JP2008014544A - Blowout unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a blowout unit 10 installed on a system ceiling, capable of being installed in both of an installation state for covering a frame of a frame member 30 and an installation state for opening a part of the frame of the frame member 30. <P>SOLUTION: A first constitutional face 35 of a casing 34 is formed into the shape corresponding to the frame of the frame member 30 of the system ceiling. This blowout unit 10 is constituted to be installed in both of a first installation state where the casing 34 is fitted to the frame of the frame member 30 in a state that the first constitutional face 35 is a bottom surface, a duct 15 is connected to a second opening 27, and a first opening 26 is applied as a blowout port, and a second installation state where the casing 34 is fitted to the frame of the frame member 30 in a state that the second constitutional face 36 is a bottom surface, the duct 15 is connected to the first opening 26, and the second opening 27 is formed as a blowout port. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a blowing unit for supplying conditioned air supplied through a duct into a room.

  2. Description of the Related Art Conventionally, there is known a blow-out unit that is installed on a ceiling portion of a building and blows conditioned air flowing from a duct into a room. The blowing unit is connected to an indoor unit of an air conditioner installed, for example, behind the ceiling via a duct, and is installed so that conditioned air from the indoor unit can be blown into the room.

Patent Document 1 discloses a blowout chamber as this type of blowout unit. This blowing chamber is installed in the ceiling space between the ceiling of the building and the ceiling plate. The blowout unit is fitted into the opening of the ceiling plate so that the blowout outlet faces the indoor space, and one end of the blowout duct is connected to the side surface. The other end of the blowout duct is connected to the unit body of the air conditioner. In the blowout chamber, conditioned air cooled or heated by the unit main body flows in through the blowout duct, flows through the inside, and is blown out from the blowout opening to the room.
JP 2006-38378 A

  In recent years, so-called system ceilings are often used in office buildings and the like. The system ceiling is configured, for example, by suspending a frame member for a system ceiling formed in a lattice shape from a housing of a building and attaching a ceiling plate, a lighting fixture, or the like to the frame member.

  Here, on the system ceiling, an indoor unit of an air conditioner may be installed on the back of the ceiling, for example, and a blowout unit connected to the indoor unit via a duct may be attached to the frame member. The blowout unit for the system ceiling is generally formed by forming a component surface with a blowout outlet in accordance with the shape of the frame of the frame member, and is installed in a state of closing the frame of the frame member. However, when configuring the system ceiling, there are cases where it is desired to install the blowout unit in a state in which a part of the frame of the frame member is open. For example, it is a case where it is desired to install a lighting fixture or the like in the same frame of the frame member. In such a case, the conventional system ceiling blowing unit cannot be used as it is, and another blowing unit is required.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a blower unit installed on a system ceiling even if the blower unit is installed in a state where the frame member frame is closed. It is to be configured so that it can be installed even in an installation state where the part is open.

  The first invention includes a casing (34) in which an air passage (25) that circulates until the conditioned air supplied through the duct (15) is blown out into the room is provided inside the system ceiling. Targeted blowout unit (10). In the blowout unit (10), the casing (34) is formed in a flat box shape in which a pair of opposing constituent surfaces has a shape corresponding to the frame of the frame member (30) of the system ceiling. In the casing (34), the first opening (26) is adjacent to the first component surface (35) in the first component surface (35) having a shape corresponding to the frame of the frame member (30). A second opening (27) is formed in each of the second component surfaces (36), and the casing (34) is fitted into the frame of the frame member (30) with the first component surface (35) being the bottom surface. The first opening state in which the duct (15) is connected to the second opening (27) and the first opening (26) serves as the outlet, and the casing (34) has the second component surface (36). The duct (15) is connected to the frame of the frame member (30) in a state of being a bottom surface, the duct (15) is connected to the first opening (26), and the second opening (27) is the outlet. Is installed can configured in any of the second installation state made.

  In the first invention, the first component surface (35) of the casing (34) is formed in a shape corresponding to the frame of the frame member (30) of the system ceiling. Therefore, in the first installation state in which the first component surface (35) is the bottom surface, the casing (34) is in a state of closing the frame of the frame member (30). Further, since the casing (34) is formed in a flat box shape, the casing (34) has the largest area of the first component surface (35) and the component surface opposed thereto. Therefore, the area of the second component surface (36) adjacent to the first component surface (35) is smaller than that of the first component surface (35). That is, the second component surface (36) is smaller than the frame of the frame member (30).

  According to a second aspect of the present invention, in the first aspect of the invention, the air flowing into the air passage (25) from the duct (15) is sent to the air passage (25) of the casing (34) to the air outlet. Fan unit (12) is provided.

  In the second invention, the amount of conditioned air blown into the room is adjusted by the fan unit (12). The fan unit (12) is installed in an air passage (25) communicating with the room through the air outlet.

  In a third aspect based on the second aspect, the fan unit (12) faces the first air opening (23) facing the first opening (26) and the second opening (27). A fan housing (14) in which a second air blowing port (24) and an air inlet (20) opening to the side are formed, and a state in which a large number of blades are arranged in the rotation direction in the fan housing (14) An impeller (13) provided in the above, a first lid member (21) for opening and closing the first air blowing port (23), and a first lid for opening and closing the second air blowing port (24). Two lid members (22), and in the first installation state, the first lid member (21) sets the first air blowing port (23) to the open state and the second lid. The second air outlet (24) is set in a closed state by the member (22). In the second installation state, the first air outlet (23) is set by the first lid member (21). The second air duct (24) is set to an open state by being set to a state in the second cover member (22).

  In the third aspect of the invention, in the first installation state, the conditioned air flowing into the air passage (25) from the second opening (27) to which the duct (15) is connected is supplied to the intake port ( 20) is sucked into the fan housing (14) and blown out from the first blower opening (23) toward the first opening (26) serving as the blowout port. On the other hand, in the second installation state, the conditioned air flowing into the air passage (25) from the first opening (26) to which the duct (15) is connected is supplied from the air inlet (20) of the fan housing (14) to the fan. The air is sucked into the housing (14) and blown out from the second air blowing port (24) toward the second opening (27) serving as the air outlet. Here, the air inlet (20) of the fan housing (14) opens to the side, and is substantially the same for both the first component surface (35) and the second component surface (36). It is in a state of facing the direction. Therefore, the air inlet (20) of the fan housing (14) is also connected to the duct (15) in the second installed state with respect to the first opening (26) to which the duct (15) is connected in the first installed state. The second opening (27) to which is connected is generally in the same direction.

  According to a fourth invention, in any one of the first to third inventions, the air passage (25) of the casing (34) straddles the first opening (26) and the second opening (27). The filter member (40) attached by is provided.

  In the fourth invention, the filter member (40) is attached in a state of straddling the first opening (26) and the second opening (27). That is, the filter member (40) is shared by the first opening (26) and the second opening (27).

  In a fifth aspect based on the fourth aspect, the filter member (40) inserted from the first opening (26) is inserted into the air passage (25) of the casing (34) in the second opening (27). Guide members (43, 44) for guiding the filter member (40) inserted from the second opening (27) to the first opening (26) side are provided.

  In the fifth invention, when the filter member (40) is inserted from the first opening (26), the filter member (40) is guided to the second opening (27) side by the guide members (43, 44). On the other hand, when the filter member (40) is inserted from the second opening (27), the guide member (43, 44) guides the filter member (40) toward the first opening (26). In other words, in the fifth aspect of the invention, the filter member (40) is inserted by the guide member (43, 44) regardless of whether the filter member (40) is inserted from the first opening (26) or the second opening (27). ) Is guided across the first opening (26) and the second opening (27).

  In the present invention, in the first installation state, the casing (34) closes the frame of the frame member (30). The second component surface (36) is smaller than the frame of the frame member (30). Accordingly, in the second installation state, a part of the frame of the frame member (30) is in an open state. Therefore, the blowout unit (10) of the present invention is installed in either the first installation state where the frame of the frame member (30) is closed or the second installation state where a part of the frame of the frame member (30) is opened. can do. In the second installation state, a part of the frame of the frame member (30) in which the blowing unit (10) is installed is in an open state, so that the lighting unit (10) and other lighting fixtures (9) are adjacent to the blowing unit (10). Equipment can be installed, and variations in the configuration of the system ceiling can be increased.

  In the second aspect of the invention, the fan unit (12) for adjusting the amount of conditioned air blown into the room is installed in the air passage (25) communicating with the room through the air outlet. The fan unit (12) is installed downstream of the duct (15). Therefore, since the amount of conditioned air blown into the room is not easily affected by the duct (15), the amount of conditioned air blown into the room can be easily adjusted.

  In the third invention, the air inlet (20) of the fan housing (14) is also installed in the second opening with respect to the first opening (26) to which the duct (15) is connected in the first installed state. The second opening (27) to which the duct (15) is connected in the state is generally directed in the same direction. That is, in the first installation state and the second installation state, the air inlet (20) of the fan housing (14) has the same positional relationship with the openings (26, 27) into which the conditioned air flows. Accordingly, the pressure loss that the conditioned air that has flowed into the air passage (25) receives until reaching the air outlet becomes substantially equal between the first installation state and the second installation state. Can be suppressed.

  In the fourth invention, the filter member (40) is shared by the first opening (26) and the second opening (27). Therefore, the configuration of the fan unit (12) can be simplified as compared with the case where filter members are provided separately for the first opening (26) and the second opening (27).

  In the fifth invention, the guide member (43, 44) is provided so that the filter member (40) can be inserted through the first opening (26) or the second opening (27). The member (40) is guided so as to straddle the first opening (26) and the second opening (27). Therefore, the filter member (40) can be attached relatively easily from the first opening (26) and the second opening (27).

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

  As shown in FIG. 1, the blowout unit (10) of the present embodiment is connected to a duct (15) and supplies conditioned air supplied through the duct (15) to the room. This blowing unit (10) is configured as a blowing unit for the system ceiling. Below, the system ceiling in which the blowing unit (10) which concerns on this embodiment is first installed is demonstrated, and the blowing unit (10) which concerns on this embodiment is demonstrated next.

-System ceiling configuration-
As shown in FIG. 2, the system ceiling includes a frame member (30) for the system ceiling. The frame member (30) is suspended from the ceiling of the building frame via a rod-shaped suspension member (32). The frame member (30) is configured by assembling straight frame constituent members (31, 31,...) In a lattice shape. Each frame of the frame member (30) is, for example, a square having a side of 60 cm. In general, a square frame member (30) having a side of 60 cm or a square frame member (30) having a side of 64 cm is often used for the system ceiling. On the system ceiling, a ceiling plate or the like is attached so as to close each frame of the frame member (30).

  The frame component member (31) has a substantially T-order cross-sectional shape. The frame component member (31) includes a flange portion (31a) having a flat upper surface and a web portion (31b) extending upward from the center of the upper surface of the flange portion (31a).

-Composition of blowout unit-
As shown in FIG. 1, the blowing unit (10) includes a casing (34) formed in a flat rectangular parallelepiped box shape. In the casing (34), the first opening (26) is formed in the first component surface (35) which is one of the pair of component surfaces having the largest area, and the second opening adjacent to the first component surface (35). A second opening (27) is formed in the component surface (36). In the casing (34), a space between these openings (26, 27) is a rectangular parallelepiped air passage (25). In the air passage (25), conditioned air supplied through the duct (15) flows toward the room.

  In the casing (34), the first component surface (35) is formed in a square shape. The first component surface (35) has a side slightly shorter than 60 cm, and is slightly smaller than the shape of the inner peripheral portion of the web portion (31b) in the frame of the frame member (30). That is, the first component surface (35) has a shape corresponding to the frame of the frame member (30) of the system ceiling.

  Moreover, in the casing (34), the 2nd component surface (36) is formed in the rectangle. In the second component surface (36), the side shared by the first component surface (35) and the second component surface (36) (hereinafter referred to as “shared side”) and the opposite side are It is the same length as one side of one constituent surface (35). Further, in the second configuration surface (36), a pair of sides connecting the shared side and the side facing the shared side is shorter than one side of the first configuration surface (35). In other words, in the second configuration surface (36), the shared side and the side facing the shared side are approximately the same length as one side of the frame of the frame member (30), and connects the shared side and the side facing the shared side. The pair of sides is shorter than one side of the frame of the frame member (30).

  On the first component surface (35), the first opening (26) is formed in a square shape slightly smaller than the first component surface (35). The width around the first opening (26) in the first component surface (35) is uniform over the entire circumference. On the second component surface (36), the second opening (27) is formed in a rectangular shape slightly smaller than the second component surface (36). The width around the second opening (27) in the second component surface (36) is uniform over the entire circumference.

  The blowing unit (10) of the present embodiment is configured to be installable in either of two installation states. In the first installation state, as shown in FIG. 2A, the casing (34) is fitted into the frame of the frame member (30) so that the first component surface (35) is the bottom surface. In the second installation state, as shown in FIG. 2B, the casing (34) is fitted into the frame of the frame member (30) so that the second component surface (36) is the bottom surface.

  When installing the blowout unit (10) in the first installed state, before fitting the casing (34) into the frame of the frame member (30), connect the thin plate-like duct to the second component surface (36). A member (16) is attached. The duct connecting member (16) has the same size as the second component surface (36), and a circular hole for connecting the duct (15) is formed in the center. Then, the casing (34) is fitted into the frame of the frame member (30) by adjusting the height of the casing (34) from a state in which the casing (34) is suspended from the housing of the building via the hanging metal fittings. The casing (34) is placed inside the web portion (31b) of the frame component (31), and the outer peripheral portion is placed on the flange portion (31a) over the entire circumference. When the casing (34) is fitted into the frame of the frame member (30), one end of the duct (15) is connected to the second opening (27) via the duct connecting member (16). The other end of the duct (15) is connected to an indoor unit of an air conditioner installed adjacent to the blowout unit (10) behind the system ceiling. A decorative panel (19) having the same size as that of the first component surface (35) is attached to the first component surface (35). Thereby, the conditioned air whose temperature is adjusted by the indoor unit flows into the air passage (25) from the second opening (27) through the duct (15), and is blown out into the room from the first opening (26).

  When installing the blowout unit (10) in the second installed state, before fitting the casing (34) into the frame of the frame member (30), connect the thin plate-like duct to the first component surface (35). A member (17) is attached. The duct connecting member (17) has the same size as the first component surface (35), and a circular hole for connecting the duct (15) is formed in the center. Then, the casing (34) is fitted into the frame of the frame member (30) by adjusting the height of the casing (34) from a state in which the casing (34) is suspended from the housing of the building via the hanging metal fittings. The casing (34) is placed inside the web part (31b) of the frame component member (31), and a pair of sides connecting the shared side and the side opposite to the outer peripheral part are placed on the flange part (31a). become. When the casing (34) is fitted into the frame of the frame member (30), one end of the duct (15) is connected to the first opening (26) via the duct connecting member (17). The other end of the duct (15) is connected to the indoor unit. In addition, a decorative panel (19) having the same size as the second component surface (36) is attached to the second component surface (36). Thereby, the conditioned air whose temperature is adjusted by the indoor unit flows from the first opening (26) into the air passage (25) through the duct (15), and is supplied to the indoor space from the second opening (27). .

  In the present embodiment, when the thickness of the duct connecting member (16) attached to the second component surface (36) is relatively large, the casing (34) has the thickness of the duct connecting member (16). Considering this, the distance between the second component surface (36) and the component surface facing the second component surface (36) is formed to be shorter than that in the above embodiment. That is, the first component surface (35) is formed in a shape corresponding to the frame of the frame member (30) of the system ceiling in consideration of the thickness of the duct connecting member (16).

-Effect of the embodiment-
In the above embodiment, in the first installation state, the casing (34) is in a state of closing the frame of the frame member (30). The second component surface (36) is smaller than the frame of the frame member (30), and a part of the frame of the frame member (30) is opened in the second installation state. Therefore, the blowout unit (10) of the present invention is installed in either the first installation state where the frame of the frame member (30) is closed or the second installation state where a part of the frame of the frame member (30) is opened. can do. In the second installation state, a part of the frame of the frame member (30) in which the blowing unit (10) is installed is in an open state, so that the lighting unit (10) and other lighting fixtures (9) are adjacent to the blowing unit (10). Equipment can be installed, and variations in the configuration of the system ceiling can be increased.

-Modification 1 of embodiment-
A first modification of the embodiment will be described. In the first modification, as shown in FIGS. 3 and 4, a fan unit (12) composed of a so-called sirocco fan is provided in the air passage (25) of the casing (34). The fan unit (12) includes a fan motor (11), an impeller (13), a fan housing (14), a first lid member (21), and a second lid member (22).

  The fan motor (11) is attached to a constituent surface facing the first constituent surface (35) via a fixture. The impeller (13) is connected to the rotating shaft of the fan motor (11) and is accommodated in the fan housing (14). The impeller (13) is formed in a substantially cylindrical shape, and a plurality of blades are arranged in the rotational direction on the side portion. The side of the impeller (13) has a gap between the blades.

  The fan housing (14) is formed in a substantially cylindrical shape having two projecting portions extending in the tangential direction. In the fan housing (14), the protruding directions of the two protruding portions are orthogonal to each other. A first blower port (23) is formed at the tip of one projecting portion of the fan housing (14), and a second blower port (24) is formed at the tip of the other projecting portion. The first air blowing port (23) faces the first opening (26), and the second air blowing port (24) faces the second opening (27). An air inlet (20) is formed on one bottom surface of the cylindrical portion of the fan housing (14).

  The first lid member (21) is formed in a plate shape. The first lid member (21) is fixed to a pin member attached to the fan housing (14) so as to cross the first air blowing port (23). The first air outlet (23) is opened and closed by rotating the first lid member (21) around the pin member. Similarly, the second lid member (22) is formed in a plate shape. The 2nd cover member (22) is being fixed to the pin member attached to the fan housing (14) so that the 2nd ventilation opening (24) may be crossed. The second air outlet (24) is opened and closed by rotating the second lid member (22) around the pin member.

  In the first modification, when the blowing unit (10) is installed in the first installation state, as shown in FIG. 4 (A), the first air outlet (23) is provided by the first lid member (21). Is set in the open state, and the second air outlet (24) is set in the closed state by the second lid member (22). Moreover, when installing the blowing unit (10) in the second installation state, as shown in FIG. 4B, in the second installation state, the first air outlet ( 23) is set to the closed state, and the second air outlet (24) is set to the open state by the second lid member (22). In the first modification, the fan unit (12) is configured to be able to cope with the first installation state and the second installation state and to easily switch between them.

  In the first modification, the fan unit (12) for adjusting the amount of conditioned air blown into the room is installed in the air passage (25) communicating with the room through the air outlet. The fan unit (12) is installed downstream of the duct (15). Therefore, since the amount of conditioned air blown into the room is not easily affected by the duct (15), the amount of conditioned air blown into the room can be easily adjusted.

  In the first modification, the air inlet (20) of the fan housing (14) is also installed in the second opening with respect to the first opening (26) to which the duct (15) is connected in the first installation state. The second opening (27) to which the duct (15) is connected in the state is generally directed in the same direction. That is, in the first installation state and the second installation state, the air inlet (20) of the fan housing (14) has the same positional relationship with the openings (26, 27) into which the conditioned air flows. Accordingly, the pressure loss that the conditioned air that has flowed into the air passage (25) receives until reaching the air outlet becomes substantially equal between the first installation state and the second installation state. Can be suppressed.

-Modification 2 of embodiment-
A second modification of the embodiment will be described. In this modification 2, as shown in FIG. 5, the blowing unit (10) includes a filter member (40). The filter member (40) is attached in a state straddling the first opening (26) and the second opening (27) in the air passage (25) of the casing (34).

  Specifically, the filter member (40) is formed in a substantially rectangular shape. The filter member (40) is configured by attaching a mesh-like filter to a frame-like member so as to have flexibility. The filter member (40) has a width substantially equal to the width of the air passage (25) and a length longer than the depth of the air passage (25).

  Two fitting grooves (41), an inner guide member (43), and an outer guide member (44) are provided inside the casing (34). The fitting groove (41) is for fitting the end of the filter member (40). The fitting groove (41) is located on the third component surface (37) facing the first component surface (35) and closer to the second component surface (36) and on the second component surface (36). It is provided at a position closer to the first component surface (35) in the fourth component surface (38) facing each other.

  The inner guide member (43) and the outer guide member (44) are arranged such that, when the filter member (40) is attached from the first component surface (35) side, the end of the filter member (40) is connected to the third component surface ( 37) is guided to the fitting groove (41), and when the filter member (40) is attached from the second component surface (36) side, the end of the filter member (40) is connected to the fourth component surface (38). It is for guiding to the fitting groove (41). The inner guide member (43) and the outer guide member (44) are respectively provided on the fifth component surface facing the air inlet (20) of the fan housing (14) and the sixth component surface facing this. ing. The inner guide member (43) and the outer guide member (44) slightly protrude from each of the fifth component surface and the sixth component surface. The inner guide member (43) extends in a curved state outwardly from the vicinity of the middle of the first component surface (35) toward the upper position of the second component surface (36) in the first installation state. Yes. The outer guide member (44) is formed in a columnar shape and is disposed outside the inner guide member (43).

  When the filter member (40) is attached from the first opening (26) side, the filter member (40) is inserted between the inner guide member (43) and the outer guide member (44), and the filter member (40) After fitting one end into the fitting groove (41) of the third component surface (37), the filter member (40) is bent and the other end is fitted into the fitting groove (41) of the fourth component surface (38). Fit. When removing the filter member (40) from the first opening (26), after removing the other end of the filter member (40) from the fitting groove (41) of the fourth component surface (38), 40) Pull out.

  On the other hand, when attaching the filter member (40) from the second sea mouth (27), the filter member (40) is inserted between the inner guide member (43) and the outer guide member (44), and the filter member (40). One end of the filter is fitted into the fitting groove (41) of the fourth component surface (38), the filter member (40) is bent, and the other end is fitted into the fitting groove (41) of the third component surface (37). Fit into. When removing the filter member (40) from the second opening (27), after removing the other end of the filter member (40) from the fitting groove (41) of the third component surface (37), 40) Pull out.

  In the second modification, one filter member (40) is shared by the two openings of the first opening (26) and the second opening (27). Therefore, the structure of the blowing unit (10) when the filter member (40) is provided can be simplified.

  Moreover, in this modification 2, since the inner side guide member (43) and the outer side guide member (44) are provided, the filter member (40) from each of the 1st opening (26) and the 2nd opening (27). Can be easily attached and removed. That is, in both the first installation state and the second installation state, the filter member (40) can be easily attached and removed from the room. Therefore, the maintenance work of the filter member (40) is facilitated.

<< Other Embodiments >>
About the said embodiment, as shown in FIG. 6, you may form a level | step difference around the 1st opening (26) in the 1st structural surface (35) of a casing (34). In this case, chamfering is performed over the entire circumference of the corner portion that is the lower side of the step in the first installation state. Thereby, when installing the casing (34), even if the casing (34) is slightly displaced from the frame of the frame member (30), the casing (34) is not easily caught by the frame of the frame member (30). 34) is easy to install. Similarly, a step may be formed around the second opening (27) in the second component surface (36) of the casing (34), and the angle below the step in the second installation state. The part may be chamfered over the entire circumference.

  In the above embodiment, a fixing member for fixing the blowing unit (10) to the frame of the frame member (30) may be provided in the casing (34). For example, the fixing member is provided on the outer edge of the first component surface (35) or the second component surface (36) of the casing (34), and the frame component members (31, 31,...) Are sandwiched by screws or the like. Is configured as possible. As a result, the blowout unit (10) can be stably fixed to the frame member (30) without detaching due to, for example, an earthquake without being suspended from the building frame, so the blowout unit (10) is suspended from the building frame. The work of lowering can be omitted.

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for a blowout unit for supplying conditioned air supplied through a duct into a room.

It is a longitudinal cross-sectional view of the blowing unit which concerns on embodiment of this invention. It is a perspective view of the state which installed the blowing unit which concerns on embodiment of this invention in the system ceiling, (A) shows a 1st installation state, (B) shows a 2nd installation state. is there. It is a cross-sectional view of the blowing unit which concerns on the modification 1 of embodiment of this invention. It is a side view inside the blowing unit which concerns on the modification 1 of embodiment of this invention, (A) shows a 1st installation state, (B) shows a 2nd installation state. . It is a side view inside the blowing unit which concerns on the modification 2 of embodiment of this invention. It is an expansion longitudinal cross-sectional view around the opening of the 1st structure surface of the blowing unit which concerns on other embodiment.

Explanation of symbols

10 Blowout unit
12 Fan unit
13 impeller
14 Fan housing
15 Duct
20 Inlet
21 First lid member
22 Second lid member
23 First air vent
24 Second air vent
25 Air passage
26 Opening
27 opening
30 Frame member
34 Casing
35 First component
36 Second component
40 Filter members
43 Inner guide member
44 Outer guide member

Claims (5)

This is a blowout unit installed on the system ceiling, which has a casing (34) with an air passage (25) that circulates until the conditioned air supplied through the duct (15) is blown into the room. And
The casing (34) is formed in a flat box shape in which a pair of opposing constituent surfaces has a shape corresponding to the frame of the frame member (30) of the system ceiling,
In the casing (34), the first opening (26) is adjacent to the first component surface (35) in the first component surface (35) having a shape corresponding to the frame of the frame member (30). A second opening (27) is formed in each matching second component surface (36);
The casing (34) is fitted into the frame of the frame member (30) with the first component surface (35) being the bottom surface, the duct (15) is connected to the second opening (27), and the first opening (26) is fitted into the frame of the frame member (30) with the casing (34) serving as a bottom surface and the casing (34) serving as a bottom surface with the second component surface (36) serving as a bottom surface. A blowout unit characterized in that the duct (15) is connected to (26) and the second opening (27) can be installed in any of the second installation states in which the blowout port is formed. In claim 1,
The air passage (25) of the casing (34) is provided with a fan unit (12) for sending the air flowing into the air passage (25) from the duct (15) to the outlet. Characteristic blowout unit. In claim 2,
The fan unit (12) has a first blower opening (23) facing the first opening (26) and a second blower opening (24) facing the second opening (27), and the side opening. A fan housing (14) formed with a suction port (20) to be formed, an impeller (13) housed in the fan housing (14) and provided with a large number of blades arranged in a rotational direction, and the first A first lid member (21) for opening and closing one air blowing port (23), and a second lid member (22) for opening and closing the second air blowing port (24),
In the first installation state, the first air outlet (23) is set in an open state by the first lid member (21), and the second air outlet (24) is set by the second lid member (22). Is set to the closed state, and in the second installation state, the first air blowing port (23) is set to the closed state by the first lid member (21) and the second lid member (22) The blower unit characterized by the 2 air outlets (24) being set to an open state. In any one of Claims 1 thru | or 3,
The blowout unit comprising a filter member (40) attached in a state straddling the first opening (26) and the second opening (27) in the air passage (25) of the casing (34). In claim 4,
In the air passage (25) of the casing (34), the filter member (40) inserted from the first opening (26) is guided to the second opening (27) side, and the second opening (27) A blowout unit, characterized in that a guide member (43, 44) is provided for guiding the filter member (40) inserted from the side toward the first opening (26).

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