JP4946347B2 - Air supply and ventilation system - Google Patents

Description

  The present invention relates to an air supply device for introducing outside air indoors and a ventilation system using the air supply device.

  Since today's houses have dramatically improved confidentiality as compared to conventional houses, a method of positively ventilating by providing an air supply device, an exhaust device or the like on the wall surface of the house is used. A general air supply device is a device formed in a cylindrical portion that is inserted into an introduction hole for introducing outside air formed on a wall surface and a flat plate portion that is formed on an indoor side end portion of the cylindrical portion. It is comprised by a housing | casing and the cover part which covers the room inner side front surface of this apparatus housing | casing.

  A motor and a propeller fan that is rotated by the motor as needed are provided inside the cylindrical portion of the apparatus housing, and a structure that positively introduces outside air indoors by rotating the propeller fan; (For example, refer to Patent Document 1 and Patent Document 2).

By installing the air supply device described above for the house and installing an exhaust device that exhausts indoor air to the outside, the indoor air can be actively circulated, creating a comfortable living environment. It is possible to provide.
JP-A-8-128690 (page 4-7, FIGS. 1 and 2) JP 2006-132842 A (page 3-4, FIGS. 1 and 6)

  By the way, in a general air supply apparatus, the cover part mentioned above has a role as a decorative member. For this reason, a cover part is installed in a cylindrical part opening front surface so that the motor and propeller fan installed in a cylindrical part cannot be seen from indoors.

  Since the air guided indoors through the tubular part is provided with a cover part on the front surface of the tubular part, it is distributed on the back surface of the cover part in two directions including left and right or multiple directions including up and down, Will be introduced into the room. Since the introduced outside air is guided indoors along the wall surface by this cover portion, it is possible to avoid the cold outside air from directly hitting the occupant in winter or the like.

  However, since cold air is heavy, it has the property of descending downward. For this reason, when the cold outside air introduced along the wall surface falls to the indoor floor surface and hits the human body, the cold air is felt (so-called cold draft), and the occupant may be uncomfortable.

  The present invention has been made in view of the above problems, and an air supply device and a ventilation system capable of suppressing the occurrence of a cold draft accompanying the introduction of outside air when the outside air is lower than the room temperature. It is an issue to provide.

  In order to solve the above-described problems, an air supply device according to the present invention includes an apparatus housing in which an introduction hole for introducing outside air into an indoor space is formed, and a cover portion that covers the indoor front surface of the apparatus housing. An opening for guiding the outside air indoors is formed on the upper surface of the cover portion, and ventilation is provided from the cylindrical portion to the opening portion by the cover portion and the device housing. A space is formed, and a lid that covers the opening is provided in the cover portion so as to be openable and closable, and a space is formed between the lid and the apparatus housing when the lid is open. It is characterized by that.

  Note that the air supply device according to the present invention is not limited to a motor and a fan for introducing the outside air into the cylindrical portion or the like and the outside air is introduced by the rotation of the fan, and no motor or fan is provided. In addition, those that introduce outside air by natural air supply are also included.

  The lid body is formed of a curved surface material with a raised central portion on the upper surface side, and the device casing side edge portion of the lid body is formed in an arcuate shape with a concave center portion compared to the left and right end portions. The lid may be pivotally supported by the cover at the left and right ends.

  On the other hand, an air supply device according to the present invention has a device housing in which an introduction hole for introducing outside air into the room is formed, and a cover portion that covers the indoor front surface of the device housing, In the upper front part of the cover part, an opening for guiding the outside air into the room is formed, and a ventilation space communicating from the cylindrical part to the opening is formed by the cover part and the device housing. A lid for opening and closing the opening is provided on the front of the cover so as to be movable up and down. In the air supply device, a guide portion that guides the outside air to the opening portion may be provided on an inner wall surface of the ventilation space facing the opening portion.

  Furthermore, the ventilation system according to the present invention includes the above air supply device and an exhaust device that exhausts the indoor air to the outdoors, and the air supplied by the air supply device is returned to the outdoors by the exhaust device. It is characterized by exhausting and replacing indoor air.

  In the air supply device according to the present invention, the lid that covers the opening is provided so as to be openable and closable with respect to the cover, and a space is formed between the lid and the apparatus housing when the lid is open. Therefore, a part of the air passing through the opening through the space portion can be guided toward the upper surface of the lid body, and the air flow can be divided into the upper surface side and the lower surface side of the lid body.

  By diverting the introduced outside air between the upper surface side and the lower surface side of the lid, it is possible to diffuse the outside air so that it spreads obliquely upward, and the diffused outside air is mixed with warm air on the ceiling side. Accordingly, since it is warmed and enters the residence, it is possible to prevent the resident from directly experiencing the temperature of the outside air (cold temperature).

  In particular, when the device casing side edge of the lid is formed in a concave shape in the center compared to the left and right ends, a concave notch is formed in the lower part of the lid with respect to the left and right ends. Judge that it is. For this reason, when the lid is opened by pivotally supporting the cover at the left and right ends, a part of the outside air passing through the opening through the notch of the lid is directed to the upper surface of the lid. Since it becomes easy to guide | lead, it becomes possible to show | play the effect mentioned above more notably.

  In addition, since the lid is made of a curved face material with a raised central portion on the upper surface side, in the vicinity of the central portion where the inflow amount of outside air increases in the opening, the outside air is further raised by the curvature of the central portion of the lid. In the portion near the left and right edges where the amount of inflow of outside air is reduced, the outside air is more easily diffused in the lateral upward direction. For this reason, the outside air passing through the opening can be diffused widely in the room by the lid, and temperature unevenness in the room can be reduced.

  Furthermore, since the lid is provided in the cover part so that it can be opened and closed, it is possible to prevent the introduction of outside air by closing the lid and closing the opening. It can be reduced.

  On the other hand, in the air supply device according to the present invention, an opening for guiding outside air to the indoor is formed at the upper part of the cover part, and a lid part for opening and closing the opening part on the front of the cover part is vertically Since it is provided so as to be movable, the air that has passed through the ventilation space is guided to the opening in the upper part of the cover part and discharged to the upper side of the air supply device. For this reason, since the outside air is led indoors, it mixes with the warm air on the ceiling side, warms the outside air and enters the residence, and the resident feels the temperature of the outside air (cold temperature) directly. It is possible to suppress this.

  In particular, when a guide portion that guides outside air to the opening is provided on the inner wall surface of the ventilation space facing the opening, the outside air is easily guided obliquely upward by the guide, and is guided obliquely upward. The outside air will be widely dispersed over the interior of the room. For this reason, the diffused outside air is mixed with warm air on the ceiling side and is warmed, and it is possible to prevent the resident from directly experiencing the temperature of the outside air.

  In addition, by providing the guide portion, it is possible to widely diffuse the outside air passing through the opening, and thus it is possible to reduce temperature unevenness in the room.

  Furthermore, since the lid portion is provided so as to be movable up and down with respect to the front surface of the cover portion, by closing the opening by sliding the lid portion, it is possible to close the ventilation space and prevent the introduction of outside air, It becomes possible to reduce the discomfort of the resident due to the inflow of unnecessary outside air.

  Furthermore, in the ventilation system according to the present invention, indoor ventilation can be efficiently performed without causing the occupant to feel a cold draft by using the above-described air supply device as an indoor ventilation system.

  Hereinafter, an air supply device according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a side view illustrating a schematic configuration of the air supply device according to the first embodiment. The air supply device 1 includes a device housing 2, a cover portion 3, a motor 4, and a propeller fan 5.

  The apparatus housing 2 includes a cylindrical portion (cylindrical portion) 7 that is inserted into a conduction hole 6a for introducing outside air formed on a wall surface 6 of a building or the like, and an opening portion 8a that corresponds to the opening of the cylindrical portion 7 in the center. Is formed, and the peripheral edge of the opening 8a is constituted by the flat plate portion 8 connected to the indoor side end portion of the cylindrical portion 7. The cylindrical portion 7 generally has a cylindrical shape because the shape of the conduction hole 6a of the wall surface 6 is circular, but the opening shape of the cylindrical portion 7 is not necessarily limited to a circular shape.

  A rib 8b is provided on the outer peripheral edge of the flat plate portion 8 so as to stand on the wall surface 6 side. A motor driving power source is formed in a space formed by the rib 8b and the front plate 8c of the flat plate portion 8. A device (for example, a battery box) 10 is installed.

  Several portions (for example, about three portions) of leg portions 11 for supporting the motor 4 are provided inside the cylindrical portion 7. By fixing the motor 4 via the leg portions 11, the motor 4 is fixed. And a space for introducing outside air are secured between the inner wall of the cylindrical portion 7.

  The propeller fan 5 is fixed to the rotating shaft 4a of the motor 4. By turning on a switch (not shown), electric power is supplied to the motor 4 from the power supply device 10 for driving the motor, and the propeller fan 5 is It rotates and outdoor air is introduced into the room.

  As shown in FIG. 2, the cover portion 3 is installed so as to cover the front surface of the frame body portion 14 and the frame body portion 14 that are engaged with the apparatus housing 2 by being engaged with the ribs 8 b of the flat plate portion 8. The panel member 15 is provided.

  An inner frame portion 17 and a fixing member 18 for fixing the filter 16 are provided inside the frame body portion 14. The filter 16 is disposed on the frame body portion 14 so as to abut on the back surface (surface on the wall surface 6 side) of the inner frame portion 17, and the fixing member 18 supports the disposed filter 16 from the back surface side. And attached to the frame body portion 14.

  By installing the filter 16 in the frame part 14, dust and insect light contained in the outside air can be removed and filtered, and clean air can be introduced indoors.

  Further, several fixing holes 19 for fixing the panel member 15 are provided on the front surface of the inner frame portion 17 (although only three locations are shown in the lower inner frame portion 17 in FIG. 2). , Three places are also installed on the top).

  The panel member 15 includes a front panel 20 having a U-shaped cross section that covers the filter 16 from the front direction, and a lid 21 provided on the upper surface of the front panel 20 so as to be openable and closable.

  The front panel 20 is configured by a curved surface with a central portion protruding from the left and right end portions to the front side and further inclined forward from the lower portion toward the upper portion.

  A plurality of projections 22 are provided on the rear surface of the front panel 20, and the projections 22 are engaged with the fixing holes 19 provided on the front surface of the inner frame 17 of the frame body part 14, whereby the front panel 20. Is fixed to the frame body portion 14.

  The space formed by the cylindrical portion 7 and the flat plate portion 8 of the apparatus housing 2 and the frame body portion 14 and the front panel 20 of the cover portion 3 forms a passage communicating from the outdoors to the interior. As a result, a ventilation space 23 for guiding outside air is formed.

  When the front panel 20 is fixed to the frame body part 14, as shown in FIGS. 4 and 5, a substantially arcuate (arc-shaped) opening 24 is formed on the upper surface. The lid body 21 is a member used for opening and closing the opening 24, and has a shape corresponding to the opening shape.

  Specifically, as shown in FIG. 3A, the lid body 21 is formed of a curved face material having a substantially arcuate shape (arc shape), and the lower edge portion 21a is compared to the left and right lower end portions 21b. The central portion 21c is constituted by an arcuate edge that is concave. Accordingly, when the lid body 21 is observed with reference to the left and right lower end portions 21b, it can be determined that a half-moon-shaped cutout portion as indicated by reference numeral 25 is formed in the lower portion of the lid body 21.

  A shaft portion 26 extending in the lateral direction is formed on the left and right lower end portions 21b of the lid body 21. Moreover, as shown in FIGS. 3B and 3C, the lid body 21 is configured by an arcuate curved surface material whose center portion protrudes compared to the left and right end portions.

  A shaft hole 27 for fitting the shaft portion 26 of the lid 21 is formed in the upper part of the left and right side wall surfaces of the front panel 20. By inserting the shaft portion 26 of the lid body 21 into the shaft hole 27, the lid body 21 can be installed so as to be opened and closed, and the opening portion 24 is opened and closed by the lid body 21. .

  Further, as shown in FIGS. 1 and 4, an ion generation unit 28 is provided in the upper part on the back side of the front panel 20 and in the vicinity of the opening 24 where the lid 21 is installed. The ion generation unit 28 is a device that generates a plasma discharge for performing an operation of decomposing / removing airborne bacteria and viruses.

When plasma discharge occurs, water vapor is ionized to generate approximately the same amount of positive ions and negative ions. A positive ion is a cluster ion in which a plurality of water molecules are attached around a hydrogen ion (H ⁺ ), and is represented as H ⁺ (H ₂ O) _m (m is a natural number). The negative ions are cluster ions in which a plurality of water molecules are attached around oxygen ions (O ₂ ⁻ ), and are expressed as O ₂ ⁻ (H ₂ O) _n (n is a natural number). When the outside air is introduced by the rotation of the propeller fan 5, positive ions and negative ions are released into the air and become hydrogen peroxide H ₂ O ₂ or hydroxyl radicals / OH, which are suspended in the room (viruses, bacteria, etc.) Aggregate and remove to remove floating bacteria. For this reason, by driving the ion generating unit 28, positive ions and negative ions are carried indoors together with outside air introduced from the outdoors, and indoor air is purified.

  4 and 5 show a state in which the lid 21 is opened by about 45 degrees, the motor 4 is driven, and the propeller fan 5 is rotated.

  When the propeller fan 5 is rotated, outdoor air flows into the ventilation space 23 through the cylindrical portion 7 as the fan rotates, and is filtered by the filter 16, and then along the front panel 20. It is guided in the direction of the opening 24. The air guided in the direction of the opening 24 passes through the opening 24 in a state containing a large amount of positive ions and negative ions by the ion generation unit 28.

  At this time, the lid body 21 provided in the opening 24 is configured by an arcuate edge portion in which the lower edge portion 21a of the center portion 21c is concave compared to the left and right lower end portions 21b, Since the notched portion 25 is formed, when the lid body 21 is in an open state, the notched portion 25 forms a space 31 formed between the lid body 21 and the device housing 2 by the notched portion 25. A part of the air passing through the opening 24 is guided in the direction of the upper surface 30a of the lid body 21, and the air flow is divided into the upper surface 30a side and the lower surface 30b side of the lid body 21.

  The air diverted to the upper surface 30a side and the lower surface 30b side of the lid body 21 is diffused so as to spread obliquely upward as shown in FIG. Will be widely dispersed in the room (see arrows in FIG. 5). In this way, when the outside air is widely dispersed indoors, the indoor air generally tends to have a higher temperature on the ceiling side than on the floor side. It is mixed and warmed. For this reason, since the diffused outside air is sufficiently warmed and enters the residence, it is possible to suppress the direct experience of the temperature of the outside air.

  Moreover, the cover body 21 is comprised by a curved surface material as shown to Fig.3 (a)-(c), and a center part is compared with a right-and-left end part also as shown in FIG.3 (b) also in cross-sectional shape. Since it is formed by a bow-shaped cross section that protrudes, in the vicinity of the central portion where the inflow amount of outside air increases in the opening 24, the outside air is more easily dispersed upward due to the curvature of the central portion of the lid 21 (for example, 5, in the portion near the left and right edges where the amount of outside air flowing in decreases, the outside air is more likely to diffuse upward in the lateral direction (for example, arrow B in FIG. 5). For this reason, the outside air passing through the opening 24 can be diffused widely in the room by the lid body 21, and temperature unevenness in the room can be reduced.

  Furthermore, since the outside air can be prevented from being introduced by closing the lid 21 and closing the opening 24, it is possible to reduce the unpleasant sensation of the resident due to the inflow of unnecessary outside air.

  Next, an air supply device based on another configuration will be described as a second embodiment with reference to the drawings. The same parts as those described in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  FIG. 6 is a side view illustrating a schematic configuration of the air supply device 40 according to the second embodiment. The air supply device 40 includes a device housing 2, a cover portion 41, a motor 4, and a propeller fan 5.

  The apparatus housing 2 is formed with a cylindrical portion 7 fitted into a conduction hole 6a formed in a wall surface 6 of a building or the like, and an opening 8a corresponding to the opening of the cylindrical portion 7 at the center, and the opening 8a. Is formed by a flat plate portion 8 connected to an indoor side end portion of the cylindrical portion 7.

  A rib 8b is provided on the outer peripheral edge of the flat plate portion 8 so as to stand on the wall surface 6 side. A motor driving power source is formed in a space formed by the rib 8b and the front plate 8c of the flat plate portion 8. A device 10 is installed.

  Inside the cylindrical portion 7, there are several legs 11 for supporting the motor 4, and by fixing the motor 4 via the legs 11, the motor 4 and the cylindrical portion 7 are fixed. It has a structure in which a space for introducing outside air is secured between the inner wall and the inner wall.

  The propeller fan 5 is fixed to the rotating shaft 4a of the motor 4. When a switch (not shown) is turned on, electric power is supplied to the motor 4 from the motor driving power supply device 10, and the propeller fan 5 rotates. Outdoor air is introduced into the room.

  As shown in FIG. 7, the cover portion 41 is installed so as to cover the front surface of the frame body portion 42 and the frame body portion 42 engaged with the apparatus housing 2 by being engaged with the ribs 8 b of the flat plate portion 8. Panel member (lid portion) 43 to be used.

  An inner frame portion 44 and a fixing member 18 for fixing the filter 16 are provided inside the frame body portion 42. The inner frame portion 44 connects the left and right column portions 44a that are erected on the left and right sides, the upper column portion 44b that is provided so that the left and right column portions 44a are installed on the upper end portion, and the lower end portions of the left and right column portions 44a. And a lower column portion 44c provided. The filter 16 is installed from the back side of the inner frame portion 44, so that the front corner of the filter 16 is in contact with the back surface of the inner frame portion 44. In this state, by attaching the fixing member 18 from the back side of the filter 16, the filter 16 is sandwiched and fixed between the inner frame portion 44 and the fixing member 18.

  As shown in FIG. 7, a groove 45 is provided in the vertical direction on the outer surface of the left and right column portions 44a, and a decorative plate portion 46 having an L-shaped cross section is formed on the front surface of the lower column portion 44c. Yes. Further, on the front side of the upper column part 44b, there is an inclined surface part (guide part) 47 formed by an arcuate curved surface in which the front surface is inclined by about 45 degrees and the central part protrudes from the left and right ends. Is formed.

  The panel member 43 has a U-shaped cross section, and is configured by a curved surface in which the front center portion protrudes from the left and right end portions to the front side and is inclined from the lower portion toward the upper portion. The height h <b> 1 of the panel member 43 is defined to be lower (shorter) than the height h <b> 2 of the frame body portion 42, and a band-shaped convex portion 49 is formed inside the left and right side walls of the panel member 43. For this reason, it is possible to slide the panel member 43 up and down in front of the frame body part 42 by fitting the belt-like convex part 49 of the panel member 43 into the groove 45 of the left and right column part 44a.

  The space formed by the cylindrical portion 7 and the flat plate portion 8 of the apparatus housing 2 and the frame body portion 42 and the panel member 43 of the cover portion 41 forms a passage that communicates from the outdoors to the interior. Ventilation space 50 for guiding is formed.

  FIG. 8A shows a state in which the panel member 43 is slid upward with respect to the frame body portion 42, and FIG. 8B shows the panel member 43 downward with respect to the frame body portion 42. And shows a state of sliding. As shown in FIG. 8A, when the panel member 43 is slid upward, the front opening of the frame body portion 42 is covered by the panel member 43, and the lower portion of the frame body portion 42 is further covered. Since the decorative plate portion 46 is provided, the panel member 43 and the decorative plate portion 46 can prevent the outside air from entering the room, and the design of the air supply device 40 can be ensured. It becomes.

  On the other hand, as shown in FIG. 8B, when the panel member 43 is slid downward, the opening 51 is secured above the frame body portion 42, so that the outside air that passes through the ventilation space 50. Can be guided indoors through the opening 51.

  An ion generating unit 28 is provided on the inclined surface portion 47 of the frame body portion 42. The ion generation unit is a device that generates a plasma discharge for performing an operation of decomposing / removing airborne bacteria and viruses, an operation of suppressing the generation of mold, and the like. By driving the ion generation unit 28, positive ions and negative ions are carried indoors together with the outside air introduced from the outdoors, and the indoor air is purified.

  9 and 10 show a state in which the panel member 43 is moved downward, the motor 4 is driven, and the propeller fan 5 is rotated.

  When the propeller fan 5 is rotated, outdoor air flows into the ventilation space 50 through the tubular portion 7 along with the rotation of the fan, and is filtered by the filter 16, and then along the panel member 43. Guided toward the opening 51. The air guided to the opening 51 is in a state containing a large amount of positive ions and negative ions by the ion generating unit 28 and passes through the opening 51.

  At this time, the inclined surface portion 47 provided at a position facing the opening 51 is in a state where the inclined surface is inclined at about 45 degrees, so that the outside air guided upward along the back surface of the panel member 43 is present. It will be guided to diagonally upward by this inclined surface, and will be discharged indoors. Also in this case, as in the first embodiment, the outside air guided obliquely upward by the inclined surface portion 47 is widely dispersed to the upper part of the room, so that the diffused outside air is on the ceiling side. It is possible to prevent the resident from directly experiencing the temperature of the outside air by being mixed with warm air and being warmed.

  Further, since the inclined surface portion 47 is formed by an arcuate curved surface whose center portion protrudes compared to the left and right end portions, as shown in FIG. In the vicinity of the portion, the outside air is more easily dispersed upward by the curved surface protruding from the center of the inclined surface portion 47 (for example, the arrow C in FIG. 10), and the portion near the left and right edges where the amount of inflow of outside air is reduced Then, the outside air is more easily diffused upward in the lateral direction (for example, arrow D in FIG. 10). For this reason, the outside air passing through the opening 51 can be diffused widely by the inclined surface portion 47, and the temperature unevenness in the room can be reduced.

  Further, by sliding the panel member 43 upward to close the opening 51, the ventilation space 50 can be closed to prevent the introduction of outside air, so that the residents feel uncomfortable due to the inflow of unnecessary outside air. It can be reduced.

  Next, a ventilation system using the air supply device according to the first embodiment or the second embodiment described above will be described.

  FIG. 11 shows the air supply device 60 described above (the air supply device 60 represents either the air supply device 1 shown in the first embodiment or the air supply device 40 shown in the second embodiment) attached to the building 61. The ventilation system 62 which enabled time ventilation is shown. In the ventilation system 62, an air supply device 60 is attached to the upper wall of the living room R1 on the first floor, and an exhaust device 63 is attached to the upper wall of the toilet R2, the washroom R3, the bathroom R4, and the like on the first floor. An air supply device 60 is attached to the upper walls of the second floor rooms R5 and R6, and an exhaust device 63 is attached to the upper walls of the second floor corridor R7 and toilet R8.

  The exhaust device 63 shown in FIG. 11 means a general exhaust device in which the propeller fan 5 and the motor 4 are provided, and since it is a known technique, a detailed description thereof will be omitted here. .

  On the first floor, outside air introduced (supplied) from the air supply device 60 to the living room R1 is led to the toilet R2, the washroom R3, and the bathroom R4 through the undercut portion 66U and the louver portion 66D provided at the lower part of the door. Then, the air is exhausted outdoors by the exhaust device 63. In addition, outside air introduced into the living rooms R5 and R6 from the air supply device 60 on the second floor is led to the corridor R7 through an undercut portion 66U provided in the lower part of the door of the living room R5, and is outdoors by the exhaust device 63 of the corridor R7. Exhausted.

  On the other hand, outside air introduced by the air supply device 60 in the living room R6 is exhausted to the outside by the exhaust device 63 in the corridor R7 through the undercut portion 66U, and is led to the toilet R8 through the undercut portion 66U. The exhaust device 63 exhausts the air outdoors.

  In this building 61, the ventilation system 62 on the first floor and the second floor are independent from each other by the air supply device 60 and the exhaust device 63. The ventilation system 62 on the first floor and the second floor respectively provide ventilation targets for the entire house. Continuous or intermittent ventilation is performed by the air supply device and the exhaust device so that the portion is ventilated at a predetermined ventilation frequency (for example, 0.5 times / hour).

  By using the air supply device 60 in the ventilation system 62, the outside air supplied by the air supply device 60 can be diffused indoors so as to spread obliquely upward, so that the diffused outside air is warm on the ceiling side. It is possible to prevent the resident from directly experiencing the temperature of the outside air (cold temperature) by being mixed with air and being warmed and entering the house. Further, by using the air supply device 60, the introduced outside air can be diffused widely in the room, and temperature unevenness in the room can be reduced.

  Since the air supply device 60 is provided with the ion generation unit 28 as described above, the air in the entire room of the building 61 not only removes dust but also generates mold by removing floating bacteria. Suppression etc. can be performed and it becomes possible to aim at the purification of the whole air in a building.

  As described above, in the air supply device 1 shown in the first embodiment, the lid body 21 is configured by the bow-shaped edge portion in which the lower edge portion 21a of the central portion 21c is concave compared to the left and right lower end portions 21b. Since the half-moon-shaped notch 25 is formed in the lower part of the lid 21, a part of the air passing through the opening 24 through the notch 25 is guided toward the upper surface 30 a of the lid 21. The air flow can be divided into the upper surface 30 a side and the lower surface 30 b side of the lid 21.

  In this way, by introducing the introduced outside air between the upper surface 30a side and the lower surface 30b side of the lid 21, the outside air can be diffused indoors so as to spread obliquely upward as shown in FIG. The outside air is widely dispersed in the room. When outside air is widely dispersed indoors, indoor air generally tends to be hotter on the ceiling side than on the floor side, so diffused outside air mixes with warm air on the ceiling side. It is possible to prevent the resident from directly experiencing the temperature of the outside air (cold temperature) by being warmed and entering the residence.

  In addition, the lid body 21 is formed of a curved surface material, and the cross-sectional shape is formed with an arcuate cross-section in which the central portion protrudes compared to the left and right end portions. In the vicinity of the central portion, the outside air is more easily dispersed upward due to the curvature of the central portion of the lid body 21 (for example, the arrow A in FIG. 5), and in the portion near the left and right edges where the inflow amount of the outside air is reduced, Outside air is more easily diffused upward in the lateral direction (for example, arrow B in FIG. 5). For this reason, the outside air passing through the opening 24 can be diffused widely in the room by the lid body 21, and temperature unevenness in the room can be reduced.

  Furthermore, since the outside air can be prevented from being introduced by closing the lid 21 and closing the opening 24, it is possible to reduce the unpleasant sensation of the resident due to the inflow of unnecessary outside air.

  On the other hand, in the air supply device 1 shown in the second embodiment, since the inclined surface of the inclined surface portion 47 provided at a position facing the opening 51 is inclined at about 45 degrees, the panel member 43 is provided. The outside air guided upward along the back surface of the water is guided obliquely upward by the inclined surface and is discharged indoors.

  Also in this case, as in the first embodiment, the outside air guided obliquely upward by the inclined surface portion 47 is widely dispersed to the upper part of the room, so that the diffused outside air is on the ceiling side. It is possible to prevent the resident from directly experiencing the temperature of the outside air by being mixed with warm air and being warmed.

  In addition, since the inclined surface portion 47 is formed by an arcuate curved surface with a central portion protruding from the left and right end portions, as shown in FIG. In the vicinity of the portion, the outside air is more easily dispersed upward by the curved surface protruding from the center of the inclined surface portion 47 (for example, the arrow C in FIG. 10), and the portion near the left and right edges where the amount of inflow of outside air is reduced Then, the outside air is more easily diffused upward in the lateral direction (for example, arrow D in FIG. 10). For this reason, the outside air passing through the opening 51 can be diffused widely by the inclined surface portion 47, and the temperature unevenness in the room can be reduced.

  Further, by sliding the panel member 43 upward to close the opening 51, the ventilation space 50 can be closed to prevent the introduction of outside air, so that the residents feel uncomfortable due to the inflow of unnecessary outside air. It can be reduced.

  Furthermore, since the ion generating unit 28 is provided on the inner wall of the air passage that forms the ventilation passage in the air supply device shown in the first and second embodiments, only the dust and the like are removed by the filter 16. In addition, the ion generation unit 28 can suppress the generation of mold by removing the floating bacteria, and the entire air in the building 61 can be cleaned.

  Further, in the ventilation system shown in the third embodiment, the air supply device 60 shown in the first or second embodiment is used for the indoor ventilation system 62, so that the occupant can feel the cold draft indoors. Ventilation can be performed efficiently.

  As mentioned above, although the air supply apparatus and ventilation system which concern on this invention were demonstrated in detail using drawing, the air supply apparatus and ventilation system which concern on this invention are not limited to embodiment mentioned above. It will be apparent to those skilled in the art that various changes and modifications can be conceived within the scope of the claims, and these are naturally within the technical scope of the present invention. Understood.

  For example, in the first and second embodiments described above, the configuration in which the motor 4 and the propeller fan 5 are provided in the air supply devices 1 and 40 has been described. However, the motor 4 and the propeller fan 5 are not necessarily required, and the motor 4 and the like. Even in the case of using an air supply device that is not provided, it is possible to achieve the same effects as those described in the first to third embodiments.

  Further, in the ventilation system 62 shown in the third embodiment, the configuration in which the air supply device 60 and the exhaust device 63 are installed is shown. However, the outside air is introduced only by the air supply device, and the exhaust system 63 is not provided naturally. It is good also as a structure which exhausts indoor air.

  Furthermore, it is also possible to install a larger number of air supply devices in a building and to form an air flow path positively through an undercut portion or the like of a building doorway. By actively forming an air flow path through an undercut or the like of a doorway of a building, it is possible to reduce a sense of discomfort that can be given to a resident with respect to the aesthetics of the room.

  Furthermore, in the ventilation system 62 shown in the third embodiment, the example in which the air supply device 60 described in the first and second embodiments is used in a detached house has been described, but the ventilation system according to the present invention is described. Is not limited to single-family houses, but can be installed in apartment houses such as condominiums.

1 is a side sectional view showing a schematic configuration of an air supply device shown in Example 1. FIG. It is the expansion | deployment perspective view which showed the cover part of the air supply apparatus which concerns on Example 1. FIG. It is the figure which showed the cover body of the air supply apparatus which concerns on Example 1, (a) is the perspective view shown from the back surface side, (b) is sectional drawing which showed the AA cross section of (a) from the arrow direction. (C) has shown sectional drawing which showed the BB cross section of (a) from the arrow direction. It is a side sectional view showing the flow of the outside air introduced in the state where the lid is opened in the air supply device according to the first embodiment. It is the perspective view which showed the flow of the external air introduce | transduced in the state which opened the cover body in the air supply apparatus which concerns on Example 1. FIG. FIG. 5 is a side sectional view showing a schematic configuration of an air supply device shown in Example 2. FIG. 6 is a developed perspective view illustrating a cover portion of an air supply device according to a second embodiment. It is the side view which showed the cover part of the air supply apparatus which concerns on Example 2, (a) shows the state which the panel member slid upwards, (b) has shown the state which the panel member slid below. . FIG. 6 is a side sectional view showing a flow of outside air introduced in a state in which a panel member is slid downward in an air supply device according to a second embodiment. It is the perspective view which showed the flow of the external air introduce | transduced in the state which made the panel member slide down in the air supply apparatus which concerns on Example 2. FIG. It is explanatory drawing which showed the building in which the ventilation system using the air supply apparatus in any one of Example 1 or Example 2 was installed.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 40, 60 ... Air supply apparatus 2 ... Apparatus housing | casing 3, 41 ... Cover part 4 ... Motor 4a ... Rotating shaft 5 (propeller) 6 ... Propeller fan 6 ... Wall surface 6a ... (Wall surface) conduction hole 7 ... Cylindrical shape Part (cylinder part)
8 ... Flat plate portions 8a, 24, 51 ... Opening 8b ... Ribs 8c ... (front plate) front plate 10 ... Power supply device 11 ... Leg portions 14, 42 ... Frame body portions 15, 43 ... Panel member 16 ... Filter 17, 44 ... inner frame 18 ... fixing member 19 ... (inner frame) fixing hole 20 ... front panel 21 ... lid 21a ... (lid) lower edge 21b ... (lid) left and right lower end 21c ( Center part 22 (of the lid) ... Projection parts 23 and 50 (of the panel member) ... Ventilation space 25 ... Notch part 26 (of the lid) ... Shaft part 27 (of the lid) ... Shaft hole 28 (of the front panel) ... Ion generation unit 30a ... upper surface 30b (of lid) ... lower surface 31 (of lid) ... space 44a ... left and right column 44b ... upper column 44c ... lower column 45 ... groove 46 (of left and right column) ... makeup Plate part 47 ... Inclined surface part 49 ... Band-shaped convex part 61 (of panel member) ... Building 62 ... System 63 ... exhaust system 66D ... louver part 66U ... undercut portion R1 ... living room R2, R8 ... toilet R3 ... washroom R4 ... bathroom R5, R6 ... room R7 ... corridor

Claims (2)

An apparatus housing in which a cylindrical portion for introducing outside air into the room is formed;
A cover portion covering the indoor front side of the device casing;
An opening for guiding the outside air to the indoor is formed on the upper surface of the cover part, and a ventilation space communicating from the cylindrical part to the opening is formed by the cover part and the apparatus housing. ,
The cover part is provided with a lid that covers the opening so as to be freely opened and closed.
An air supply device in which a space is formed between the lid and the main body of the cover in the open state of the lid ,
The lid is
The upper surface side central portion is configured by a curved surface material that is raised, and the device casing side edge of the lid body is formed in a concave shape compared to the left and right end portions,
The lid is pivotally supported by the cover at the left and right ends.
An air supply device characterized by. An air supply device according to claim 1;
An exhaust device for exhausting the indoor air to the outdoors,
The air supplied by the air supply device is exhausted to the outdoors by the exhaust device, and the indoor air is replaced.
Ventilation system featuring.

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