in the housing to exchange heat between inner air and outer air; and dampers (21, 22, 23, 24), respectively, installed on the inner air outlet (11), the outer air inlet (12), the outer air supply hole (13), and the inner air inlet (14) to open and close a flow path. In a cleaning mode for removing dust from the housing (1) and the thermoelectric exchange device (2), with the outer air supply hole (13) and the inner air inlet (14) closed, the damper (21) of at least the inner air outlet (11) among the inner air outlet (11) and the outer air inlet (12) is opened, and the damper (25), which selectively makes a space (6) with the air blower (3) to discharge the air from the housing (1) to the outside and a space (7) into which the outer air is introduced communicate with each other, is opened, the dust piled up in the spaces (6, 7) and the thermoelectric exchange device (2) by a sound pressure in accordance with the operation of the air blower (3) can be discharged to the outside through the inner air outlet (11). The present invention has effects to conveniently remove the dust while discharging air in the spaces (6, 7) to the air blower (3) in the cleaning mode.

Description

Total heat exchanger{A HEAT EXCHANGER}

The present invention relates to a total heat exchanger, and in particular, the outdoor unit introduced when the indoor unit is discharged allows heat exchange through the heat transfer element, and allows the dust accumulated inside the case to be easily removed from the total heat exchanger that has not been used for a long time. It is to provide an improved total heat exchanger to maintain a pleasant and healthy indoor environment by preventing indoor air pollution, which is harmful to health as dust inside the total heat exchanger is introduced into the room.

In general, a total heat exchanger has a heat exchange element inside the case, and in winter, it recovers heat energy from the indoor air discharged through heat exchange between the cold air flowing into the room from the outside and the hot air discharged from the room to the outside. It is used to reduce energy consumption required for heating outdoor air by increasing the temperature of the air.

As an example of such a total heat exchanger, in Korean Patent Registration No. 10-1839598 (registration date March 12, 2018), when the outdoor temperature is lower than the preset cold temperature in order to prevent the occurrence of condensation or freezing inside the main body housing , The internal air discharge damper and the external air intake damper partially close the internal air outlet and the external air inlet so that the amount of internal air discharged through the internal air outlet and the amount of outdoor air inhaled through the external air inlet are reduced, and a part of the internal air to be discharged through the internal air intake is external air intake. The return damper includes opening a part of the return hole so that it is introduced into the outside air having a relatively low temperature and humidity, and the internal air discharge damper and the external air intake damper are part of the internal air outlet and the external air inlet. In the closing step, the opening degree of the outdoor air intake damper is smaller than the opening degree of the internal air discharge damper so that the amount of outdoor air sucked into the external air intake port is smaller than the amount of internal air discharged through the internal air outlet, and the internal air discharge damper and the In the step of the external air intake damper partially closing the internal air outlet and the external air intake, the external air intake damper repeatedly performs partial closing and front closing in order to reduce the amount of outdoor air sucked into the external air intake, and the return hole In the step of opening a part, the return damper repeatedly opens a part of the return hole and opens the entire surface so that the amount of internal air introduced from the internal air intake port to the external air inlet is increased. A method of controlling an apparatus is disclosed.

However, such a conventional total heat exchanger does not use a total heat exchange element or does not use a total heat exchanger in a season when the temperature difference between indoors and outdoors is not large, for example. In this case, dust accumulates inside the total heat exchanger, and when the outside air is introduced into the room, dust inside the electrothermal pipe together with the outside air is introduced, contaminating the indoor air, and there is a risk of harm to health. On the other hand, since the user cannot clean the inside of the total heat exchanger, only the filter is replaced, so there is a need for an improvement in the structure that can easily remove the dust inside the total heat exchanger.

Korean Patent Registration No. 10-1839598 (Registration Date March 12, 2018)

In order to solve the problems of the conventional total heat exchanger described above, it is an object of the present invention to perform heat exchange while external air flowing in the total heat exchange element when the internal air is discharged, and when not used for a long time, the total heat exchanger It is to provide an improved total heat exchanger to maintain a pleasant and healthy indoor environment by preventing indoor air pollution due to the inflow of dust inside the room when using the total heat exchanger by allowing the dust accumulated inside the case to be easily removed in the cleaning mode. .

Another object of the present invention is to provide a total heat exchanger having an improved filter dust collecting structure so that dust accumulated on a filter installed in a total heat exchange element is removed and discharged in a cleaning mode.

In order to achieve the above object, the total heat exchanger according to the present invention comprises a housing having an internal air supply port and an internal air inlet communicated toward the indoor side together with an internal air outlet and an external air inlet communicated toward the outdoor side, and the internal air of the housing. A blower provided at the outlet to discharge internal air to the outside, an air supply fan provided at the outside air supply port to supply outside air to the room, a total heat exchange element mounted inside the housing to exchange heat between the inside and outside air, and the inside air outlet In the total heat exchanger having dampers installed at each of the air inlet and the air inlet, the air inlet and the air inlet to open and close the flow path,

In the cleaning mode for removing dust from the housing and the total heat exchange element, with the outside air supply port and the inside air inlet closed, at least one of the inside air outlet and the outside air inlet 12 is opened and the damper of the inside air outlet is opened, and the outside from the housing. With the damper opened to selectively communicate the space where the blower to discharge air is installed and the space into which outside air is introduced, the negative pressure by operating the blower removes the dust accumulated in the spaces and the total heat exchange element. It is configured to be discharged to the outside through the outlet.

The filter is configured to swing the filter by a cam rotated by a motor to remove and remove dust accumulated on the surface of the filter installed on the side of the total heat exchange element toward the space where the outside air flows in.

The filter is disposed vertically below the protrusion formed by protruding vertically downward from the bottom of the upper portion of the housing to hold the total heat exchange element mounted in the housing, while the upper end is inclined to contact the cam at the side of the protrusion. It is disposed in a state, and the upper end of the filter is oscillated due to rotation of the cam, and it collides against the protrusion, and dust is removed from the filter.

In order to smoothly remove dust from the filter, a vibrator is installed on the lower bottom of the total heat exchange element, and may be configured to impart vibration to the total heat exchange element.

On the side where the outside air of the total heat exchange element is discharged into the room, it is arranged in front of the filter, and the location where ultraviolet rays are irradiated toward the filter and the location where bacteria in the air are sterilized by irradiating ultraviolet rays toward the air entering the room through the filter. An ultraviolet sterilizer may be provided to be movable.

In addition, the UV sterilizer is mounted on a base plate provided on the bottom of the housing at a position adjacent to the front of the filter mounted on the total heat exchange element opposite to the supply fan, and the base plate is hinged to the bottom of the housing and rotates. It is mounted as possible and the other end is arranged on the upper surface of the lower end of the inclined member advancing from the initial position by the motor, so that the ultraviolet sterilizer at the initial position of the inclined member irradiates ultraviolet rays toward the flow of outside air discharged into the room. And the ultraviolet sterilizer at the advanced position is configured to irradiate ultraviolet rays toward the filter.

In the total heat exchanger according to the present invention, in the cleaning mode, the blower 3 is installed so that the damper 25 is opened to communicate the space 6 where the internal air is discharged and the space 7 in which the outside air is introduced, and the outside air supply port 13 ) And the air inlet (14) are closed, the blower fan (3) is operated to discharge the air inside the housing of the total heat exchanger and the total heat exchange element, and at this time, the filter 51 is shaken by the cam (8). At the same time, the total heat exchanger can be easily cleaned by efficiently removing and discharging dust from the filter 51 by vibration by the vibrating element 55, and also has the effect of cleaning the total heat exchanger. When the outside air passes through the total heat exchange element 2 and the filter 52 and is supplied to the room, it is sterilized by the UV sterilizer 5 so that clean air can be supplied, and when the indoor supply of outside air is terminated, the UV sterilizer ( 5) There is an effect of sterilizing bacteria in the filter by irradiating ultraviolet rays with the filter 52 to maintain and manage the filter in a clean state.

1 is a schematic plan view showing the configuration of a total heat exchanger according to the present invention, and shows an operating state of discharging the bet to the outdoors. .
FIG. 2 shows an operating state for supplying outdoor air to the room in the total heat exchanger of FIG. 1.
FIG. 3 shows a cleaning mode in which outside air is introduced into the total heat exchanger in the total heat exchanger of FIG. 1 and then discharged to the outside together with the air in the total heat exchange element.
FIG. 4 shows that in the cleaning mode of FIG. 3, dust inside the total heat exchanger including the total heat exchange element is discharged by operating the blower in a state in which the inflow of outside air is blocked.
5 is a partial cross-sectional view showing a structure for removing dust from a filter in a cleaning mode of the total heat exchanger of FIG. 1;
6 is a partial cross-sectional view showing that dust is efficiently removed from the filter by the impact applied by rotating the filter by rotation of the cam in FIG. 5 and the vibration of the vibrator provided under the total heat exchange element.
FIG. 7 is a partial cross-sectional view showing that when outside air is supplied to the room in the total heat exchanger of FIG. 1, the ultraviolet sterilization lamp performs a sterilization effect on the outside air.
8 is a cross-sectional view showing sterilization of a filter disposed indoors by the ultraviolet sterilizer of FIG. 7.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings showing embodiments of the present invention.

1 and 2, the total heat exchanger according to the present invention includes an internal air outlet 11 and an outdoor air inlet 12 communicated toward the outdoor side, an outdoor air supply port 13 and an internal air inlet 14 communicated toward the indoor side. Is formed, a blower (3) provided to the internal air outlet (11) of the housing to discharge internal air to the outside, and a supply fan (4) provided to the external air supply port (13) to supply outside air to the interior ), a total heat exchange element (2) and the internal air outlet mounted inside the housing so that heat exchange between the internal air and the external air is formed by intersecting the flow paths of the outdoor air supplied from the outside to the inside and the internal air discharged from the inside to the outside. (11) and the outside air inlet 12, the outside air inlet 13 and the internal air inlet 14 are installed in each of the dampers 21, 22, 23, 24 to open and close the flow path.

In addition, a damper 25 is provided to selectively communicate a space 6 in which a blower 3 for discharging air to the outside from the housing 1 is installed and a space 7 in which outside air is introduced.

In addition, in the total heat exchange element 2, filters 51, 52, 53 are installed on the side where the outside air is introduced, the side where the outside air is discharged, and the side where the inside air is discharged, respectively, and a vibrator 55 is installed on the lower bottom surface of the total heat exchange element. ) Is installed so that the dust from the filter is more smoothly removed, and the total heat exchange element is vibrated so that the dust can be discharged smoothly.

An ultraviolet sterilizer 5 is provided in front of the filter 52 on the surface of the total heat exchange element 2 where the outside air is discharged into the room, and the ultraviolet sterilizer 5 irradiates ultraviolet rays toward the filter 52 to filter It is possible to sterilize the bacteria in the air by irradiating ultraviolet rays toward the air flowing into the room through the location and the filter 52 to sterilize the bacteria in the air.

In the state shown in FIG. 1, when only the damper 21 of the internal air outlet 11 and the damper 24 of the internal air inlet 14 are open, when the blowing fan 3 is operated, indoor air is discharged from the internal air inlet 14 ) And through the total heat exchange element (2) and the air outlet (11).

In the state shown in FIG. 2, when only the dampers 22 and 23 of the outdoor air inlet 12 and the outdoor air supply port 13 are open, when the air supply fan 4 is operated, the outdoor air is supplied to the outside air inlet 12. And it is supplied to the room through the total heat exchange element (2) and the outside air supply (13).

When the blower fan 3 and the air supply fan 4 operate at the same time while the dampers 21, 22, 23, and 24 shown in FIGS. 1 and 2 are all open, outdoor air is supplied to the room and indoor air at the same time. Can be ventilated by being discharged to the outside.In particular, in winter, the total heat exchange element (2) performs heat exchange between supply and exhaust to recover heat energy from the inside air discharged to the outside and supply the supplied outdoor air to save energy. You will be able to. It is a general heat exchange mode of a total heat exchanger equipped with a total heat exchange element to allow heat exchange of the internal and external air to occur when the internal and external air is ventilated.

The total heat exchanger according to the present invention further includes a cleaning mode for removing dust in the housing 1 and the total heat exchange element 2.

In the cleaning mode, as shown in FIG. 3, the dampers 21 and 22 of the internal air outlet 11 and the external air inlet 12 are opened while the external air supply port 13 and the internal air inlet 14 are closed. In addition, by operating the blower 3 with the damper 25 open to communicate the spaces 6 and 7, the dust accumulated in the space 7 into which outside air is introduced and the space 6 where the inside air is discharged. Are discharged to the outside, and at this time, air and dust in the total heat exchange element 2 are also discharged by the negative pressure in the spaces 6 and 7.

Alternatively, in the cleaning mode, the damper 22 of the outdoor air inlet 12 may be closed and the blower 3 may be operated with the damper 25 open. In this case, the filter installed mainly in the total heat exchange element As described later from (51), the total heat exchanger is cleaned by discharging the removed dust.

In this cleaning mode, the filter 51 installed on the side of the total heat exchange element 2 toward the space 7 where the outside air flows in is rotated by a motor not shown in the drawing, as shown in cross-sectional views in FIGS. 5 and 6. Dust accumulated on the surface of the filter 51 is removed and removed as the upper part of the filter is shaken with respect to the lower end by the cam 8 that is formed.

To this end, in order to hold the total heat exchange element 2 mounted in the housing 1, a protrusion 17 is formed by protruding vertically downward from the bottom of the upper portion of the housing, and an inclined wall ( 18) is formed, and the cam 8 is installed inside the inclined wall 18, but the surface of the cam is installed to protrude from the inclined wall. The filter 51 is disposed to be inclined while leaning against the inclined wall 18 and in contact with the cam 8. In this way, in the state where the filter 51 is inclined to contact the cam 8, when the cam rotates and the long shaft contacts the filter, the filter 51 rotates with its upper portion rearward, that is, toward the protrusion 17, so that the protrusion When colliding with (17), the dust of the filter is removed, and then when it comes into contact with the short axis of the cam, the filter is again obliquely disposed. In this way, the filter 51 repeatedly collides with the protrusion 17 by the rotation of the cam 8, and dust accumulated in the filter falls off by the impact and falls to the bottom of the housing.

At this time, the vibrator 55 installed on the lower bottom side of the total heat exchange element 2 is operated to apply vibration to the filter 51, so that dust removal from the filter is made more smoothly.

In this way, as the cam 8 rotates and the long axis and the short axis alternately contact the upper portion of the filter 51, the upper portion of the filter 51 swings with respect to the lower portion and repeatedly collides with the protrusion 17 and at the same time conducts heat transfer. Dust on the filter surface is efficiently removed and removed by vibration by the vibrator 55 provided on the bottom of the exchange element, and the oscillating motion of the filter by this cam and the operation of the vibrator 55 are performed in the cleaning mode of the total heat exchanger. , Removed dust is discharged to the outside by the blowing fan, so that the inside of the total heat exchanger and the filter are easily cleaned.

7 and 8, an ultraviolet sterilizer 5 is provided on the bottom of the housing at a position adjacent to the front of the filter 52 mounted on the total heat exchange element opposite to the supply fan 4, and the ultraviolet sterilizer 5 is The installed base plate 61 has one end connected to the bottom of the housing with a hinge 62 so as to be rotatably mounted, and the other end of the base plate 61 is of the inclined member 64 that is moved forward and backward by the motor 65. It is placed on the lower top surface. In the initial position of the inclined member 64, the ultraviolet sterilizer 5 is disposed almost horizontally to irradiate ultraviolet rays upward, so that the outside air introduced by the operation of the air supply fan 4 is the total heat exchange element 2 and the filter. When supplied to the room through the outdoor air supply port 13 through 52), clean air is supplied by sterilizing the outdoor air supplied to the room by ultraviolet rays irradiated upward from the initial position of the ultraviolet sterilizer 5.

Then, when the inclined member 64 advances as shown in FIG. 8 by the motor 65, the base plate 61 has an ultraviolet sterilizer 5 as the other end thereof rises along the inclined surface of the inclined member 64. Since is inclined toward the filter 52, the filter 52 is sterilized.

In the operation mode of the total heat exchanger supplying outside air to the room as shown in FIG. 7, the ultraviolet sterilizer 5 operates in a horizontally arranged state to sterilize the air supplied to the room through the space above it, while supplying air to the room. When the operation mode is terminated, the inclined member 64 advances by the motor 65, arranges the ultraviolet sterilizer 5 in an inclined manner, and irradiates ultraviolet rays toward the filter 52 for a preset period of time to pass outside air. Although it is preferable to pre-program the control unit not shown in the drawing to sterilize the bacteria remaining in 52, the user may manually operate the filter sterilization module to perform the filter sterilization mode.

The present invention can be used to easily remove dust accumulated in a case in a total heat exchanger.

1: housing 2: total heat exchange element
3: blower 4: air supply fan
5: UV sterilizer 6,7: space
8: cam 11: exhaust outlet
12: outside air inlet 13: outside air supply port
14: air inlet 21,22,23,24, 25: damper
51, 52, 53: filter 55; Oscillator
61: base plate 62: hinge
65: motor 64: inclined member

Claims (6)

A housing (1) having an internal air outlet (11) and an external air inlet (12) communicated toward the outdoor side, an external air supply port (13) and an internal air inlet (14) communicated toward the indoor side, and an internal air outlet of the housing A blower (3) provided in (11) to discharge the inside air to the outside, a supply fan (4) provided in the outside air supply port (13) to supply outside air to the room, and heat exchange between the inside and outside air by being mounted inside the housing The total heat exchange element 2 and the internal air outlet 11 and the external air inlet 12, the external air inlet 13 and the internal air inlet 14 are installed to each of the total heat exchange elements 2 and dampers 21 and 22 to open and close the flow path. ,23,24),
In the cleaning mode, a cam 8 rotated by a motor is used to remove and remove dust accumulated on the surface of the filter 51 installed on the side toward the space 7 where the outside air of the total heat exchange element 2 flows in. 51) to remove dust in the housing (1) and the total heat exchange element (2),
In the cleaning mode, with the outside air supply port 13 and the inside air inlet 14 closed, the damper 21 of at least the inside air outlet 11 of the inside air outlet 11 and the outside air inlet 12 is opened, and Together, in a state in which the damper 25 is opened to selectively communicate the space 6 in which the blower 3 to discharge air from the housing 1 is installed and the space 7 in which outside air is introduced, the blower The dust accumulated in the space (6, 7) and the total heat exchange element (2) is discharged to the outside through the exhaust outlet (11) due to the negative pressure caused by operating (3),
The filter 51 is at a position moved by a predetermined interval from the protrusion 17 formed by protruding vertically downward from the bottom surface of the upper portion of the housing in order to hold the total heat exchange element 2 mounted in the housing 1 at its lower end. It is arranged leaning against the formed inclined wall 18, and the cam 8 is installed inside the inclined wall 18, but the surface of the cam protrudes from the inclined wall, so that the upper end of the filter 51 is A total heat exchanger, characterized in that the dust is removed from the filter by colliding with the protrusion 17 while swinging.
delete delete The method of claim 1,
A total heat exchanger, characterized in that a vibrator (55) is installed on the lower bottom of the total heat exchange element (2) to smoothly remove dust from the filter (51) to impart vibration to the total heat exchange element.
The method of claim 1 or 4,
The total heat exchange element (2) is disposed in front of the filter (52) on the side where the outside air is discharged into the room, and the position where ultraviolet rays are irradiated toward the filter (52) and the air introduced into the room through the filter (52) A total heat exchanger, characterized in that an ultraviolet sterilizer (5) is provided so as to be movable to a position where ultraviolet rays are irradiated to sterilize bacteria in the air.
The method of claim 5,
The ultraviolet sterilizer 5 is mounted on the base plate 61 provided on the bottom of the housing at a position adjacent to the front surface of the filter 52 mounted on the total heat exchange element opposite to the air supply fan 4, and the base plate ( 61) has one end connected to the bottom of the housing by a hinge 62 so as to be rotatably mounted, and the other end is disposed on the lower upper surface of the inclined member 64 advancing from the initial position by the motor 65, and the inclined member 64 The ultraviolet sterilizer 5 at the initial position of irradiates ultraviolet rays toward the flow of outside air discharged into the room in a direct upward direction, and the ultraviolet sterilizer 5 at the advanced position irradiates ultraviolet rays toward the filter 52. Total heat exchanger, characterized in that to be irradiated.

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