JP3596589B2 - Air supply fan device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The invention of this application relates to an air supply fan device. More specifically, the invention of this application relates to an air supply fan device that can prevent dew condensation near an air outlet.
[0002]
[Prior art]
Conventionally, in a highly airtight and highly insulated house, a ventilation system for forcibly taking in outside air into a room has been adopted. As a forced air supply means, for example, a supply system shown in FIGS. 4 and 5 can be used. A ventilator device has been proposed by the applicant of the present application.
[0003]
This air supply fan device has a fan section (3) including a fan (1) and a motor (2), and a filter frame section (4) is provided at an end (4) of the fan section (3) on the air blowing side. 5) and a louver portion (6) are sequentially arranged. A filter is provided inside the filter frame (5) so as to face the end (4) of the fan (3), and an air outlet (7) is formed on the side of the louver (6). Have been.
[0004]
In the air supply fan device having such a configuration, for example, the fan portion (3) is inserted into a ventilation pipe that communicates indoors and outdoors from the indoor side to the outer wall, and the filter frame portion (5) and the louver portion (6). ) Is arranged and attached at a predetermined position on the indoor side. When the fan (1) rotates by the operation of the motor (2), the outside air is sucked into the fan section (3), and the outside air is then purified by a filter provided in the filter frame section (5), and then the louver section. It hits the face body (8) provided at the end of (6), the wind direction is changed, and the air is supplied from the air outlet (7) to the room.
[0005]
A highly airtight and highly insulated house is particularly preferable as a house for a cold region, but in order to make the above-mentioned air supply fan device usable, it is urgently necessary to take measures against dew condensation. This is because, for example, in the winter season, the outside air temperature is lower than room temperature, and when such cold outside air is taken in, each part of the air supply fan device is cooled by the cool air, and the surface temperature decreases, so that dew condensation occurs. This is because there is a risk of occurrence.
[0006]
Therefore, in the air supply fan device described above, the heat insulating material (9) is interposed between the filter frame (5) and the fan (3), or the back surface of the face body (8) of the louver (6). To prevent the temperature of the filter frame (5) and the louver (6) arranged on the indoor side from lowering.
[0007]
[Problems to be solved by the invention]
However, further measures are needed for the dew condensation measures of the air supply fan device.
FIG. 6 schematically shows the flow of the air blown out from the air blowout port (7), but it is conceivable that a part of the air blown out from the air blowout port (7) goes around to the filter frame (5) side. As a result, as shown in FIG. 7, cold air hits the side surface (10) of the filter frame (5) located near the air outlet (7), and is cooled down to lower the surface temperature, and at the same time, the blown air Entrains the air inside the room and hits it against the side surface (10) of the filter frame (5). As a result, there is a possibility that dew condensation (12) may occur in a portion near the air outlet (7) on the side surface (10) of the filter frame (5).
[0008]
Such dew condensation (12) can similarly occur at the edge of the air outlet (7) of the louver portion (6). The louver part (6) is often formed in a rectangular tube shape together with the filter frame part (5). In this case, the edge of the air outlet (7) of the louver part (6) is formed at the corner part (11). ). Condensation (12) may occur at this corner (11) for the same reason as described above.
[0009]
The invention of this application has been made in view of the above circumstances, and provides an air supply fan device that can further promote dew condensation measures of the air supply fan device and prevent dew condensation near the air outlet. It is aimed at.
[0010]
[Means for Solving the Problems]
The invention of this application solves the above problems by providing a filter frame portion having a filter built therein and an air outlet at an end on the air outlet side of a fan portion having a fan and a motor. The air supply fan device in which a louver portion having on the side surface is sequentially arranged, and a rectifier extending in the length direction of the air outlet at a portion of the filter frame adjacent to the air outlet of the louver portion. This rectifier has a slope gradually rising toward the air outlet , and further has a filter frame at a portion of the filter frame facing the air outlet of the louver portion. An air supply fan device (Claim 1) is provided, wherein a wind direction restricting body is provided upright to prevent passing air from flowing toward an edge portion thereof and to direct the air to an air outlet .
[0011]
The invention of this application, Le Ba part, heat insulating material is provided so as to face the filter is decorated in the filter frame portion, the tip portion of the wind direction regulating member abuts to bite into the insulation material Ru der provides a (claim 2) as a good preferable manner.
[0012]
Hereinafter, the air supply fan device of the present invention will be described in more detail with reference to the drawings.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a side view showing an embodiment of the air supply fan device of the present invention. FIG. 2 and FIG. 3 are cross-sectional views of a main part showing a part thereof together with the flow of air.
In the air supply fan device according to the invention of this application, the air supply fan device shown in FIG. 4 is partially improved, and as shown in FIGS. 1 and 2, the louver portion (6) in the filter frame (5). A rectifier (13) extending in the length direction of the air outlet (7) protrudes from a portion close to the air outlet (7). The rectifier (13) has an inclined surface (14) that gradually increases toward the air outlet (7). The rectifier (13) can be provided integrally with the filter frame (5) or as a separate body. In the case of a separate body, it can be fixed to the filter frame part (5) by adhesion, adhesion, a fixture or the like.
[0014]
With the arrangement of the rectifier (13), in the air supply fan device of the invention of this application, as shown in FIG. 2, the air blown out from the air outlet (7) flows from the filter frame (5). It is directed only in the direction in which it separates, and does not wrap around to the filter frame (5) side. For this reason, even when outside air having a temperature lower than room temperature is introduced by the operation of the fan (1) provided in the fan section (3) in winter or the like, when the air is blown out from the air outlet (7) to the indoor side, the filter frame section is not opened. It does not hit the side surface (10) of (5). For this reason, the side surface (10) is not cooled by the taken in outside air, and the surface temperature does not decrease. Also, no air is trapped inside the room. Therefore, no dew condensation occurs near the air outlet (7) on the side surface (10) of the filter frame (5). The dew condensation measures of the air supply fan device shown in FIG. 4 are further advanced.
[0015]
In the air supply fan device according to the invention of the present application, a wind direction restricting body (15) is further provided at a portion of the filter frame (5) facing the edge of the air outlet (7) of the louver portion (6). It is erected. As shown in FIG. 3, the wind direction restricting body (15) prevents the air that has passed through the filter frame (5) from going to the edge of the air outlet (7), and the air outlet (7). This is a wind direction restricting means for moving to 7). As described above, the edge of the air outlet (7) of the louver portion (6) is located at the corner portion (11) when the louver portion (6) is formed in a rectangular tube shape. In general, the edge of the air outlet (7) of the louver portion (6) including the corner portion (11) may be applied to a connection portion between the filter frame portion (5) and the louver portion (6). Many.
[0016]
The wind direction restricting body (15) can be, for example, a screen-like plate that can surround the edge of the air outlet (7) such as the corner (11). Of course, the wind direction regulating body (15) is not limited to a plate body, and may be, for example, a lump that fits inside the corner portion (11). In addition, the wind direction regulating body (15) can be provided integrally with the filter frame (5) or as a separate body, similarly to the above-described flow regulating body (13). Furthermore, the wind direction restricting body (15) can be provided on the filter frame (5) so as to face all the edges of the air outlet (7) of the louver section (6). When the louver portion (6) is formed in a rectangular tube shape, it is provided to face all the corner portions (11). When the louver portion (6) has a rectangular cross section, the air outlet (7) is generally formed on the upper side surface and the left and right side surfaces of the louver portion (6), and is not provided on the lower side surface. This is because the air blown out from the air blowout port (7) is prevented from directly going to the occupants, the arrangements, and the like in the room, does not cause discomfort, and suppresses the rising of dust. In this case, a heat insulating material may be attached to the inside of the lower surface of the louver portion (6) in order to prevent a decrease in temperature due to outside air taken into the lower surface and to ensure airtightness. In the filter frame (5), a heat insulating material press for holding the heat insulating material is provided upright along the lower surface of the louver portion (6). When such a heat insulating material holder is provided upright on the filter frame (5), the wind direction regulating body (15) can also be extended from both ends of the heat insulating material holder.
[0017]
By arranging such a wind direction regulating body (15), in the air supply fan device of the invention of this application, as shown in FIG. 3, the air blown out from the air blowout port (7) is supplied to the louver section (6). ) Does not hit the edge of the air outlet (7) such as the corner (11). Therefore, the edge of the air outlet (7) of the louver portion (6) is not cooled by the taken-in outside air, and the indoor air is entrained by the air blown out from the air outlet (7). Not even. No dew condensation occurs at the edge of the air outlet (7) of the louver portion (6).
[0018]
In addition, in the air supply fan device of the invention of this application, similarly to the air supply fan device shown in FIG. 4, a heat insulating material (9) is interposed between the filter frame portion (5) and the fan portion (3). The filter frame (5) and the louver (6) are provided on the back surface of the face body (8) of the louver (6) so as to face the filter provided in the filter frame (5), and are disposed indoors. The dew condensation countermeasure of preventing the temperature from being lowered can be adopted at the same time. Then, as shown in FIG. 1, when the heat insulating material (9) is provided on the back surface of the face body (8) of the louver portion (6), air is blown from the corner portion (11) of the louver portion (6). In order to more effectively prevent the outside air taken into the edge of the mouth (7) from hitting and ensure the prevention of dew condensation, the tip of the wind direction regulating body (15) is made of a heat insulating material (9). It can be made to abut to bite into. By doing so, the outside air that has passed through the filter provided in the filter frame (5) does not have to be exposed to the edge of the air outlet (7) of the louver (6) at all, and dew condensation is reliably prevented. Can be.
[0019]
Of course, the invention of this application is not limited by the above embodiments. It goes without saying that various aspects are possible for the details of the configuration and structure of the fan section, the filter frame section, and the louver section.
[0020]
【The invention's effect】
As described in detail above, the invention of this application can prevent dew condensation that may occur near the air outlet. Dew condensation measures in the air supply fan device will be promoted.
[Brief description of the drawings]
FIG. 1 is a side view showing an embodiment of an air supply fan device of the present invention.
FIG. 2 is a sectional view of a main part showing a part of the air supply fan device shown in FIG. 1 together with a flow of air.
FIG. 3 is a cross-sectional view of a main part showing a part of the air supply fan device shown in FIG. 1 together with a flow of air.
FIG. 4 is a side view showing an air supply fan device on which the invention of this application is based.
FIG. 5 is an exploded perspective view of the air supply fan device shown in FIG.
FIG. 6 is a cross-sectional view of a main part schematically showing a flow of air blown out from an air blowing port in the air supply fan device shown in FIG.
FIG. 7 is a perspective view of a main part showing dew condensation which is a concern in the air supply fan device shown in FIG. 4;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Fan 2 Motor 3 Fan part 4 End part 5 Filter frame part 6 Louver part 7 Air outlet 8 Face body 9 Insulation material 10 Side surface 11 Corner part 12 Dew condensation 13 Rectifier 14 Inclined surface 15 Wind direction regulating body

Claims (2)

An air supply fan in which a filter frame portion provided with a filter and a louver portion having a side surface of an air outlet are sequentially disposed at the end of the fan portion provided with the fan and the motor on the air outlet side, which face the end portion. In the device, a rectifier extending in the length direction of the air outlet protrudes from a portion of the filter frame portion adjacent to the air outlet of the louver portion, and the rectifier faces the air outlet. It has an inclined surface that becomes gradually higher , and furthermore, in the filter frame portion, at a portion facing the air outlet edge of the louver portion, the air passing through the filter frame portion is prevented from going to the edge portion, An air supply fan device, wherein a wind direction regulating body for directing the air to an air outlet is provided upright . The air supply fan according to claim 1 , wherein a heat insulating material is provided in the louver portion so as to face the filter provided in the filter frame portion, and a distal end portion of the airflow direction restricting member is in contact with the heat insulating material. apparatus.

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