KR20050086011A - Ventilator - Google Patents

Abstract

The present invention relates to a ventilation device that ventilates indoor space by indoor air and outdoor air at the same time as the heat exchange action and at the same time discharge the indoor air to the outside, in particular, the outdoor air or indoor air suction It is configured to be inclined with respect to the longitudinal direction of the heat exchanger in which the heat exchange action is performed, thereby reducing the flow resistance generated by the rapid change of the suction flow direction of the air, thereby increasing the blowing efficiency and further increasing the heat exchange efficiency. In addition, by changing the shape of the case so that the air flow direction of the air is formed smoothly, the workability can be improved with the indoor or outdoor side duct, and the overall size of the ventilation device can be reduced by reducing unnecessary space inside the case. .

Description

Ventilation device {VENTILATOR}

The present invention relates to a ventilator for exhausting indoor air to the outside as well as ventilating the indoor space by sucking the outdoor air into the room.

In general, the air in an enclosed space increases the carbon dioxide content over time due to the breathing of the living organisms, which interferes with the breathing of the living creatures, especially when many people stay in a narrow space such as an office or a vehicle. Ventilators are widely used to replace polluted air with fresh air from outside.

Such a ventilation device is configured to include a blower for forcibly blowing indoor air and outdoor air, thereby discharging the contaminated indoor air to the outdoor side and repeating the process of sucking fresh outdoor air to the indoor side.

By the way, when the cooling and ventilation operation is performed indoors at the same time, as the cooled indoor air is exhausted and the hot outdoor air is sucked in, the temperature of the indoor air rises relatively higher than the cooling temperature, thereby decreasing the cooling efficiency, and heating and ventilating indoors. At the same time, the heated indoor air is exhausted and the cold outdoor air is sucked in. Therefore, the temperature of the indoor air is lower than the heating temperature, thereby reducing the heating efficiency.

Therefore, a heat exchanger for providing a heat exchange action between the indoor air and the outdoor air is installed separately in the ventilation device as described above.

Specifically, the conventional ventilator described in Japanese Patent Application Laid-Open No. 11-287492 has an outdoor air suction hole 4a and indoor air in which outdoor air is sucked into one side of the rectangular case 2 as shown in FIG. The indoor air discharge hole (6b) is discharged is formed, the outdoor air discharge hole (4b) for discharging the outdoor air and the indoor air suction hole (6a) for sucking the indoor air is formed on the other side, the outdoor air suction The ball 4a and the indoor air discharge hole 6b are formed to be biased on one side and the other side of the case 2, and the outdoor air discharge hole 4b and the indoor air suction hole 6a are the case. It is formed so as to be biased to one side and the other side of (2).

Of course, a duct (not shown) connected to the outdoor side is vertically connected to the outdoor air suction hole 4a and the indoor air discharge hole 6b, and the outdoor air discharge hole 4b and the indoor air suction hole 6a. ) Is vertically connected to the duct (not shown) connected to the indoor side.

In addition, a heat exchanger 8 is formed at the center of the case 2 so as to allow a heat exchange to flow between the indoor air and the outdoor air, and the outdoor air discharge hole 4b and the indoor space are traversed. The air supply fan 10 and the exhaust fan 20 are installed at both corner portions of the case 2 so as to be located inside the air discharge hole 6b.

At this time, the heat exchanger (8) is freely detachable through the check opening (2a) formed on the central surface of the case (2).

In addition, the outdoor air flow path guide 32 is formed to guide the outdoor air sucked from the outdoor air suction hole 4a to the heat exchanger 8 so as to form an air path for discharging the outdoor air discharge hole 6b. The indoor air discharge hole is installed at one side of the case 2 based on the heat exchanger 8, and guides indoor air sucked from the indoor air suction hole 6a to the heat exchanger 8. An indoor air flow path guide 34 is installed on the other side of the case 2 with respect to the heat exchanger 8 to form an air path for discharging to 6b).

Looking at the operation of the ventilation device configured as described above with reference to Figure 2, the outdoor air sucked through the outdoor air suction hole (4a) as the air supply fan 14 and the exhaust fan 14 is operated is the outdoor The indoor air guided by the air flow path guide 32 is introduced into the lower portion of the heat exchanger 8, and sucked through the indoor air suction hole 6a is guided by the indoor air flow guide 34. The other side of the heat exchanger (8) is introduced into the lower side, the outdoor air and the indoor air passes through the heat exchanger (8), the heat exchange action is made.

Subsequently, the outdoor air passing through the heat exchanger 8 is guided by the duct through the air supply fan 14 and the outdoor air discharge hole 4b and sucked into the indoor side, and passes through the heat exchanger 8. Indoor air is guided by the duct through the exhaust fan 20 and the indoor air discharge hole 6b and discharged to the outdoor side.

The conventional ventilation device configured and operated as described above is formed such that the outdoor air suction hole is biased on one side of the case and is formed such that the indoor air suction hole is biased on the other side of the case facing the outdoor air. Since the air flow path guide and the indoor air flow path guide are installed so that the outdoor air or the indoor air is guided from the outdoor air suction hole and the indoor air suction hole to the front of the heat exchanger, respectively, as shown in FIG. While the air flows directly into the A region of the heat exchanger adjacent to the air intake hole, the flow flows into the B region of the heat exchanger while bending, and the indoor air flows directly into the B region of the heat exchanger adjacent to the indoor air intake hole. The flow flows into the A region of the heat exchanger while bending.

As such, the conventional ventilator is guided to bend some of the flow of outdoor air to the B region of the heat exchanger in order to allow the outdoor air or indoor air to flow over the front of the heat exchanger, as well as some of the flow of indoor air to the heat exchanger. The flow resistance is generated as it is guided to the A region of the group, and thus there is a problem that not only the blowing efficiency is lowered but also the heat exchange efficiency is lowered.

Therefore, in order to solve the above problems, the outdoor air suction hole and the indoor air suction hole are designed to be positioned at one surface of the case and the center of the surface opposite thereto, thereby reducing the flow resistance of the outdoor air or the indoor air and simultaneously Indoor air may be evenly blown over the front of the heat exchanger.

However, when the suction hole is formed in the center side of the case as described above, the discharge hole is installed in close proximity to the suction hole, so as to guide the flow of air introduced through the suction hole to the heat exchanger side. The protruding portion acts as a suction flow resistance on the discharge hole side, which not only lowers the blowing efficiency but also lowers the heat exchange efficiency.

In addition, since the suction hole is formed at the center of the case, and the discharge hole is formed at one side, the space is not used at all for the air to flow inside the portion where the suction hole or the discharge hole is not formed in the case. There is a problem that is occupied.

On the other hand, referring to the conventional ventilator described in Japanese Patent Application Laid-Open No. 09-310899 with reference to Figure 3, the heat exchanger to make a heat exchange action between the outdoor air and the indoor air inside the rectangular case 42 ( 44 is installed so as to cross, a first flow path for guiding the flow of air on one side of the case 42 relative to the heat exchanger 44 is formed and the fan to create air flow in the first flow path The first blowing means 46 is installed, and a second passage for guiding the flow of air on the other side of the case 42 on the basis of the heat exchanger 44 is formed in the second passage Second air blowing means 47 including a fan for forming an air flow is provided.

Particularly, the case 42 has each corner portion formed with a ridge section 42A, and a mounting hole 42h is formed in the ridge section 42A, and the heat exchanger 44 inside the ridge section 42A. Space is formed by the surface 48a and the surface 48b perpendicular to the longitudinal direction of the heat exchanger, and air is sucked in or discharged to the surface 48b horizontal to the longitudinal direction of the heat exchanger 44. A hole 48h is formed, and a duct connecting member 49 having a duct connecting port 49a formed in the ridge section 42A is detachably provided.

At this time, the duct connecting member 49 may vary the installation direction of the duct according to the direction to be installed in the ridge section 42A of the case.

However, as described above, a ridge section 42A is formed in the corner portion of the case 42, and a separate space is formed inside the heat exchanger 44 and the surface 48b perpendicular to the horizontal surface 48a. Is formed, and the air introduced from one side of the case 42 is formed because a hole 48h through which air is sucked or discharged is formed in a surface 48a parallel to the heat exchanger 44 among the surfaces forming the space. Flow resistance is generated while passing through the space inside the ridge section 42A.

In addition, the air introduced through the hole 48h formed inside the ridge section 42A of the case flows over the entire surface of the heat exchanger 44, and a part of the air is disposed in the heat exchanger close to the hole 48h. While the air flows straight into the 44) side, the remaining air flows while being turned to the heat exchanger 44 which is far from the hole 48h, resulting in flow resistance, thereby lowering the blowing efficiency and further decreasing the heat exchange efficiency. There is this.

The features and advantages of the present invention may be better understood with reference to the following accompanying drawings in conjunction with the following detailed description of embodiments of the invention, of which:

1 is a perspective view showing an example of a ventilation apparatus according to the prior art,

2 is a view showing the intake air flow in one example of a ventilation apparatus according to the prior art,

3 is a perspective view showing another example of the ventilation apparatus according to the prior art,

4 is a perspective view showing a first embodiment of the ventilation device according to the present invention;

5 is a plan view showing a first embodiment of a ventilation device according to the present invention;

6 is a view showing the intake air flow in the first embodiment of the ventilator according to the present invention;

7 is a cross-sectional view taken along the line A-A of FIG.

8 is a cross-sectional view taken along line B-B of FIG. 5;

9 is a perspective view showing a second embodiment of the ventilation device according to the present invention;

10 is a plan view showing a second embodiment of the ventilation device according to the present invention;

11 is a perspective view showing a third embodiment of the ventilation device according to the present invention;

12 is a plan view showing a third embodiment of the ventilation device according to the present invention;

13 is a perspective view showing a fourth embodiment of the ventilation device according to the present invention;

14 is a plan view showing a fourth embodiment of the ventilation device according to the present invention;

15 is a view showing the intake air flow in a fourth embodiment of the ventilator according to the present invention;

16 is a cross-sectional view taken along the line C-C of FIG. 14;

17 is a cross-sectional view taken along the line D-D of FIG. 14.

Accordingly, the present invention is to provide a ventilator that can reduce the flow resistance and increase the blowing efficiency, and further increase the heat exchange efficiency by flowing the outdoor air or indoor air inclined relative to the heat exchanger on the suction flow path inside the case. The purpose.

In addition, an object of the present invention is to provide a ventilation device that can compact the size of the product by reducing the unnecessary space in which air does not flow inside the case.

In addition, the present invention is to provide a ventilation device that is easy to check, maintain, and repair the fan and the motor installed inside the discharge hole by setting the position of the discharge hole and the position of the inspection port in the case and the installation direction of the motor appropriately. The purpose.

In one aspect of the present invention for achieving the above object is an outdoor air suction hole for sucking the outdoor air, an indoor air discharge hole for discharging the indoor air and an outdoor air discharge hole for discharging the outdoor air and an indoor air suction hole for sucking the indoor air First and second flow paths formed to cross the center of the case so as to partition the case, the outdoor air suction hole and the indoor air discharge hole, and the outdoor air discharge hole and the indoor air suction hole to separate the outdoor air and the indoor air. A heat exchanger for performing a heat exchange action while passing therethrough, an air supply fan installed on the outdoor air flow path formed between the outdoor air suction hole and the outdoor air discharge hole to blow outdoor air, and the indoor air suction hole and the indoor air discharge hole An exhaust fan installed on the indoor air flow path formed therebetween to blow the indoor air; A means for reducing the suction flow loss by configuring the inflow direction of outdoor air or indoor air on the suction flow path inside the case to have an angle of greater than 0 ° and less than 90 ° with respect to the longitudinal direction of the heat exchanger. It provides a ventilation device characterized in.

In the present invention, the case is formed to have at least five sides, characterized in that the outdoor air suction hole and the indoor air discharge hole and the outdoor air discharge hole and the indoor air suction hole is formed on different sides of the case.

In the present invention, the means is formed such that one surface of the case in which the outdoor air suction hole is formed is inclined at an angle of more than 0 ° and less than 90 ° with respect to one side of the heat exchanger, or one surface of the case in which the indoor air suction hole is formed is It characterized in that it is formed to be inclined at an angle of more than 0 ° and less than 90 ° with respect to the other side of the heat exchanger.

In the present invention, the air supply fan is a sirocco fan installed inside the outdoor air discharge hole, and a check hole is formed on one surface of the case so as to slide the heat exchanger in the longitudinal direction, the motor for driving the air supply fan is the check hole Characterized in that installed to face one side of the formed case.

In the present invention, the outdoor air discharge hole and the indoor air suction hole is formed on one side of the case based on the heat exchanger, and the indoor air introduced into the indoor air suction hole inside one side of the case is a second flow path of the heat exchanger. It characterized in that the indoor air flow path guide to be guided to.

Here, the motor driving the air supply fan is installed to face one surface of the case where the indoor air suction hole is not formed so as not to interfere with the indoor air flow path guide, and the motor may allow outdoor air to flow to the air supply fan side. Characterized in that installed at a predetermined interval with one surface of the case.

At this time, the exhaust fan is a sirocco fan installed inside the indoor air exhaust hole, a check hole is formed on the surface of the case so as to slide the heat exchanger in the longitudinal direction, the motor driving the exhaust fan to check and repair Characterized in that it is installed to face one side of the case formed with the check opening to facilitate.

In addition, in the present invention, the outdoor air suction hole and the indoor air discharge hole are formed on the other side of the case based on the heat exchanger, and the outdoor air introduced into the outdoor air suction hole inside the other side of the case is formed of the heat exchanger. Characterized in that the outdoor air flow path guide to guide the 1 euro.

Here, the motor driving the exhaust fan is installed to face one surface of the case where the outdoor air suction hole is not formed so as not to interfere with the outdoor air flow path guide, and the motor may allow indoor air to flow to the exhaust fan side. It is installed at a predetermined interval with one surface of the case, characterized in that the motor check opening is formed on one surface of the case to facilitate the inspection and repair by removing the motor.

In the present invention, the case further includes a side formed to be inclined at an angle of more than 0 ° and less than 90 ° with respect to one side of the heat exchanger on the opposite side of the inclined side formed with the suction hole, specifically, the case has eight It is formed in an octagonal shape provided with a side, characterized in that the check opening is formed on one side of the case so that the heat exchanger can be removable sliding in the longitudinal direction.

Here, the case is characterized in that the outdoor air suction hole is formed on the side close to the check hole on one side of the heat exchanger, and the indoor air discharge hole is formed on the side close to the side on which the outdoor air suction hole is formed.

At this time, the exhaust fan is a sirocco fan installed inside the indoor air discharge hole, the motor for driving the exhaust fan is characterized in that it is installed to face one surface of the case formed with the check opening to facilitate inspection and repair.

In addition, the case has a motor check hole is formed on the side of the heat exchanger close to the check hole on the other side, the outdoor air discharge hole is formed on the side close to the side formed with the motor check hole, the outdoor air discharge hole is close to the side formed Indoor air suction holes are formed on the side.

At this time, the air supply fan is a sirocco fan installed inside the outdoor air discharge hole, the motor for driving the air supply fan is characterized in that it is installed to face one side of the case formed with the motor check opening to facilitate inspection and repair.

In the present invention, the means is installed in the outdoor air intake hole is formed to be inclined at an angle of more than 0 ° and less than 90 ° with respect to one side of the heat exchanger is an outdoor duct connecting portion connected to the duct, or in the indoor air suction hole It is installed to be inclined at an angle of more than 0 ° less than 90 ° with respect to one side of the heat exchanger is characterized in that the indoor duct connecting portion connected to the duct.

Here, the outdoor air suction hole is formed on one side of one surface of the case, the indoor air discharge hole is formed on the other side, and the exhaust fan is installed inside the indoor air discharge hole.

The outdoor air discharge hole is formed on one side of the surface of the case, and the indoor air suction hole is formed on the other side of the case, and the air supply fan is installed inside the outdoor air discharge hole.

In this case, an inspection opening is formed on one side of the case so as to slide the heat exchanger in a longitudinal direction, and a motor driving the air supply fan and a motor driving the exhaust fan face one side of the case in which the inspection opening is formed. Characterized in that installed.

In the present invention, between the heat exchanger and the case is characterized in that the bypass damper for opening and closing the passage so that the air sucked into the indoor air suction hole is discharged directly through the indoor air discharge hole is installed.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings.

4 and 5 are a perspective view and a plan view showing a first embodiment of the ventilation device according to the present invention, Figure 6 is a view showing the intake air flow in the first embodiment of the ventilation device according to the invention, Figure 7 8 is a cross-sectional view taken along line AA and BB of FIG. 5.

As shown in Figures 4 to 8, the first embodiment of the ventilator according to the present invention, the outdoor air suction hole 52 and the outdoor air discharge hole 54 and the outdoor air discharged to the indoor air and the outdoor air The outdoor air discharge hole 56 through which the air is discharged and the indoor air suction hole 58 through which the indoor air is sucked are installed on the case 50 formed on different sides, and intersect the center of the case 50. And a heat exchanger 60 for exchanging heat between the indoor air and the indoor air, an air supply blower 70 installed inside the outdoor air discharge hole 56 to blow outdoor air, and the indoor air discharge hole 54. It is configured to include an exhaust blowing means (80) installed inside the air to blow the indoor air.

In addition, the ventilator is installed in one case 50 of the heat exchanger (60) to guide the outdoor air from the outdoor air suction hole (52) to the lower side of one side of the heat exchanger (60). An indoor air flow path installed inside the guide 92 and the other case 50 of the heat exchanger 60 to guide indoor air from the indoor air suction hole 58 to the lower side of the other side of the heat exchanger 60. It is installed to be opened and closed between the guide 94 and the heat exchanger 60 and the case 50 so that the indoor air introduced from the indoor air suction hole 58 is discharged directly to the indoor air discharge hole 54. The bypass damper 96 is configured to be further included.

Here, the case 50 has the outdoor air suction hole 52 and the indoor air discharge hole 54 formed on one side of the heat exchanger 60, and the outdoor air discharge hole ( Six sides are provided so that 56 and the indoor air suction hole 58 may be formed, and suction holes 52 and 58 and discharge holes 54 and 56 are formed on different sides, respectively. The 52 and the indoor air suction holes 58 are formed on the surfaces facing each other, and the outdoor air discharge holes 56 and the indoor air discharge holes 54 are formed on the surfaces facing each other.

At this time, the case 50 has the outdoor air suction hole 52 is formed so that the direction in which outdoor air flows along the outdoor air flow path guide 92 is inclined with respect to the longitudinal direction of the heat exchanger 60. One side is configured to have an angle of more than 0 ° less than 90 ° with respect to one side of the heat exchanger 60, the direction in which indoor air flows along the indoor air flow path guide 94 is the heat exchanger (60) In order to be inclined with respect to the longitudinal direction of the indoor air suction hole 58 is formed to have an angle of less than 0 ° and less than 90 ° with respect to the other side of the heat exchanger (60).

In addition, the case 50 is formed such that one surface on which the indoor air discharge hole 54 is formed is horizontal with respect to one side of the heat exchanger 60, and one surface on which the outdoor air discharge hole 56 is formed is the heat exchanger. It is formed to be horizontal with respect to the other side of the machine (60).

That is, the case 50 is formed in a rectangular shape, and two corner portions facing each other are formed on the side surface so as to be inclined with respect to the heat exchanger 60, and the outdoor air suction hole 52 is formed on the side surface formed as described above. ) And the indoor air suction hole 58 are formed to face each other.

In addition, the outdoor air intake holes 52 and the indoor air discharge holes 54 are formed such that the outdoor duct connecting portions 52a and 54a protrude vertically so that an outdoor duct (not shown) connected to the outdoor side can be connected. In addition, the indoor air ducts 56 and 58a are formed to protrude vertically in the outdoor air discharge holes 56 and the indoor air suction holes 58 so that an indoor duct (not shown) connected to the indoor side can be connected.

On the other hand, the case 50 is the heat exchanger 60 is installed so as to be perpendicular to the side surface in which the suction hole 52, 58 and the discharge hole 54, 56 is not formed, one of the case 50 An inspection opening 50h is formed at one side of the case 50 so that the heat exchanger 60 is slidably detachable through a side surface, and the inspection cover 51 is detachably installed at the inspection opening 50h.

Next, the heat exchanger 60 is configured to alternately stack the first and second heat exchange units 62 and 64, in which the first and second flow paths for flowing the outdoor air and the indoor air are partitioned from each other. A plurality of guide ribs 60b are formed on the rectangular heat exchange film 60a having a rectangular or hexagon shape to be flown, and the first and second guide ribs 60b are installed on the heat exchange film 60a according to a direction in which the guide ribs 60b are installed. It is divided into heat exchange units (62, 64).

At this time, the heat exchanger 60 is formed so that the guide protrusions 66a and 66b protrude in the longitudinal direction at both ends to be slidably installed in the case 50, and the outdoor air flow path guide 92 ) And the indoor air flow path guide 94 has guide grooves 92a and 94a formed in the lengthwise direction so that the guide protrusions 66a and 66b can be slidably fitted, and the bottom surface of the case 50 The guide groove 50a is formed to extend in the longitudinal direction so that the lower end of the heat exchanger 60 can be fitted by sliding.

Of course, the heat exchanger 60 partitions one side where the outdoor air suction hole 52 and the indoor air discharge hole 54 are formed and the other side where the outdoor air discharge hole 56 and the indoor air suction hole 58 are formed. It is installed to cross the case 50 so as to cross.

Next, the air supply air blowing unit 70 sucks the flow of outdoor air toward the air supply fan 72 and the air supply fan 72 rotatably installed inside the outdoor air exhaust hole 56, and the outdoor air exhaust hole. A fan housing 74 for guiding discharge to the 56 side, a motor 76 for driving the air supply fan 72, and a motor support 78 for fixing the motor 76 to the fan housing 74; It is configured to include.

At this time, the air supply fan 72 is used a sirocco fan that sucks air in the axial direction and discharges in the radial direction, the motor 76 is the inspection port (50h) so that the user can easily dismantle, easy to check, maintain, and repair Is installed to face one side of the case 50 is formed, it may be configured to be removed with the motor support 74 and a part of the fan housing 74.

Of course, since the motor 76 acts as a suction flow resistance of the outdoor air introduced into the fan housing 74, the motor 76 is installed to maintain a predetermined distance from the case 50 so that the motor 76 and the case ( In addition to minimizing the suction flow resistance of the outdoor air flowing into the space between the 50) to make the most of the space inside the case 50.

Next, the exhaust air blowing means 80 is also configured in the same manner as the air supply air blowing means 70, an exhaust fan 82 which is a kind of sirocco fan rotatably installed inside the indoor air exhaust hole 54 and the exhaust air. A fan housing 84 that guides the flow of indoor air to the fan 82 side and discharges it to the indoor air discharge hole 54, a motor 86 driving the exhaust fan 82, and the motor ( And a motor support 88 for securing 86 to the fan housing 84.

In this case, the motor 86 is also installed to face one surface of the case 50 in which the check hole 50h is formed. The motor 86 is an outdoor air flow guide 92 connected to the outdoor air suction hole 52. It is installed to maintain a predetermined interval so as not to interfere with the portion formed to protrude upward.

This is because, as the motor 86 is installed closer to the protruding portion of the outdoor air flow path guide 92, the suction flow resistance of the indoor air flowing into the fan housing 84 increases to prevent the blowing efficiency from decreasing. For sake.

Next, the outdoor air flow path guide 92 has a portion connected to the outdoor air suction hole 52 to guide the outdoor air sucked from the outdoor air suction hole 52 to one side lower side of the heat exchanger 60. It is formed to protrude upward, the indoor air discharge hole 54 side portion is formed so as to be elevated downward to guide the indoor air discharged from the upper side of one side of the heat exchanger (60) toward the indoor air discharge hole (54).

Next, the indoor air flow path guide 94 also guides the indoor air sucked from the indoor air suction hole 58 to the lower side of the other side of the heat exchanger 60 similarly to the outdoor air flow path guide 92. A portion connected to the air suction hole 58 is formed to protrude upward, and the outdoor air discharge hole 56 to guide the outdoor air discharged from the upper side of the other side of the heat exchanger 60 toward the outdoor air discharge hole 56. The side portion is formed to rise downward.

As described above, the first embodiment of the ventilation device is provided on one surface of the case 50 formed such that the outdoor air suction hole 52 and the indoor air suction hole 58 are inclined with respect to the longitudinal direction of the heat exchanger 60. Since it is configured to form the outdoor air or indoor air flows to be inclined with respect to the heat exchanger 60 on the suction flow path to gently flow over the front of the heat exchanger 60 to minimize the flow resistance and improve the blowing efficiency at the same time. In addition, the heat exchange efficiency can be improved.

In addition, the first embodiment of the ventilation device is installed so that the motor (76,86) for driving the air supply fan 72 or the exhaust fan 82 faces one surface of the case 50 is formed with the check opening (50h) As a result, the user can easily remove the motors 76 and 86 for inspection, maintenance, and maintenance.

9 and 10 are a perspective view and a plan view showing a second embodiment of the ventilation apparatus according to the present invention.

9 to 10, the second embodiment of the ventilation apparatus according to the present invention is configured in the same manner as the first embodiment, the exhaust air blowing means 80 is the indoor air discharge hole 54 The fan housing 84 is installed to communicate with the indoor air discharge hole 54 inside, and an exhaust fan 82 is rotatably installed therein, and a motor 86 driving the exhaust fan 82. ) Is installed in the fan housing 84 so as to be fixed by the motor support 88, so that the motor 86 does not interfere with the protruding portion of the outdoor air flow path guide 92. 52 is installed to face one surface of the case 50 is not formed.

Here, since the motor 86 also acts as a suction flow resistance of the indoor air flowing into the fan housing 84, the motor 86 is installed to maintain a predetermined distance from the case 50 so that the motor 86 and the case ( It is possible to minimize the suction flow resistance of the indoor air flowing into the space between the 50) and to make the most of the space inside the case 50.

In this case, since the check hole 50h is formed on one surface close to the surface on which the outdoor air suction hole 52 is formed, the motor 50 cannot be removed through the check hole 50h. On one surface of the case 50 positioned to face the motor 86, a motor check hole 86h is separately formed to easily remove, check, maintain and repair the motor 86.

Of course, one surface of the case 50 in which the indoor air suction hole 58 is not formed so that the motor 76 does not interfere with the protruding portion of the indoor air flow guide 94 in the air supply air blowing means 70. It may be installed so as to face, and the motor check opening (not shown) may be formed separately on one surface of the case 50 in which the motor 76 is facing.

In the second embodiment of the ventilation device configured as described above, since the outdoor air suction hole 52 and the indoor air suction hole 58 are configured to be inclined with respect to the longitudinal direction of the heat exchanger 60, the air suction flow resistance At the same time, the motors 76 and 86 for driving the fans 72 and 82 inside the outdoor air discharge holes 56 and the indoor air discharge holes 54 may protrude from the flow path guides 92 and 94. Since the installation direction is changed so as not to interfere with the part, it is possible to reduce the discharge flow resistance of the air, thereby improving the blowing efficiency and further improving the heat exchange efficiency.

In addition, according to the second embodiment of the ventilation device, a check hole 50h is formed to remove the motor 76 and the heat exchanger 60 for driving the air supply fan 72 and the exhaust fan 82 may be removed. Since the motor check opening 86h is formed to remove the motor 86 to be driven, it is easy to check, maintain and repair the motors 76 and 86.

11 and 12 are a perspective view and a plan view showing a third embodiment of the ventilation device according to the present invention.

11 to 12, the third embodiment of the present invention is configured in the same manner as the first embodiment, the case 50 is provided with eight sides, different sides The outdoor air suction hole 52 and the indoor air discharge hole 54 and the outdoor air discharge hole 56 and the indoor air suction hole 58 are formed.

Specifically, the case 50 is provided with a check hole 50h on one surface of the case 50 so that the heat exchanger 60 can be slid so as to cross the surfaces facing each other, and the check hole 50h. Check cover 51 is installed to be detachable in the, the outdoor air suction hole 52 and the indoor air discharge hole 54 is formed on one side close to each other based on the heat exchanger 60, respectively, The outdoor air discharge hole 56 and the indoor air suction hole 58 are formed on the surfaces adjacent to each other on the other side of the heat exchanger 60.

At this time, the outdoor air suction hole 52 is formed on one side of the case 50 based on the heat exchanger 60 on a surface close to the surface on which the check hole 50h is formed, and the outdoor air suction hole 52 is provided. The indoor air discharge hole 54 is formed on another surface close to the formed surface, and the other side of the case 50 on the other side of the case 50 based on the heat exchanger 60 is located on the surface close to the surface opposite to the check hole 50h. An indoor air suction hole 58 is formed, and the outdoor air discharge hole 56 is formed on another surface close to the surface on which the indoor air suction hole 58 is formed so that air flows over the heat exchanger 60 on the suction flow path. By allowing the suction to flow gently over the suction flow resistance can be reduced, and further increase the blowing efficiency and heat exchange efficiency.

In addition, the side surface of the heat exchanger 60 in which the outdoor air suction hole 52 and the indoor air discharge hole 54 are not formed at one side of the case 50 is in the longitudinal direction of the heat exchanger 60. The side surface of which the outdoor air discharge hole 56 and the indoor air suction hole 58 are not formed at the other side of the case 50 based on the heat exchanger 60 is configured to be inclined with respect to the heat exchanger 60. By configuring to be inclined with respect to the longitudinal direction of the) can be reduced the size of the product can be reduced because the C, D area with a relatively small amount of air flow in the case 50.

On the other hand, the air supply blowing means 70 is installed so that the motor 76 for driving the air supply fan 72 faces the surface on which the check opening 50h is formed, and the exhaust air blowing means 80 is also the exhaust fan ( The motor 86 for driving 82 is installed to face the surface on which the check hole 50h is formed, and the motor 76 for driving the air supply fan 72 is installed in close proximity to the case 50. Since it is difficult to remove through the check hole (50h), so that the motor check hole (76h) is formed separately on the side between the surface formed with the outdoor air discharge hole 56 and the surface formed with the check hole (50h).

In the third embodiment of the ventilation device configured as described above, the case 50 is formed to have eight side surfaces, and the outdoor air suction hole 52 and the indoor air suction hole 58 are provided in the heat exchanger 60. Since it is formed to be inclined with respect to the longitudinal direction of the air flow on the suction flow path to reduce the suction flow resistance can be improved at the same time can improve the blowing efficiency, and further improve the heat exchange efficiency.

In addition, according to the third embodiment of the ventilation device, the surface of the case 50 in which the suction holes 52 and 58 and the discharge holes 54 and 56 are not formed is formed in the longitudinal direction of the heat exchanger 60. It is designed to be inclined so that the area with less air flow can be reduced, so that the size of the product as a whole can be made compact.

In addition, according to the third embodiment of the ventilation device, a check hole 50h is formed to remove the motor 86 and the heat exchanger 60 for driving the exhaust fan 82, and the air supply fan 72 may be removed. Since the motor check hole 76h is separately formed to remove the motor 76 to be driven, it is easy to check, maintain and repair the motors 76 and 86.

13 and 14 are a perspective view and a plan view showing a fourth embodiment of the ventilation device according to the present invention, Figure 15 is a view showing the intake air flow in a fourth embodiment of the ventilation device according to the present invention, Figure 16 And FIG. 17 is a cross-sectional view taken along line CC and line DD of FIG. 14.

13 to 17, the fourth embodiment of the ventilator according to the present invention is formed in a rectangular shape having four sides, so that the outdoor air suction hole 152 and the indoor air discharge hole 154 are In addition to being formed on one side, the outdoor air discharge hole 156 and the indoor air suction hole 158 is installed on the case 150 formed on the other side and to cross the center of the case, thereby exchanging heat between the outdoor air and the indoor air. The heat exchanger 160 to be made, the air supply air blowing means 170 is installed inside the outdoor air discharge hole 156 to blow outdoor air, and the indoor air discharge hole 154 is installed inside. An outdoor duct connected to an outdoor duct (not shown) formed to protrude so as to be inclined at an angle of greater than 0 ° and less than 90 ° with respect to the outdoor air suction hole 152 to communicate with the outdoor side. Connection portion 152a and the indoor air It is configured to include an indoor duct connecting portion 158a which is formed to protrude so as to be inclined at an angle of more than 0 ° and less than 90 ° with respect to the suction hole 158 and is connected to an indoor duct (not shown) communicating with the indoor side.

In addition, the ventilator is installed in one case 150 of the heat exchanger 160 to guide the outdoor air from the outdoor air suction hole 152 to one side surface of the heat exchanger 160 under the outdoor air flow path. An indoor air flow path installed inside the guide 192 and the other case 150 of the heat exchanger 160 to guide indoor air from the indoor air suction hole 158 to the lower side of the heat exchanger 160. It is installed to be opened and closed between the guide 194 and the heat exchanger 160 and the case 150 so that the indoor air introduced from the indoor air suction hole 158 is discharged directly to the indoor air discharge hole 154. The bypass damper 196 is configured to further include.

Here, the case 150 has the outdoor air suction hole 152 and the indoor air discharge hole 154 formed on one side of the heat exchanger 160, and the outdoor air discharge hole ( 156 and the indoor air suction hole 158 are formed, and the outdoor air suction hole 152 and the indoor air discharge hole 154 are formed such that the outdoor duct connecting portions 152a and 154a protrude, respectively, and discharge the outdoor air. The indoor duct connecting portions 156a and 158a protrude from the balls 156 and the indoor air suction holes 158, respectively.

At this time, the case 150 is an outdoor formed in the outdoor air suction hole 152 so that the direction in which outdoor air flows into the outdoor air flow path guide 192 is inclined with respect to the longitudinal direction of the heat exchanger 160. The duct connecting portion 152a is configured to have an angle of more than 0 ° and less than 90 ° with respect to one side of the heat exchanger 160, and the direction in which indoor air flows into the indoor air flow path guide 194 is in the heat exchanger. The indoor duct connecting portion 158a formed in the indoor air suction hole 158 has an angle of greater than 0 ° and less than 90 ° with respect to the other side of the heat exchanger 160 so as to be inclined with respect to the longitudinal direction of the 160. It can be configured to reduce suction flow resistance.

In addition, the case 150 is formed so that the outdoor duct connecting portion 154a formed in the indoor air discharge hole 154 protrudes from one side of the heat exchanger 160, and the outdoor air discharge hole 156. The indoor duct connecting portion 156a formed in the protrusion is formed to be perpendicular to the other side of the heat exchanger 160.

That is, the case 150 is formed in a rectangular shape, and the outdoor air suction hole 152 and the indoor air discharge hole 154 are formed on one surface, and the outdoor air discharge hole 156 and the indoor air suction hole ( 158 is formed on a surface opposite to each other, and the outdoor air suction hole 152 and the indoor air suction hole 158 are respectively formed with an outdoor duct connection part 152a inclined with respect to the longitudinal direction of the heat exchanger 160 and An indoor duct connection part 158a is formed to allow the sucked air to flow gently over the front side of the heat exchanger 160.

On the other hand, the case 150 is the heat exchanger 160 is installed so as to be perpendicular to the side surface in which the suction hole (152,158) and the discharge hole (154,156) is not formed, through the one side of the case 150 An inspection opening 150h is formed at one side of the case 150 so that the heat exchanger 160 can be slidably detached, and the inspection cover 151 is detachably installed in the inspection opening 150h.

Next, the heat exchanger 160 is configured to alternately stack the first and second heat exchange units 162 and 164 having the first and second flow paths that separate the outdoor air and the indoor air so as to partition each other. A plurality of guide ribs 160b are formed in the rectangular heat exchange film 160a in the shape of a rectangle or a hexagon, and the first and second heat exchange units are arranged in a direction in which the guide ribs 160b are installed in the heat exchange film 160a. Divided by (162,164).

In this case, the heat exchanger 160 is formed so that the guide protrusions (166a, 166b) protrude in the longitudinal direction at both ends to be slidably detachable in the case 150, the outdoor air flow path guide 192 ) And the indoor air flow path guide 194 is formed with guide grooves 192a and 194a extending in the longitudinal direction so that the guide protrusions 166a and 166b can be slidably fitted, and the bottom surface of the case 150 may be The guide groove 150a is formed to extend in the longitudinal direction so that the lower end of the heat exchanger 160 can be fitted by sliding.

Next, the air supply air blowing unit 170 sucks the flow of outdoor air to the air supply fan 172 rotatably installed inside the outdoor air exhaust hole 156 and the air supply fan 172 to discharge the outdoor air exhaust hole. A fan housing 174 for guiding discharge to the 156 side, a motor 176 for driving the air supply fan 172, and a motor support 178 for fixing the motor 176 to the fan housing 174. It is configured to include.

At this time, the air supply fan 172 is used a sirocco fan that sucks air in the axial direction and discharges in the radial direction, the motor 176 is easy to dismantle the user to easily check, maintain, repair the inspection port (150h) Is installed to face one side of the case 50 is formed, it may be configured to be removed with the motor support 174 and a part of the fan housing 174.

Of course, since the motor 176 acts as a suction flow resistance of the outdoor air introduced into the fan housing 174, the motor 176 is installed to maintain a predetermined distance from the case 150 so that the motor 176 and the case ( In addition to minimizing the suction flow resistance of the outdoor air flowing into the space between 50) to make the most of the space inside the case 150.

Next, the exhaust blowing means 180 is also configured to be the same as the air supply blowing means 170, an exhaust fan 182 which is a kind of sirocco fan rotatably installed inside the indoor air exhaust hole 154, and the exhaust A fan housing 184 that guides the flow of indoor air to the fan 182 and discharges it to the indoor air discharge hole 154, a motor 186 driving the exhaust fan 182, and the motor ( And a motor support 188 that secures 186 to the fan housing 184.

In this case, the motor 186 is also installed to face one surface of the case 150 in which the check hole 150h is formed, and the motor 186 is an outdoor air flow guide 192 connected to the outdoor air suction hole 152. It is installed to maintain a predetermined interval so as not to interfere with the portion formed to protrude upward.

This is because, as the motor 186 is installed closer to the protruding portion of the outdoor air flow path guide 192, the suction flow resistance of the indoor air flowing into the fan housing 184 increases, thereby preventing air blowing efficiency from decreasing. For sake.

In the fourth embodiment of the ventilation device configured as described above, the outdoor duct connection part 152a and the indoor duct connection part 158a formed to protrude from the outdoor air suction hole 152 and the indoor air suction hole 158 are connected to the heat exchanger. Since it is configured to be inclined with respect to the longitudinal direction of the 160, the outdoor air or indoor air flows so as to be inclined with respect to the heat exchanger 160 on the suction flow path so as to gently flow over the entire surface of the heat exchanger 160 In addition to minimizing the resistance, it is possible to improve the blowing efficiency and further increase the heat exchange efficiency.

In addition, since the fourth embodiment of the ventilation device is installed so that the motors 176 and 186 for driving the air supply fan 172 or the exhaust fan 182 face one surface of the case 150 in which the check hole 150h is formed. The user can easily remove the motors 176 and 186 to inspect, maintain, and repair the motors.

In the above, the present invention has been described in detail by taking an example of a heat exchanger for a ventilation device based on the embodiments of the present invention and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

Claims (28)

A case having an outdoor air suction hole for sucking outdoor air, an indoor air discharge hole for discharging indoor air, an outdoor air discharge hole for discharging outdoor air, and an indoor air suction hole for sucking indoor air; It is installed to cross the center of the case so as to partition the outdoor air suction hole and the indoor air discharge hole and the outdoor air discharge hole and the indoor air suction hole, the heat exchange action while passing through the first and second flow paths where the outdoor air and the indoor air flow separately Heat exchanger to achieve this, An air supply fan installed on the outdoor air flow path formed between the outdoor air suction hole and the outdoor air discharge hole to blow outdoor air; An exhaust fan installed on the indoor air flow path formed between the indoor air suction hole and the indoor air discharge hole to blow indoor air; And means for reducing the suction flow loss by configuring the inflow direction of outdoor air or indoor air on the suction flow path inside the case to have an angle of greater than 0 ° and less than 90 ° with respect to the longitudinal direction of the heat exchanger. Ventilation apparatus characterized in that. The method of claim 1, The case is formed to have at least five sides, the ventilation device, characterized in that the outdoor air suction hole and the indoor air discharge hole and the outdoor air discharge hole and the indoor air suction hole is formed on different sides of the case. The method of claim 2, The means is a ventilator characterized in that one surface of the case in which the outdoor air suction hole is formed so as to be inclined at an angle of more than 0 ° and less than 90 ° with respect to one side of the heat exchanger. The method of claim 2, The means is a ventilator characterized in that one surface of the case formed with the indoor air suction hole is formed to be inclined at an angle of more than 0 ° and less than 90 ° with respect to the other side of the heat exchanger. The method according to claim 3 or 4, The air supply fan is a ventilation device, characterized in that the sirocco fan installed inside the outdoor air discharge hole. The method of claim 5, And a check hole is formed on one surface of the case so as to slide the heat exchanger in a longitudinal direction, and a motor for driving the air supply fan is installed to face one surface of the case in which the check hole is formed. The method of claim 5, The outdoor air discharge hole and the indoor air suction hole are formed at one side of the case based on the heat exchanger, and the indoor air introduced into the indoor air suction hole is guided to the second channel of the heat exchanger inside one side of the case. Ventilation apparatus characterized in that the indoor air flow guide is installed. The method of claim 7, wherein And a motor driving the air supply fan faces one surface of a case in which the indoor air suction hole is not formed. The method of claim 8, The motor is a ventilation device, characterized in that installed at a predetermined distance from one surface of the case so that outdoor air flows to the air supply fan side. The method according to claim 3 or 4, The exhaust fan is a ventilation apparatus, characterized in that the sirocco fan installed inside the indoor air exhaust hole. The method of claim 10, And a check hole is formed on one surface of the case so as to slide the heat exchanger in a longitudinal direction, and a motor for driving the exhaust fan is installed to face one surface of the case in which the check hole is formed. The method of claim 10, The outdoor air suction hole and the indoor air discharge hole are formed at the other side of the case based on the heat exchanger, and the outdoor air introduced into the outdoor air suction hole is guided to the first flow path of the heat exchanger inside the other side of the case. Ventilation device characterized in that the outdoor air flow guide is installed. The method of claim 12, And a motor for driving the exhaust fan toward one surface of a case in which the outdoor air suction hole is not formed. The method of claim 13, The motor is a ventilation device, characterized in that installed at a predetermined distance from one surface of the case so that indoor air flows to the exhaust fan side. The method according to claim 13 or 14, Ventilation apparatus characterized in that the motor check hole is formed on one surface of the case to remove and check the motor. The method according to claim 3 or 4, The case further comprises a side surface formed to be inclined at an angle of more than 0 ° less than 90 ° with respect to one side of the heat exchanger on the opposite side of the inclined side in which the suction hole is formed. The method of claim 16, The case is ventilator, characterized in that formed in the octagonal shape provided with eight sides. The method of claim 17, Ventilation apparatus characterized in that the check opening is formed on one side of the case so that the heat exchanger is removable in the longitudinal direction. The method of claim 18, The case is a ventilation device, characterized in that the outdoor air suction hole is formed on the side close to the check hole on one side of the heat exchanger, and the indoor air discharge hole is formed on the side close to the side on which the outdoor air suction hole is formed. The method of claim 19, The exhaust fan is a sirocco fan installed inside the indoor air exhaust hole, the motor for driving the exhaust fan is installed so as to face the one surface of the case in which the check opening is formed. The method of claim 19, The case is formed on the other side of the case close to the check hole on the other side with respect to the heat exchanger, the outdoor air discharge hole is formed on the side close to the side formed with the motor check hole, the side close to the side formed with the outdoor air discharge hole Ventilation apparatus characterized in that the indoor air suction hole is formed. The method of claim 21, The air supply fan is a sirocco fan installed inside the outdoor air discharge hole, and the motor for driving the air supply fan is installed to face one surface of the case in which the motor check opening is formed. The method of claim 1, The means is installed in the outdoor air intake hole ventilator characterized in that it is formed to be inclined at an angle of more than 0 ° less than 90 ° with respect to one side of the heat exchanger connected to the duct connected to the duct. The method of claim 1, The means is installed in the indoor air suction hole ventilator characterized in that the inclined at an angle of more than 0 ° less than 90 ° with respect to the other side of the heat exchanger connected to the duct connected to the duct. The method according to claim 23 or 24, The outdoor air suction hole is formed on one side of one side of the case, the indoor air discharge hole is formed on the other side, and the exhaust fan is installed inside the indoor air discharge hole. The method of claim 25, The outdoor air discharge hole is formed on one side of the surface facing the one surface of the case, the indoor air suction hole is formed on the other side, the air supply fan, characterized in that the air supply fan is installed inside the outdoor air discharge hole. The method of claim 26, An inspection opening is formed on one side of the case so as to slide the heat exchanger in a longitudinal direction, and a motor driving the air supply fan and a motor driving the exhaust fan are installed to face one side of the case in which the inspection opening is formed. Characterized in that the ventilation device. The method according to any one of claims 1 to 27, And a bypass damper that opens and closes a flow path between the heat exchanger and the case so that the air sucked into the indoor air suction hole is discharged through the indoor air discharge hole.