JP5516148B2 - Outer wall panel and outer wall panel structure of air conditioner - Google Patents

Description

    The present invention relates to an outer wall panel constituting a casing of an air conditioner and an outer wall panel structure including two outer wall panels joined vertically.

    Conventionally, an air conditioner called an air handling unit has been used (see Patent Document 1 below). In the air conditioner, a hot water coil, a cooling coil, a blower fan, and the like are incorporated in a casing in which an air inlet and an outlet are formed. In the above air conditioner, air (outside air or room air) outside the casing is drawn into the inside from the inlet through a duct or the like due to the operation of the blower fan, and hot water in the hot water coil or cold water and heat in the cooling coil. After the replacement, it is supplied into the room from the outlet through a duct or the like. The indoor air is heated or cooled by the supplied air, whereby the temperature of the indoor air is adjusted.

    In the air conditioner, since the cooling coil is provided inside the casing, the casing is cooled by the air in the vicinity of the cooling coil, and there is a possibility that condensation occurs on the outer surface of the casing. Therefore, in the above air conditioner, a plurality of outer wall panels constituting the outer wall of the casing are formed in a heat insulating structure to prevent dew condensation on the outer surface of the casing. Specifically, the outer wall panel is formed by connecting the inner plate and the outer plate with a resin outer frame to form a box, and filling the inside of the box with urethane resin to form a heat insulating layer. Has been.

Japanese Patent Laid-Open No. 10-9607

    By the way, before filling the urethane foam resin between the inner plate and the outer plate, the outer frame must have a function as a spacer that forms a filling space between the inner plate and the outer plate. . However, in the above air conditioner, the outer frame has an H-shaped cross section, and is configured to connect both plates by sandwiching the rising portions of the outer edge of the inner plate and the outer plate. Because of this shape, the outer frame is in point contact with the outer plate and the inner plate. For example, when the outer frame is formed in the above shape with a soft material such as soft resin, the load on the outer plate or the inner plate can be supported. There was a possibility that it would not break and could not function as a spacer. Therefore, in the above air conditioner, the outer frame is formed by extrusion molding of a hard resin to ensure the strength for exerting the spacer function.

    However, when the outer frame is manufactured by extruding a hard resin, there is a problem that the cost increases. Moreover, in the said air conditioning apparatus, since the vinyl chloride synthetic resin was used as said hard resin, there also existed a problem that an environmental load became high.

    The present invention has been made in view of the above points, and an object of the present invention is to provide an outer wall panel structure including an outer wall panel constituting a casing of an air conditioner and two outer wall panels joined vertically, and the manufacturing cost and The purpose is to reduce the environmental burden.

The first invention is the heat insulation filled between the outer plate (33), the inner plate (34) facing the outer plate (33), and the outer plate (33) and the inner plate (34). An outer wall panel of an air conditioner provided with a heat insulating layer (32) formed of a material, wherein the outer plate (33) is formed of a steel plate and has a flat outer plate main body (33a) and the outer panel. A frame-shaped side wall (33b) extending from the outer peripheral edge of the plate main body (33a) to the inner plate (34) and surrounding a part of the side surface of the heat insulating layer (32), and the side wall (33b) A frame-like facing portion (33c) continuously extending in parallel with the outer edge portion of the inner plate (34), and the inner plate (34) is formed of a steel plate, and the outer plate main body portion (33a) A flat inner plate main body portion (34a) that faces the frame, and a frame-shaped side wall portion (34b) extending from the outer peripheral edge of the inner plate main body portion (34a) toward the side wall portion (33b) of the outer plate (33). ) and it has, depending on the foam Is formed, the outer edge of the opposing portion (33c) outer abutment surface to abut Ru is adhered to the outer plate (33) and (35a), the inner plate body portion of the inner plate (34) (34a) inner abutment surface which abut Ru is adhered to the part and (35b), and an outer surface which is surrounded by the frame-like the side wall portion of the inner plate (34) (34b), the outer plate (33) The opposing portion (33c) of the outer plate (33) so that a gap (36) is formed between the sidewall portion (33b) of the inner plate (34) and the sidewall portion (34b) of the inner plate (34). A frame-shaped spacer member (35) sandwiched between the inner plate (34) and the outer edge portion of the inner plate main body (34a ) is provided.

    In the first invention, the spacer member (35) that forms a space for filling the heat insulating material for forming the heat insulating layer (32) between the outer plate (33) and the inner plate (34) is provided on the outer abutting surface. (35a) and an inner contact surface (35b). That is, the frame-shaped spacer member (35) is configured to be in surface contact with each of the outer edge portion of the outer plate (33) and the outer edge portion of the inner plate (34). By the way, before the heat insulating material is filled between the outer plate (33) and the inner plate (34), the spacer member (35) supports the load of the outer plate (33) or the inner plate (34) to insulate. Although the material filling space is formed, the load of the outer plate (33) or the inner plate (34) can be received by the surface by being configured as described above. Therefore, even if the spacer member (35) is formed of a foam softer than the hard resin, there is no possibility that the spacer member (35) is broken by the load of the outer plate (33) or the inner plate (34).

In the first invention, the outer plate (33) has an outer plate main body portion (33a), a side wall portion (33b), and a facing portion (33c), and the outer edge portion is formed in a U-shaped cross section. Yes. The spacer member (35) is sandwiched between the facing portion (33c) extending in parallel with the outer edge portion of the inner plate (34) and the outer edge portion of the inner plate (34). Therefore, since the cross-sectional area of the spacer member (35) is smaller than when the outer plate (33) is formed in a flat plate shape, the spacer member (35) made of a foam is easily bent. Further, by forming the outer edge portion of the outer plate (33) in a U-shaped cross section, the heat insulating material is also filled inside the outer edge portion of the outer plate (33). Thereby, a heat insulating material adhere | attaches to the outer edge of an outer plate | board (33), and an outer plate | board (33) becomes difficult to peel.

The second invention is the heat insulation filled between the outer plate (43), the inner plate (44) facing the outer plate (43), and the outer plate (43) and the inner plate (44). An outer wall panel of an air conditioner comprising a heat insulating layer (42) formed of a material, wherein the inner plate (44) is formed of a steel plate and has a flat inner plate main body (44a), A support leg (44b) extending from the plate body (44a) to the vicinity of the outer plate (43) in the thickness direction of the heat insulating layer (42), and the outer plate (43) is formed of a steel plate. A flat outer plate body portion (43a), and a side wall portion (43b) extending from the outer edge of the outer plate body portion (43a) to the inner plate (43) side and surrounding the side surface of the heat insulating layer (42), A frame plate portion (43c) surrounding the inner plate main body portion (44a) with a gap (46) on the same plane as the inner plate main body portion (44a) continuously from the side wall portion (43b). Of the inner plate (44) The support leg (44b) is configured by a frame-shaped side wall (44b) extending from the outer edge of the inner plate main body (44a) to the outer plate (43), and the side wall (44b) A plurality of notches (45) through which the heat insulating material passes when the heat insulating material is filled are formed .

In the second invention, since the inner plate (44) has the support legs (44b), before the heat insulating material is filled between the outer plate (43) and the inner plate (44), the outer plate (44) The support leg (44b) of the inner plate (44) inside the frame plate (43c) with the plate (43) positioned above the outer plate body (43a). Is placed on the outer plate main body (43a), so that the inner plate (44) is self-supporting on the outer plate main body (43a). Thereby, the space for filling the heat insulating material is ensured between the outer plate (43) and the inner plate (44).

In a third aspect based on the second aspect , the support leg (44b) is formed integrally with the inner plate main body (44a) continuously to the outer edge of the inner plate main body (44a). .

In the third invention, the support leg portion (44b) is formed integrally with the inner plate main body portion (44a) continuously to the outer edge of the inner plate main body portion (44a).

A fourth invention is a first outer wall panel (30) which is an outer wall panel according to the first invention, an outer plate (43), an inner plate (44) facing the outer plate (43), and the outer A heat insulating layer (42) formed of a heat insulating material filled between the plate (43) and the inner plate (44), and vertically joined to a side surface of the first outer wall panel (30). An outer wall panel structure of an air conditioner comprising two outer wall panels (40), wherein the inner plate (44) of the second outer wall panel (40) includes a flat inner plate body (44a), A support leg (44b) extending from the inner plate main body (44a) to the vicinity of the outer plate (43) in the thickness direction of the heat insulating layer (42), and the outer surface of the second outer wall panel (40). The plate (43) includes a flat outer plate main body (43a) and a side wall that extends from the outer edge of the outer plate main body (43a) to the inner plate (43) and surrounds the side surface of the heat insulating layer (42). (43b) and the side A frame plate portion (43c) surrounding the inner plate main body portion (44a) with a gap (46) on the same plane as the inner plate main body portion (44a) continuously to the wall portion (43b), In the first outer wall panel (30) and the second outer wall panel (40), the gap (36) of the first outer wall panel and the gap (46) of the second outer wall panel (40) face each other. And the said frame board part (43c) of the said 2nd outer wall panel (40) is provided so that it may contact | abut to the said side wall part (33b) of the said 1st outer wall panel (30).

In the fourth invention, the first outer wall panel (30) and the second outer wall panel (40) joined perpendicularly to the side surface of the first outer wall panel (30) are formed on the side surface of the first outer wall panel. The gap (36) and the gap (46) formed on the inner surface of the second outer wall panel (40) are opposed to each other, and the frame plate portion (43c) of the second outer wall panel (40) is the first outer wall panel (30 ) In contact with the side wall (33b). Thereby, the outer plate (33) of the first outer wall panel (30) does not contact the inner plate (44) of the second outer wall panel (40) and the inner plate (34) of the first outer wall panel (30) The first outer wall panel (30) and the second outer wall panel (40) can be joined so as not to contact the outer plate (43) of the two outer wall panels (40). Therefore, the outer plate (30) of the first outer wall panel (30) does not have to be sandwiched between the first outer wall panel (30) and the second outer wall panel (40). 33) and the inner plate (44) of the second outer wall panel (40) and between the inner plate (34) of the first outer wall panel (30) and the outer plate (43) of the second outer wall panel (40). The space can be insulated.

    According to the first invention, the frame-like spacer member (35) is in surface contact with the outer edge portion of the outer plate (33) and the outer edge portion of the inner plate (34) to form a space for filling the heat insulating material. Therefore, there is no possibility that the spacer member (35) is broken by the load of the outer plate (33) or the inner plate (34), and the spacer member (35) is formed of a foam softer than the conventional hard resin. However, the space for filling the heat insulating material can be formed. Therefore, by using a soft foam for the spacer member (35), the spacer member (35) can be easily bent and formed into a frame shape. In addition, since the foam is relatively inexpensive, the manufacturing cost of the spacer member (35) can be reduced. Therefore, the manufacturing cost of the outer wall panel can be reduced.

    Further, according to the first invention, as in the prior art, since the foam is used for the spacer member and the vinyl chloride synthetic resin is not used, it is possible to reduce the environmental load. Furthermore, since the foam has better heat insulation than hard resin such as vinyl chloride synthetic resin, the heat insulation function of the spacer member (35) can be improved.

Further, according to the first invention, the cross-sectional area of the spacer member (35) can be reduced compared to the case where the outer plate (33) is formed in a flat plate shape, and the spacer member (35) Bending formation can be facilitated. Moreover, since the heat insulating material adheres to the outer edge of the outer plate (33) by forming the outer edge portion of the outer plate (33) to have a U-shaped cross section, the outer plate (33) is separated from the heat insulating layer (32). Peeling can be suppressed.

Further, according to the second invention, since the inner plate (44) is configured to have the support leg (44b), the heat insulating material is filled between the outer plate (43) and the inner plate (44). Before, make the inner plate (44) stand on the outer plate body (43a) with the outer plate (43) positioned above the outer plate body (43a). Can do. In addition, the outer edge portion of the outer plate (43) is bent and formed so that the conventional outer frame is formed by the outer plate (43), so that an outer frame formed by extrusion molding of a hard resin as in the prior art is not used. The space for filling the heat insulating material can be secured between the outer plate (43) and the inner plate (44). Therefore, manufacturing cost and environmental load can be reduced. Even if the support leg (44b) is made of a metal that easily conducts heat, the support leg (44b) is pushed up by the inner plate body (44a) by the heat insulating material after being filled with the heat insulating material. As a result, the support leg (44b) also rises and does not come into contact with the outer plate main body (43a), so that it can be thermally insulated from the outer plate (43) to ensure sufficient heat insulation.

According to the third invention, the support leg (44b) can be easily formed by forming it integrally with the inner plate main body (44a).

According to the fourth aspect of the present invention, the first outer wall panel can be formed without sandwiching a conventional outer frame made of vinyl chloride resin between the first outer wall panel (30) and the second outer wall panel (40). Even if the side surface of (30) and the inner surface of the second outer wall panel (40) are brought into contact with each other, the outer plate (33) of the first outer wall panel (30) and the inner plate of the second outer wall panel (40) (44) and between the inner plate (34) of the first outer wall panel (30) and the outer plate (43) of the second outer wall panel (40). That is, when joining the first outer wall panel (30) and the second outer wall panel (40) with a vinyl chloride resin outer frame sandwiched between them, a bolt or the like is provided so as to penetrate the outer frame. There was a risk that the outer frame would be deformed and the bolt could not be fastened. However, according to the above configuration, there is no such risk and both panels (30, 40) can be securely joined. Can do. Moreover, since an outer frame made of a vinyl chloride resin is not used, the environmental load can be reduced.

FIG. 1 is a perspective view of an air-conditioning apparatus according to Embodiment 1 of the present invention. FIG. 2 is a diagram showing an internal structure of the air conditioner of FIG. FIG. 3 is a perspective view showing the configuration of the box of the first panel. FIG. 4 is a cross-sectional view showing a part including the outer edge portion of the first panel. FIG. 5 is a perspective view showing the configuration of the box of the second panel. FIG. 6 is a partial cross-sectional view including an outer edge portion of the second panel. FIG. 7 is a cross-sectional view showing a joint portion between the first panel and the second panel.

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

<< Embodiment of the Invention >>
The outer wall panel according to the present invention is used as a component of the casing (2) of the air conditioner (1) as shown in FIGS. Hereinafter, the air conditioner (1) will be described.

    The air conditioner (1) is a so-called casing (2) provided with an air filter (3), a cold water coil (4), a hot water coil (5), a humidifier (6) and a blower fan (7). It constitutes an air handling unit.

    The casing (2) has a base (2f) and a plurality of outer wall panels (2a, 2b, 2c, 2d, 2e) assembled in a box shape and attached to the base (2f). In the present embodiment, the front surface (vertical surface on the near side in FIG. 1) is configured by three front panels (2a), and the rear surface (vertical surface on the rear side in FIG. 2) is configured by three back panels (2b). ing. Further, the left side surface (left vertical surface in FIG. 1) is constituted by one left side panel (2c), and the right side surface (right vertical surface in FIG. 2) is constituted by one right side panel (2d). Furthermore, the upper surface is constituted by one upper panel (2e). The casing (2) is composed of two struts (2g, 2h) extending vertically from the base (2f) toward the top panel (2e), the struts (2g, 2h), and the left panel (2c). It has beam members (2i, 2j) spanned between them, a partition plate (2l) to be described later, and a column (2k) fixed to the front surface of the partition plate (2l).

    In the present embodiment, the back panel (2b), the left panel (2c), the right panel (2d), and the top panel (2e) are fixed by screws. On the other hand, each of the three front panels (2a) is configured as a door that can rotate around a vertical axis, and maintenance of the internal devices is performed by opening the front panel (2a). Of the three front panels (2a) configured as a door, the left front panel (2a) in FIG. 1 is supported on the left panel (2c) by a hinge so as to be opened and closed. On the other hand, in FIG. 1, the middle and right front panels (2a) are supported by hinges (2k) so as to be freely opened and closed.

    In addition, an air inlet (21) and an outlet (22) are formed in the top panel (2e). The inflow port (21) is provided on the right panel (2d) side, and a duct (not shown) communicating with the outside or the room is connected to the inflow port (21). On the other hand, the outflow port (22) is provided on the left panel (2c) side, and a duct communicating with a room (not shown) is connected to the outflow port (22).

    As described above, the air filter (3), cold water is placed inside the casing (2) from the right side panel (2d) on the inlet (21) side toward the left side panel (2c) on the outlet (22) side. The coil (4), the hot water coil (5), the humidifier (6) and the blower fan (7) are installed in this order. A partition plate (2l) made of a vertical plate is provided between the air filter (3) and the cold water coil (4). The partition plate (2l) divides the internal space into an inflow side space (S1) on the inflow port (21) side and an outflow side space (S2) on the outflow port (22) side.

    The air filter (3) has a pre-filter and a main filter, and purifies the air by removing dust in the air in two stages. The cold water coil (4) and the hot water coil (5) are each constituted by a water-cooled heat exchanger. And cold water is supplied to a cold water coil (4) from the heat source machine outside the apparatus, and air is cooled by this cold water. On the other hand, hot water is supplied to the hot water coil (5) from an external heat source machine, and air is heated by the hot water. Thus, the temperature of the air that has passed through the air filter (3) is adjusted by the cold water flowing through the cold water coil (4) or the hot water flowing through the hot water coil (5), and the humidity is adjusted (humidified) in the humidifier (6). ) And discharged into the outflow space (S2).

    The blower fan (7) includes a fan body (8) and a motor (9). In the present embodiment, the fan main body (8) is constituted by a so-called plug fan provided with an impeller having a plurality of backward blades. The fan body (8) has a housing (10) in which a suction port and a blowout port are formed, and is formed in a so-called single suction type. The motor (9) has a motor shaft directly connected to the fan body (8) without using a transmission mechanism such as a belt.

    A box (16) is provided above the blower fan (7). The box (16) is connected to the outlet (22) of the housing (10) and the outlet (22) of the casing (2), and a sound deadening mechanism (not shown) is provided inside.

    With the configuration as described above, in the air conditioner (1), the cold water cooled in the heat source machine outside the machine is transferred to the cold water coil (4), and the hot water heated in the heat source machine outside the machine is transferred to the hot water coil (5). Circulate. At the same time, when the motor (9) of the blower fan (7) is energized, external air flows into the inflow space (S1) inside the casing (2) via the inflow port (21), and the air filter (3 ), The temperature is adjusted by exchanging heat with cold / hot water flowing in the coil. The temperature-controlled air is humidified in the humidifier (6) and discharged to the outflow side space (S2), and then sucked into the blower fan (7) and flows out through the box (16). From (22), the air is supplied to the room through a duct (not shown) and the temperature of the room air is adjusted.

    Next, the outer wall panel according to the present invention will be described.

    The plurality of outer wall panels (2a, 2b, 2c, 2d, 2e) used in the casing (2) according to this embodiment are two types of panels, a first panel (30) and a second panel (40) shown below. It is constituted by. Specifically, as shown in FIGS. 1 and 2, the top panel (2e), the left panel (2c), and the right panel (2d) are each composed of a first panel (30), and three front panels (2a ) And three back panels (2b) are each constituted by a second panel (40).

    As shown in FIGS. 3 and 4, the first panel (30) includes a box (31) and a heat insulating layer (32) formed of a heat insulating material filled in the box (31). I have. The box (31) includes an outer plate (33), an inner plate (34), and a spacer member (35).

    As shown in FIG. 4, the outer plate (33) is formed of a steel plate, and the outer edge portion is formed to be bent in a substantially U-shaped cross section. Specifically, the outer plate (33) includes a rectangular flat plate-shaped main body portion (33a), and a side wall portion (33b) extending vertically from the outer edge of the main body portion (33a) to the inner plate (34) side. And a facing portion (33c) extending inwardly in parallel to the main body portion (33a) from the tip of the side wall portion (33b). The outer edge portion of the outer plate (33) is constituted by the outer edge portion of the main body portion (33a), the side wall portion (33b), and the facing portion (33c).

    On the other hand, the inner plate (34) is formed of a steel plate, and the outer edge portion is bent and formed in a substantially L-shaped cross section. Specifically, the inner plate (34) includes a rectangular flat plate-like main body portion (34a) having a size equal to the main body portion (33a) of the outer plate (33), and an outer edge of the main body portion (34a). And a side wall portion (34b) extending vertically to the outer plate (33) side. The outer edge portion of the inner plate (34) is constituted by the outer edge portion of the main body portion (33a) and the side wall portion (34b).

    Further, the outer plate (33) and the inner plate (34) are configured such that the opposing portion (33c) of the outer plate (33) is the outer edge of the inner plate (34) (in this embodiment, the outer edge of the main body (34a)). Part).

    The spacer member (35) has a substantially rectangular cross section and is formed in a frame shape. Further, the spacer member (35) is formed of a foam, and in this embodiment, is formed of foamed polyethylene. The spacer member (35) is sandwiched between the outer edge portion of the outer plate (33) and the outer edge portion of the inner plate (34). The spacer member (35) has a contact surface (35a) that contacts the facing portion (33c) of the outer plate (33) and a contact surface (35b) that contacts the outer edge of the inner plate (34). ing.

    As described above, the box body (31) is formed by sandwiching the spacer member (35) between the outer plate (33) and the inner plate (34), so that the side wall (33b) of the outer plate (33) A gap (36) is formed between the side wall (34b) of the plate (34) and the both plates (33, 34) are thermally insulated.

    The heat insulating layer (32) is formed of a heat insulating material such as polyurethane foam. Moreover, in this embodiment, the heat insulation layer (32) is formed so that thickness T1 of the 1st panel (30) may be set to 30 mm.

    In addition, although illustration is abbreviate | omitted in FIG. 4, the 1st panel (30) is further provided with the tetra nut (72) attached to the inner surface of the side wall part (33b) of an outer plate (33) ( (See FIG. 7). The tetra nut (72) is used for fastening with the second panel (40).

    As shown in FIGS. 5 and 6, the second panel (40) includes a box (41) and heat insulation formed by a heat insulating material such as foamed polyurethane filled in the box (41). And a layer (42). The box (41) includes an outer plate (43) and an inner plate (44).

    As shown in FIG. 6, the outer plate (43) is formed of a steel plate, and the outer edge portion is formed to be bent in a substantially U-shaped cross section. Specifically, the outer plate (43) includes a rectangular flat plate-like main body portion (43a), and a side wall portion (43b) extending vertically from the outer edge of the main body portion (43a) to the inner plate (44) side. And a frame plate portion (43c) extending inwardly in parallel to the main body portion (43a) from the tip of the side wall portion (43b). The outer edge portion of the outer plate (43) is constituted by the outer edge portion of the main body portion (43a), the side wall portion (43b), and the frame plate portion (43c).

    On the other hand, the inner plate (44) is formed of a steel plate, and the outer edge portion is bent and formed in a substantially L-shaped cross section. Specifically, the inner plate (44) includes a rectangular flat plate-like main body portion (44a) and a side wall portion (44b) extending vertically from the outer edge of the main body portion (44a) to the outer plate (43) side. And have. A plurality of notches (45) are formed in the side wall (44b). The side wall (44b) constitutes a support leg according to the present invention. The outer edge portion of the inner plate (44) is constituted by the outer edge portion of the main body portion (44a) and the side wall portion (44b).

    The outer plate (43) and the inner plate (44) are arranged so that the frame plate portion (43c) of the outer plate (43) surrounds the outside of the main body portion (44a) of the inner plate (44). Yes. Specifically, the outer plate (43) and the inner plate (44) are arranged such that the main body (44a) of the inner plate (44) is in the same plane as the frame plate (43c) of the outer plate (43). And a gap (46) is formed between the frame plate portion (43c). The outer plate (43) and the inner plate (44) are arranged such that the side wall portion (44b) of the inner plate (44) and the main body portion (43a) of the outer plate (43) are separated by a predetermined distance ΔT. Has been. Between the side wall part (44b) of the inner plate (44) and the main body part (43a) of the outer plate (43), a heat insulating material enters and a part of the heat insulating layer (42) is formed. The predetermined interval ΔT is about 1 mm.

    Thus, the box (41) has a gap (46) between the frame plate portion (43c) of the outer plate (43) and the main body portion (44a) of the inner plate (44). By arranging the outer plate (43) and the inner plate (44) so that the main body portion (43a) of the plate (43) and the side wall portion (44b) of the inner plate (44) are separated by a predetermined interval ΔT, Both plates (43, 44) are configured to be insulated.

    The heat insulating layer (42) is formed of a heat insulating material such as polyurethane foam. In the present embodiment, the heat insulating layer (42) is formed so that the thickness T2 of the second panel (40) is 30 mm.

    Next, a panel structure (50) in which the first panel (30) and the second panel (40) are vertically connected will be described with reference to FIG. In this embodiment, between the front panel (2a) and the left panel (2c), between the front panel (2a) and the right panel (2d), and between the front panel (2a) and the top panel (2e). This panel structure between the back panel (2b) and the left panel (2c), between the back panel (2b) and the right panel (2d), and between the back panel (2b) and the top panel (2e) (50) is used.

    The panel structure (50) includes a first panel (30), a second panel (40), and a bolt (71) as a fastening member for fastening the first panel (30) and the second panel (40). It has. In the first panel (30) and the second panel (40), the side surface of the box (31) of the first panel (30) is in contact with the inner surface of the box (41) of the second panel (40). Are arranged as follows. Specifically, the first panel (30) and the second panel (40) are arranged such that the gap (36) of the first panel (30) faces the gap (46) of the second panel (40). Has been.

    By arranging in this way, the side wall portion (33b) of the outer plate (33) of the first panel (30) comes into contact with the frame plate portion (43c) of the outer plate (43) of the second panel (40). The side wall portion (34b) of the inner plate (34) of the first panel (30) comes into contact with the main body portion (44a) of the inner plate (44) of the second panel (40). That is, the first panel (30) and the second panel (40) come into contact with each other between the outer plates (33, 43) and the inner plates (34, 44). Thereby, not only the heat insulation between the outer plate (33, 43) and the inner plate (34, 44) of each panel (30, 40), but also the first panel (30) and the second panel (40) It is also possible to insulate between.

    Moreover, the 1st panel (30) and the 2nd panel (40) are arrange | positioned as mentioned above, and are being fixed with the volt | bolt (71). The bolt (71) passes through the outer edge of the outer plate (43) from the outer side to the inner side of the second panel (40), and then the side wall (33b) of the outer plate (33) of the first panel (30). Is engaged with a tetranut (72) attached to the inner surface of the side wall (33b). That is, the bolt (71) penetrates the outer plate (33) of the first panel (30) and the outer plate (43) of the second panel (40), and the inner plate (34 of both panels (30, 40)). , 44) is not touching. Therefore, the outer plate (33,43) and the inner plate (34,44) of each panel (30,40) are not transferred through the bolt (71), and the bolt (71) is not used. Thus, the outer plate (33, 43) and the inner plate (44, 34) do not transfer heat between the first panel (30) and the second panel (40).

-Panel manufacturing method-
<First panel>
First, a space for filling a heat insulating material that forms the heat insulating layer (32) is formed by sandwiching the spacer member (35) between the facing portion (33c) of the outer plate (33) and the outer edge portion of the inner plate (34). . Specifically, the spacer member (35) is disposed so that the contact surface (35a) contacts the outer edge of the outer plate (33), and the contact surface (35a) of the spacer member (35) is disposed on the outer plate. It adheres to the outer edge of (33) (in this embodiment, the facing portion (33c)). The spacer member (35) is formed by bending a rod-like foamed polyethylene by hand to form a frame, and is adhered to the facing portion (33c) of the outer plate (33). Next, the inner plate (34) is arranged so that the contact surface (35b) of the spacer member (35) contacts the outer edge portion of the inner plate (34), and the outer edge portion of the inner plate (34) is arranged as a spacer. Adhere to the contact surface (35b) of the member (35). By such a process, the space between the facing portion (33c) of the outer plate (33) and the outer edge portion of the inner plate (34) is sealed by the spacer member (35), thereby forming the box (31).

    The spacer member (35) is set so that the thickness of the box (31) is slightly larger than the thickness (T1) of the first panel (30) when the box (31) is formed. Has been. In the present embodiment, the thickness (T1) of the first panel (30) is set to 30 mm, and the spacer member (35) is set so that the thickness of the box (31) is about 32 mm.

    After forming the box (31) as described above, the box (31) is sandwiched between press machines, and the thickness of the box (31) is the desired thickness (T1) of the first panel (30). The box (31) is pressed to be (30 mm in this embodiment). After the box (31) is formed in this way, the box (31) is pressed so as to have a predetermined thickness (T1), so that the space between the outer plate (33) and the inner plate (34) is increased. A heat insulating material filling space for forming the heat insulating layer (32) is formed (a filling space forming step).

    Next, a heat insulating layer (32) is formed. Specifically, a heat insulating material (urethane resin) for forming a heat insulating layer (32) is injected into the box (31) from an injection port (not shown) formed in the box (31). The heat insulating material is mixed with a foaming agent before injection. As a result, when the heat insulating material, which is in a liquid state when injected into the box (31), is filled into the box (31), it is foamed and then cured in a foamed state.

    The heat insulating material such as urethane resin is liquid and has adhesiveness. Therefore, the heat insulating material forming the heat insulating layer (32) is cured in a state where it is adhered to the outer plate (33) and the inner plate (34). Thus, the outer plate (33) and the inner plate (34) are insulated by the heat insulating layer (32) and are connected via the heat insulating layer (32). Thus, the heat insulation layer (32) which heat-insulates both is formed between the outer plate (33) and the inner plate (34) (the heat insulation layer forming step).

    And after a heat insulating material hardens | cures completely, it removes from a press machine, and the 1st panel (30) of desired thickness (T1) (30 mm) is completed.

<Second panel>
First, a space for filling a heat insulating material that forms the heat insulating layer (42) is formed by combining the outer plate (43) and the inner plate (44). Specifically, the outer plate (43) is installed so that the frame plate portion (43c) is positioned above the main body portion (43a), and the inner plate (44) is placed on the main body portion ( 43a). At this time, the inner plate (44) is self-supported on the main body (43a) of the outer plate (43) by the side wall (44b). The inner plate (44) is disposed so as to fit inside the frame plate portion (43c) when viewed from the upper side to the lower side in FIG.

    Further, as described above, when the inner plate (44) is placed on the main body (43a) of the outer plate (43), the main body (44a) of the inner plate (44) It is in a position slightly lower than the frame plate portion (43c) (in this embodiment, a position approaching the main body portion (43a) by about 1 mm). In this state, the gap (46) between the main body portion (44a) of the inner plate (44) and the frame plate portion (43c) of the outer plate (43) is sealed with a curing tape or the like. In this way, the box (41) is formed by combining the outer plate (43) and the inner plate (44).

    After the box (41) is formed as described above, the box (41) is installed in a press. And the space | interval of the press part of a press machine is set to the desired thickness (T2) (this embodiment 30 mm) of a 2nd panel (40) (above, filling space formation process).

    Next, a heat insulating layer (42) is formed. Specifically, a heat insulating material (urethane resin) for forming a heat insulating layer (42) is injected into the box (41) from an injection port (not shown) formed in the box (41). The heat insulating material is mixed with a foaming agent before injection. As a result, when the heat insulating material, which is in a liquid state when being injected into the box (41), is filled in the box (41), the foam is then foamed, and then cured in the foamed state.

    Here, since the plurality of notches (45) are formed in the side wall (44b) of the inner plate (44), the heat insulating material injected into the box (41) passes through the notches (45). Then, it reaches every corner of the filling space between the outer plate (43) and the inner plate (44). Further, when the heat insulating material is filled in the filling space, the inner plate (44) is lifted with respect to the outer plate (43) by being pushed up by the heat insulating material. Specifically, when the main body (44a) of the inner plate (44) is pushed up by the heat insulating material, the side wall (44b) and the main body (43a) of the outer plate (43) are separated by a predetermined distance ΔT (1 mm). ) And the outer plate (43) and the inner plate (44) are not in direct contact with each other.

    Moreover, since the heat insulating material forming the heat insulating layer (42) has adhesiveness like the heat insulating material of the first panel (30), it adheres to the outer plate (43) and the inner plate (44). It cures in the state. Accordingly, the outer plate (43) and the inner plate (44) are insulated by the heat insulating layer (42) and are connected via the heat insulating layer (42). Thus, the heat insulation layer (42) which heat-insulates both is formed between an outer board (43) and an inner board (44) (above, heat insulation layer formation process).

    Then, after the heat insulating material is completely cured, the second panel (40) having a desired thickness (T2) (30 mm) is completed by removing it from the press.

-Effect of Embodiment 1-
As described above, according to the first panel (30), the spacer member that forms the space for filling the heat insulating material for forming the heat insulating layer (32) between the outer plate (33) and the inner plate (34) ( 35) is configured to have an outer contact surface (35a) and an inner contact surface (35b). Thereby, a frame-shaped spacer member (35) will surface-contact with each of the outer edge part of an outer plate (33), and the outer edge part of an inner plate (34). Therefore, before the heat insulating layer (32) is formed, the spacer member (35) is not broken by the load of the outer plate (33) or the inner plate (34). It can be formed of a foam that is softer than the resin (in this embodiment, foamed polyethylene). Therefore, the spacer member (35) can be easily formed into a frame shape by manually bending the rod-like foam. Further, since the foam is relatively inexpensive, the manufacturing cost of the spacer member (35) can be reduced by forming the spacer member (35) from the foam. Thereby, the manufacturing cost of an outer wall panel can be reduced.

    Moreover, according to the said 1st panel (30), since a vinyl chloride synthetic resin is not used conventionally as a spacer is used for a spacer member (35), an environmental load can also be reduced. Furthermore, since the foam has better heat insulation than hard resin such as vinyl chloride synthetic resin, the heat insulation function of the spacer member (35) can be improved.

    Moreover, according to the said 1st panel (30), since the outer edge part of an outer plate (33) is formed in cross-sectional U shape, the cross-sectional area of a spacer member (35) can be made small, and a spacer member The folding formation of (35) can be facilitated. Moreover, since the heat insulating material adheres to the outer edge of the outer plate (33) by forming the outer edge portion of the outer plate (33) to have a U-shaped cross section, the outer plate (33) is separated from the heat insulating layer (32). Peeling can be suppressed.

    Further, according to the second panel (40), the outer edge portion of the outer plate (43) is bent in a U-shaped cross section, and the frame plate portion (43c) is connected to the main body portion (44a) of the inner plate (44). A gap (46) was formed in the same plane so as to surround the main body (44a). Further, the inner plate (44) has a flat main body portion (44a) and from the outer edge of the main body portion (44a) to the vicinity of the main body portion (43a) of the outer plate (43) in the thickness direction of the heat insulating layer (42). And an extending side wall (44b). Thus, before the heat insulating layer (42) is formed, the outer plate (43) is placed on the outer plate (43) with the frame plate portion (43c) positioned above the main body portion (43a). 43) can be self-supporting on the main body (43a), and without using an outer frame formed by extrusion of hard resin as in the past, between the outer plate (43) and the inner plate (44) A space for filling the heat insulating material can be secured. Therefore, manufacturing cost and environmental load can be reduced.

    In addition, although the side wall part (44b) is comprised with the metal, when it fills with a heat insulating material, when the main-body part (44a) of an inner board (44) is pushed up by this heat insulating material, it floats, and an outer board (43) No longer in contact with the main body (43a). Therefore, it is possible to sufficiently insulate by thermally insulating the outer plate (43).

    Moreover, according to the said 2nd panel (40), as the side wall part (44b) of the inner board (44) which comprises the support leg part which concerns on this invention is formed integrally with an inner board main-body part (44a). Therefore, the support leg can be easily formed.

    The panel structure (50) in which the second panel (40) is joined perpendicularly to the side surface of the first panel (30) has a gap (36) formed on the side surface of the first panel and the second panel ( 40) faces the gap (46) formed on the inner surface, and the frame plate portion (43c) of the second panel (40) contacts the outer edge portion of the outer plate (33) of the first panel (30). It is configured as follows. As a result, the outer plate (33) of the first panel (30) does not contact the inner plate (44) of the second panel (40) and the inner plate (34) of the first panel (30) does not contact the second panel (40). The first panel (30) and the second panel (40) can be joined so as not to contact the outer plate (43) of 40). Therefore, without sandwiching a conventional outer frame made of vinyl chloride resin between the first panel (30) and the second panel (40), the side surface of the first panel (30) and the second outer wall panel ( 40) Even if the inner surface of the first panel (30) is brought into contact and joined, the first panel (30) and the outer panel (33) of the first panel (30) and the inner panel (44) of the second panel (40) ) Between the inner plate (34) and the outer plate (43) of the second panel (40). In other words, when joining the first panel (30) and the second panel (40) with a vinyl chloride resin outer frame sandwiched between them, tighten a bolt or the like so as to penetrate the outer frame. There is a risk that the outer frame may be deformed and the bolt cannot be fastened. However, according to the above-described configuration, there is no such risk, and both panels (30, 40) can be reliably joined. . Moreover, according to the said panel structure (50), since the outer frame made from a vinyl chloride resin is not used, an environmental load can be reduced.

    In addition, the panel structure (50) is configured such that the outer panels of the first panel (30) and the second panel (40) are penetrated by bolts (71) so that both panels (30, 40) are connected. It is configured. Thereby, it is possible to prevent the cold heat of the inner plate (34) of the first panel (30) from being transmitted to the outer plate (43) of the second panel (40) by the bolt (71). The cold heat of the inner plate (44) of the two panels (40) can be prevented from being transmitted to the outer plate (33) of the first panel (30). That is, according to the said panel structure (50), the further improvement of heat insulation can be aimed at rather than the conventional panel structure.

<< Other Embodiments >>
In the above embodiment, the outer edge portion of the outer plate (33) of the first panel (30) is bent and formed in a U-shaped cross section, but the outer plate (33) and inner plate (34) of the first panel (30) are formed. ) Are composed only of the main body (33a, 34a), and the spacer member (35) is composed of the outer edge of the main body (33a) of the outer plate (33) and the outer edge of the main body (34a) of the inner plate (34). It is good also as forming in the shape inserted | pinched between. Even such a first panel can achieve the same effects as those of the above-described embodiment.

    The material of the spacer member (35) of the first panel (30) is not limited to foamed polyethylene, and any material may be used as long as it is a foam. By forming the spacer member (35) with the foam, heat insulation between the outer plate (33) and the inner plate (34) can be secured, and the outer plate (33) and the inner plate (34). Between them, a space for filling the heat insulating material for the heat insulating layer (32) can be formed, and the spacer member (35) can be configured at low cost.

    In the second panel (40), the support leg according to the present invention extends vertically from the outer edge of the main body (44a) of the inner plate (44) to the outer plate (43) side, and has a plurality of notches (35). ) Is formed by the side wall portion (44b) formed. However, if the supporting leg portion allows the inner plate (44) to stand on the main body portion (43a) of the outer plate (43) before filling with the heat insulating material, the side wall portion (44b) It is not restricted to such a configuration. For example, a plate-like piece different from the main body portion (44a) may be joined to the main body portion (44a) to form the support leg portion.

    In the panel structure (50), the bolt (71) is used as a fastening member for fastening the first panel (30) and the second panel (40). Of course, it is also possible to join the panels (30, 40). Moreover, in the said panel structure (50), although the tetra nut (72) was attached to the inner surface of the side wall part (33b) of an outer plate (33) as an engaging member of a volt | bolt (71), an outer plate (33) An insert nut other than the tetra nut (72) may be attached to the side wall portion (33b) of the steel plate, and it is of course possible to perform a process such as burring to engage with the bolt (71).

    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 the outer wall panel and the outer wall panel structure of the air conditioner.

30 First panel (first outer wall panel)
32 Thermal insulation layer
33 Outer plate
33c Opposite part
34 Inner plate
35 Spacer member
35a Contact surface (outer contact surface)
35b Contact surface (inner contact surface)
36 Clearance
40 Second panel (second outer wall panel)
42 Thermal insulation layer
43 Outer plate
43a Main body (outer plate main body)
43c Frame plate
44 inner plate
44a body (inner plate body)
44b Side wall (support leg)
46 Clearance
50 Panel structure
71 Bolt (fastening member)

Claims (4)

Heat insulation formed by an outer plate (33), an inner plate (34) facing the outer plate (33), and a heat insulating material filled between the outer plate (33) and the inner plate (34) An outer wall panel of an air conditioner comprising a layer (32),
The outer plate (33) is formed of a steel plate, and extends to the inner plate (34) side from the outer periphery of the flat outer plate main body (33a) and the outer plate main body (33a). 32) a frame-shaped side wall (33b) surrounding a part of the side surface, and a frame-shaped facing part (33c) extending in parallel to the outer edge of the inner plate (34) continuously to the side wall (33b) And
The inner plate (34) is a flat inner plate main body (34a) that is formed of a steel plate and faces the outer plate main body (33a), and the outer plate from the outer peripheral edge of the inner plate main body (34a). A frame-shaped side wall (34b) extending toward the side wall (33b) of (33),
Formed by the foam, said facing portion (33c) outer abutment surface to abut Ru is adhered to the (35a), the inner plate body portion of the inner plate (34) of the outer plate (33) (34a inner abutment surface which abut Ru is adhered to the outer edge portion of) the (35b), and an outer surface which is surrounded by the frame-like the side wall portion of the inner plate (34) (34b), the outer plate The opposed portion ( 33) of the outer plate (33) is formed such that a gap (36) is formed between the sidewall portion (33b) of (33) and the sidewall portion (34b) of the inner plate (34). 33c) and an outer wall of the air conditioner comprising a frame-shaped spacer member (35) sandwiched between the inner plate (34) and the outer edge of the inner plate main body (34a). panel. Heat insulation formed by an outer plate (43), an inner plate (44) facing the outer plate (43), and a heat insulating material filled between the outer plate (43) and the inner plate (44). An outer wall panel of an air conditioner comprising a layer (42),
The inner plate (44) is formed of a steel plate and has a flat inner plate main body (44a) and the outer plate (43) extending from the inner plate main body (44a) in the thickness direction of the heat insulating layer (42). A support leg (44b) extending to the vicinity,
The outer plate (43) is formed of a steel plate, and extends from the outer edge of the flat outer plate main body (43a) to the inner plate (43) from the outer edge of the outer plate main body (43a). ) And a side wall portion (43b) surrounding the side surface of the inner plate main body portion (44a) with a gap (46) on the same plane as the inner plate main body portion (44a). the and a frame plate portion (43c) surrounding,
The support leg (44b) of the inner plate (44) is constituted by a frame-like side wall (44b) extending from the outer edge of the inner plate main body (44a) to the outer plate (43), and the side wall In (44b), a plurality of notches (45) through which the heat insulating material passes when the heat insulating material is filled are formed , the outer wall panel of the air conditioner. In claim 2 ,
The outer wall panel of an air conditioner, wherein the support leg (44b) is formed integrally with the inner plate main body (44a) continuously from the outer edge of the inner plate main body (44a). A first outer wall panel (30) which is the outer wall panel of claim 1 ;
Heat insulation formed by an outer plate (43), an inner plate (44) facing the outer plate (43), and a heat insulating material filled between the outer plate (43) and the inner plate (44). An outer wall panel structure of an air conditioner comprising: a layer (42); and a second outer wall panel (40) vertically joined to a side surface of the first outer wall panel (30),
The inner plate (44) of the second outer wall panel (40) includes a flat inner plate body (44a) and the outer plate extending from the inner plate body (44a) in the thickness direction of the heat insulating layer (42). A support leg (44b) extending to the vicinity of (43),
The outer plate (43) of the second outer wall panel (40) includes a flat outer plate body (43a) and an outer edge of the outer plate body (43a) extending toward the inner plate (43). A side wall portion (43b) surrounding the side surface of the heat insulating layer (42), and the inner plate main body with a gap (46) on the same plane as the inner plate main body portion (44a) continuous to the side wall portion (43b) A frame plate part (43c) surrounding the part (44a),
In the first outer wall panel (30) and the second outer wall panel (40), the gap (36) of the first outer wall panel and the gap (46) of the second outer wall panel (40) face each other. The air conditioner is characterized in that the frame plate portion (43c) of the second outer wall panel (40) is provided so as to contact the side wall portion (33b) of the first outer wall panel (30). Equipment outer wall panel structure.

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