KR100791923B1 - Ventilation - Google Patents

Abstract

The present invention discloses a ventilator capable of improving heat exchange efficiency by making the distribution of flow flowing into the heat exchange element uniform. The ventilator of the present invention includes a case having a suction port for sucking air, a heat exchange element installed inside the case so that indoor air and outdoor air can exchange heat with each other, and a suction flow path formed between the suction port and the heat exchange element. It is configured to include a guide member for dispersing the flow of air flowing into the heat exchange element. In particular, the guide member has a flow path reduction portion for distributing air in the height direction of the heat exchange element by reducing the cross-sectional area of the suction flow passage so that the air flowing in the suction flow passage receives flow resistance.

Description

Ventilation device {VENTILATOR}

1 is a view schematically showing a configuration of a conventional general ventilator and the flow of air inside the ventilator.

Figure 2 is a perspective view showing the configuration of the ventilation device according to the invention.

Figure 3 is a cross-sectional view showing a guide member installed on the heat exchange element and the suction flow path in the ventilation apparatus according to the present invention.

Figure 4 is a plan view schematically showing the airflow direction in the ventilator according to the present invention.

      * Description of symbols on the main parts of the drawings *

      10 case 11 outdoor air intake

      13: indoor air inlet 20: intake fan unit

      30: exhaust fan unit 40: heat exchange element

      51: outdoor air suction flow path 52: outdoor air suction duct

      54: indoor air suction path 55: indoor air suction duct

      60: guide member 61: flow path reduction portion

      62: flow channel

      The present invention relates to a ventilator, and more particularly to a ventilator having an improved structure to improve the heat exchange efficiency between the indoor air and the outdoor air.

      Ventilation device is a device that can ventilate the indoor space by discharging the indoor air to the outside and inhaling the outdoor air into the room.

      1 is a view schematically showing a configuration of a conventional general ventilation device and the flow of air inside the ventilation device. As shown in FIG. 1, a conventional ventilation apparatus includes a main body 1 having an outdoor air inlet 1a, an indoor air outlet 1b, an indoor air inlet 1c, and an outdoor air outlet 1d, and outdoor air. Intake fan (2) for sucking and supplying the indoor air, exhaust fan (3) for sucking indoor air and discharging it to the outside, and heat exchange between the indoor air discharged to the outside and outdoor air supplied to the room The heat exchange element 4 provided in the inside of the main body 1 is comprised.

      Therefore, when the intake fan 2 is operated, outdoor air is sucked into the inside of the main body 1 through the outdoor air intake port 1a, and the sucked outdoor air passes through the heat exchange element 4 and then passes through the intake fan 2 to the room. Is supplied. In addition, when the exhaust fan 3 operates, indoor air is sucked into the main body 1 through the indoor air inlet 1c, and the sucked indoor air passes through the heat exchange element 4, and then the exhaust fan 3 is opened. It is discharged to outside. In the ventilation process, the outdoor air and the indoor air exchange heat with each other while passing through the heat exchange element 4 in an isolated state.

      However, in the conventional ventilation device, since the intake fan 2 and the exhaust fan 3 are deflected at the corners of the main body 1, the air flow passes through the heat exchange element 4 while the air flow is biased in a specific region. There is a problem. That is, when the intake fan 2 is deflected at one corner portion as shown in FIG. 1, most of the air is biased in the region A relatively close to the intake fan 2 and passes through the heat exchange element 4, and is relatively relative to the intake fan 2. As a result, only a small amount of air flows into the heat exchange element 4 in the far B region.

      The same problem occurs when the indoor air is sucked by the exhaust fan 3, and then, in the heat exchange element 4, a small amount of outdoor air and a large amount of indoor air are exchanged or a large amount of outdoor air is exchanged with a small amount of indoor air. Therefore, the heat exchange efficiency of the heat exchange element 4 is very bad.

      The present invention is to solve such a problem, it is an object of the present invention to provide a ventilation device that can improve the heat exchange efficiency by uniformizing the distribution of flow flowing into the heat exchange element.

Ventilation apparatus according to the present invention for achieving the above object is a case having a suction port for sucking air; and a heat exchange element installed inside the case so that the indoor air and outdoor air can exchange heat while crossing each other; and the suction port And a guide member disposed in an intake passage formed between the heat exchange elements to disperse the flow of air introduced into the heat exchange element, wherein the guide member includes a flow path reduction portion for reducing a cross-sectional area of the intake passage. It is characterized by.

The flow path contracting portion is provided to have a depression shape.

In addition, the ventilator according to the present invention; and a case having an inlet for sucking air; and installed inside the case, having a liner stacked at regular intervals and a spacer disposed between the liner and the indoor air and outdoor air Heat exchange element for allowing heat exchange with each other; and a suction duct forming a suction flow path for guiding air sucked into the case through the suction port to the heat exchange element; and air passing through the suction flow path And a guide member installed inside the suction duct so as to be received and distributed along the height direction of the heat exchange element.

The guide member has a flow path reduction portion that reduces a cross-sectional area of the suction flow path while extending a predetermined length along the height direction of the heat exchange element.

      The guide member may be integrally formed with the suction duct.

      Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. Figure 2 is a perspective view showing the configuration of the ventilator according to the present invention, Figure 3 is a cross-sectional view showing a guide member installed on the heat exchange element and the suction flow path in the ventilator according to the present invention, Figure 4 is a ventilation according to the present invention A plan view schematically showing the airflow direction in the apparatus.

      As shown in Figure 2 and 3, the ventilator according to the present invention is the case 10 and the intake fan unit which is mounted on the inner side of the case 10 to supply the indoor air by sucking the outdoor air 20 and the exhaust fan unit 30 positioned in a diagonal direction of the intake fan unit 20 inside the case 10 to suck the indoor air and discharge it to the outside, and to the indoor air and the indoor air discharged to the outside. It is configured to include a heat exchange element 40 mounted inside the case 10 so that heat exchange between the outdoor air to be made.

      One side of the case 10 is provided with an outdoor air inlet 11 for sucking outdoor air and an indoor air outlet 12 for discharging the indoor air passing through the heat exchange element 40 to the outside, respectively. On the other side of the (10) is provided with an indoor air inlet 13 for sucking indoor air, and an outdoor air outlet 14 for supplying outdoor air passing through the heat exchange element 40 to the room, respectively.

      The intake fan unit 20 includes an intake fan 21 and an intake fan motor 22, the intake side 21a of the intake fan 21 is in communication with the internal space of the case 10, the discharge side of the intake fan 21 Is in communication with the outdoor air outlet (14). Similarly, the exhaust fan unit 30 includes an exhaust fan 31 and an exhaust fan motor 32, and the suction side 31a of the exhaust fan 31 communicates with the internal space of the case 10 and exhausts. The discharge side of the fan 31 communicates with the indoor air outlet 12.

      The heat exchange element 40 has a hexahedral shape, and between the outdoor air inlet 11 and the first surface 41 of the heat exchange element 40, outdoor air sucked into the case 10 is transferred to the heat exchange element 40. An outdoor air suction duct 52 is formed in the inside of the heat exchange element 40 to form the outdoor air suction passage 51 therein, and the second surface 42 of the heat exchange element 40 positioned on the opposite side of the first surface 41 is provided. ) And an outdoor air discharge passage 53 is defined between the suction side 21a of the intake fan 21.

Similarly, between the indoor air intake port 13 and the third surface 43 of the heat exchange element 40, indoor air suction is introduced therein to guide the indoor air sucked into the case 10 to the heat exchange element 40. An indoor air suction duct 55 forming a flow path 54 is provided, and the fourth side 44 of the heat exchange element 40 and the suction side of the exhaust fan 31 positioned opposite to the third side 43. An indoor air discharge passage 56 is defined between the 31a.

      In addition, as shown in Figure 2, the heat exchange element 40 is configured to perform heat exchange in a state in which the air sucked from the outdoor to the indoor and the air discharged from the indoor to the outside is separated from each other, for a predetermined interval It has a plurality of liners 45 to be stacked and a spacer 46 disposed between the liners 45. The spacer 46 is formed of a plate material having a valley and a cross section of which a mountain and a valley are continuously formed to form an air flow path 47 in the space between the liners 45 while maintaining the shape of the heat exchange element. Hereinafter, the direction in which the plurality of liners 45 are stacked is defined as the height direction of the heat exchange element 40.

      In particular, in the present invention, the air introduced into the case 10 through the outdoor air inlet 11 and the indoor air inlet 13 is connected to the outdoor air intake passage 51 and the indoor air intake passage 54. A guide member 60 is installed to distribute the air in the height direction of the c) to make the flow distribution of the air flowing into the heat exchange element 40 uniform.

      Since the shape, function, and effect of the guide member 60 installed in the outdoor air suction passage 51 and the indoor air suction passage 54 are the same, the following description will be given to the guide member installed in the outdoor air suction passage 51 for convenience. Explain.

      The guide member 60 is installed in a region in which the negative pressure due to the intake fan 21 is relatively large in the outdoor air intake passage 51 so as to apply flow resistance to the air flowing through the outdoor air intake passage 51. . To this end, the guide member 60 has a flow path reduction portion 61 which reduces a cross-sectional area of the outdoor air suction flow path 51 while extending a predetermined length along the height direction of the heat exchange element 40.

      As shown in FIG. 2, the flow path reduction part 61 is formed in a depression shape, and a flow channel 62 is formed inside the flow path reduction part 61 so that air flows through the guide member 60.

      Hereinafter, the operation of the ventilator according to the present invention will be described with reference to FIGS. 3 and 4. When power is applied to the ventilation device, outdoor air is introduced into the outdoor air intake passage 51 by the intake fan 21, and indoor air is introduced into the indoor air intake passage 54 by the exhaust fan 31.

      The air entering the outdoor air intake passage 51 passes through the guide member 60 before entering the heat exchange element 40. The guide member 60 blocks the partial region of the flow path and reduces the flow path so that the outdoor air is sucked in. The air passing through the flow path 51 is introduced into the heat exchange element 40 while being dispersed in the height direction of the heat exchange element 40 in response to the flow resistance.

      On the other hand, the indoor air introduced into the indoor air intake passage 54 by the exhaust fan 31 is also flow-dispersed by the guide member 60 installed in the indoor air intake passage 54 in the same manner as described above. 40).

      As described above, the outdoor air and the indoor air introduced into the heat exchange element 40 exchange heat with each other while passing through the heat exchange element 40, and are then discharged into the outdoor air discharge passage 53 and the indoor air discharge passage 56, respectively. In the present invention, since the flow in the suction passages 51 and 54 is uniformly dispersed by the guide member 60 and then flows into the heat exchange element 40, the heat exchange efficiency of the heat exchange element 40 is improved.

      Meanwhile, the outdoor air discharged to the outdoor air discharge passage 53 is supplied to the indoor after passing through the intake fan 21 and the outdoor air discharge port 14 in turn, and the indoor air discharged to the indoor air discharge passage 56 is an exhaust fan. After passing through the 31 and the indoor air outlet 12 in order to exhaust the outdoor air is made between the indoor and outdoor air.

      In the above embodiment, a case where the separate guide member 60 is installed inside the suction ducts 52 and 55 is described. However, the separate guide member 60 does not necessarily need to be installed, and the suction ducts 52 and 55 are installed. It is of course also possible to integrally shape the flow path reduction portion capable of reducing the cross-sectional area of the suction flow paths 51 and 54 in the "

      As described above, the present invention has the effect of improving the heat exchange efficiency of the heat exchange element by making the distribution of the flow flowing into the heat exchange element through the guide member installed on the suction flow path uniform.

Claims (5)

A case having a suction port for sucking air; and A heat exchange element installed inside the case to exchange heat between indoor air and outdoor air; And a guide member disposed in a suction passage formed between the suction port and the heat exchange element to disperse the flow of air introduced into the heat exchange element. And the guide member includes a recess-shaped flow path contracting portion to reduce the cross-sectional area of the suction flow channel. delete A case having a suction port for sucking air; and A heat exchange element installed inside the case and having a liner stacked at regular intervals and a spacer disposed between the liner to allow the indoor air and the outdoor air to exchange heat with each other; and A suction duct forming a suction passage for guiding air sucked into the case through the suction port to the heat exchange element; and And a guide member installed inside the suction duct such that air passing through the suction flow path receives flow resistance and is distributed along the height direction of the heat exchange element. The guide member is a ventilation device, characterized in that it comprises a dichroic-shaped flow path reduction portion for reducing the cross-sectional area of the suction passage while extending a predetermined length along the height direction of the heat exchange element. delete       The method of claim 3,       The guide member is a ventilation device, characterized in that formed integrally with the suction duct.

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