AU741436B2 - Fixing device and fixing structure for air conditioner - Google Patents

Description

DESCRIPTION

FIXING DEVICE AND FIXING STRUCTURE FOR AIR CONDITIONER Technical Field The present invention relates to a fixing device and a fixing structure for an air conditioner and, more particularly, to measures for improving fixing strength and workability in fixing the air conditioner.

Background Art Conventional air conditioners include a wall-mounted type as disclosed in Japanese Examined Patent Publication No. SHO 59-25927 and a ceiling-suspended type as disclosed in Japanese Examined Patent Publication No. SHO 63-15494, of which the wall-mounted air conditioner is designed to be fixed by, e.g., securing a fixing board having a hook provided on an upper portion thereof to a side wall of a room and hanging the air conditioner on the hook of the fixing board.

On the other hand, the ceiling-suspended air conditioner is typically designed to be fixed to hanger bolts buried in aceiling.

In a specific example, a casing of the air conditioner is fixed to the ceiling by tightening, from above and below, a plurality of nuts screwed into the hanger bolts with the bolts extending r, ough fixing holes formed in the casing.

_1 1 However, if the depth of the casing from its front face to its rear face is increased, the fixing structure of the wall-mounted air conditioner in which only the rear face of the casing is fixed by using the fixing board presents a problem in terms of strength.

If a fixing structure as used in the conventional ceiling-suspended air conditioner is to be adopted to the wall-mounted air conditioner, a plurality of workers are required to perform a fixing operation, of which one is expected to support the air conditioner at the position at which the hanger bolts extend through the fixing holes and another is expected to tighten the nuts against the hanger bolts, so that a problem associated with workability arises.

Disclosure of Invention The present invention has been achieved in view of the foregoing. It is therefore a first object of the present invention to enhance fixing strength in a fixing structure for a wall-mounted air conditioner. A second object of the present invention is to provide a fixing structure which is also applicable to a ceiling-suspended air conditioner and thereby improve workability.

The present invention fixes an air conditioner by fixing, to a side wall (72) or ceiling (71) of a room, a fixing device with which a lower portion of a rear face (10b) of the air and a portion of the air conditioner anterior 2

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thereto are engaged and then bringing the air conditioner into engagement with the fixing device Specifically, first solving means used in the present invention is a fixing device for an air conditioner, the device comprising a vertical plate member (81) extending along a rear face (10b) of an air conditioner and a horizontal plate member (82) extending forwardly from the vertical plate member the vertical plate member (81) and the horizontal plate member (82) being formed integrally, the vertical plate member (81) comprising first fastening means (83) to be engaged with a lower portion of the rear face of the air conditioner and the horizontal plate member (82) comprising second fastening means (84) to be engaged with the air conditioner in a position anterior to the first fastening means (83).

In second solving means used in the present invention, the vertical plate member (81) is formed with fixing holes (H3) for fixing the fixing device to a side wall (72) of a room and the horizontal member (82) is formed with fixing holes (H1) for bolts 95) for fixing the air conditioner In third solving means used in the present invention, the fixing holes (H1) of the horizontal plate member (82) are formed in positions corresponding to the hanger bolts (95) of a ceiling (71) for fixing the air conditioner In fourth solving means used in the present invention, the fastening means is first hooks (83) provided on a lower end portion of the vertical plate member (81) and the second fastening means is second hooks (84) provided on left and right edge portions of the horizontal plate member (82) to be engaged with side edge portions (lOg) of the air conditioner the second hooks (84) being formed of an elastic material and comprising respective base portions (84a) located along the side edge portions (10g) of the air conditioner and respective tip engaging portions (84b) formed to bend inwardly of the side edge portions (10g) of the air conditioner from respective lower ends of the base portions (84a).

Fifth solving means used in the present invention assumes a fixing structure for fixing an air conditioner by using the fixing device (80) according to the first solving means. The air conditioner comprises a first engaging portion (10f) to be engaged with a first fastening means (83) and a second engaging portion (lOg) to be engaged with a second fastening means (84).

In sixth solving means used in the present invention, the first fastening means (83) and second fastening means (84) of the fixing device (80) andthe first engaging portion (1Of) and second engaging portion (10g) of the air conditioner are engaged with each other with a top face (lOa) of the air conditioner extending nearly along the horizontal plate member (82) of the fixing device a position at which the air conditioner is engaged with the fixing device (80) being determined such that a gap for adjusting the position of the air conditioner is formed between the horizontal plate member (82) of the fixing device (80) and the top face (10a) of the air conditioner In the first and fifth solving means, the fixing device is fixed first to the side wall (72) or ceiling (71) of the room.

Then, the first engaging portion (10f) as the lower portion of the rear face (10b) of the air conditioner is brought into engagement with the first fastening means (83) and the second engaging portion (10g) of the air conditioner anterior to the first engaging portion (10f) is brought into engagement with the second fastening means whereby the air conditioner is fixed to the fixing device In the second solving means, the fixing device (80) is fixed to the side wall (72) of the room by using the fixing holes (H3) of the vertical plate member the air conditioner is fastened to the fixing device in the same manner as in the first and fifth solving means, and then the air conditioner is secured to the horizontal plate member of the fixing device (80) by using the bolts In this case, the fastening means (83,84) and the engaging portions (10f,10g) are used to temporarily fasten the air conditioner to the fixing device In the third solving means, the fixing device (80) can be fixed to the hanger bolts (95) through the ceiling Thereafter, the air conditioner can be secured to the fixing device after it is temporarily fastened thereto in the same manner as in the second solving means.

In the fourth solving means, the side edge portions of the air conditioner can be hung on the tip engaging portions (84b) of the second hooks (84) by raising the front side of the air conditioner after hanging the lower portion (10f) of the rear face (10b) of the air conditioner on the first hooks (83).

At that time, the second hooks (84) are widened under pressure by the side edge portions (10g) of the air conditioner passing therebetween and elastically deformed. The second hooks (84) recover the original configurations after the side edge portions (o10g) have passed through the tip engaging portions (84b) and come into engagement with the side edge portions In the sixth solving means, a predetermined gap is formed between the horizontal plate member (82) of the fixing device and the top face (10a) of the air conditioner when the air conditioner is fastened to the fixing device This allows the inclination of the air conditioner to be adjusted finely by, differently tightening the bolts (90) against the front, rear, left, and right sides of the air conditioner in securing the air conditioner to the horizontal plate (82).

With the first and fifth solving means, the air conditioner is installed in the room by bringing the first engaging portion on the lower portion of the rear face of the air conditioner and the second engaging portion (10g) of the air conditioner anterior to the first engaging portion (10f) into engagement with the first fastening means (83) and second fastening means

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(84) of the fixing device (80) fixedto the side wall (72) or ceiling (71) of the room. This provides strong fixation even if the air conditioner is of the type having a large depth and thereby attains the first object.

With the second solving means, after the vertical plate member (81) of the fixing device (80) is fixed to the side wall (72) of the room, the air conditioner is temporarily fastened to the fixing device (80) and then secured to the horizontal plate member This provides stronger fixation.

With the third solving means, if the fixing device (80) is fixed to the hanger bolts.(95) through the ceiling the air conditioner can be fastened temporarily to the fixing device and then secured thereto. This obviates the necessity for a worker who supports the air conditioner in tightening the nuts against the hanger bolts Thus, the fixing device is also applicable to the ceiling-suspended air conditioner (1) and fixing workability can be enhanced, whereby the second object is attained. The third solving means also offers the advantage that the air conditioner can be fixed to either of the side wall (72) and ceiling (71) of the room and placement flexibility is enhanced.

With the fourth solving means, the air conditioner (10) can be fastened to the fixing device (80) by merely raising the front side of the air conditioner after hanging the lower portion of the rear face (10b) of the air conditioner on the RA7 first hooks so that fixation is performed easily.

With the sixth solving means, the air conditioner having, a large depth and therefore likely to be inclined forwardly when it is fixed is prevented from being inclined forwardly and can be held in a horizontal position. Even if the ceiling (71)or the side wall (72) is inclined, the inclination of the air conditioner can be adjusted in accordance with the inclination of the ceiling (71) or the side wall (72).

Brief Description of Drawings Figure 1 is a perspective view of an air conditioner according to an embodiment of the present invention; Figure 2 is an exploded perspective view of the air conditioner of Figure 1; Figure 3 is a vertical cross-sectional view of the air conditioner of Figure 1; Figure 4 is a plan view showing the placement of components in the air conditioner of Figure 1; Figure 5 is a front view showing the placement of the components in the air conditioner of Figure 1; Figure 6 is a side view showing the placement of the components in the air conditioner of Figure 1; Figure 7 is an exploded perspective view showing a fixing structure for the air conditioner of Figure 1; Figure 8 is a view showing the fixation of the air conditioner 1-A 8 of Figure 1 to a side wall of a room; Figure 9 is a view showing a vertical plate member of a fixing device used in the fixing structure of Figure 7; Figure 10 is a partial enlarged view of the air conditioner secured to the fixing device; Figure 11 is a partial enlarged view showing the fastening of the air conditioner to the fixing device; and Figure 12 is a view showing the fixation of the air conditioner to the ceiling of the room.

Best Mode for Carrying Out the Invention Referring now to the drawings, the embodiments of the present invention will be described in detail.

As shown in Figure 1, an air conditioner of the present embodiment is installed at a corner portion defined by a ceiling (71) of a room and a side wall (72) of the room. The air conditioner has a casing (10) fixed to the ceiling (71) or the side wall (72) via a fixing device which will be described later but not shown in Figure 1.

The casing (10) is composed of a main body (11) configured as a flat and horizontally elongated rectangular parallelepiped and a swelling portion (13) which protrudes downwardly from the bottom face of the main body The main body (11) of the casing is configured to have a reduced thickness in the vertically direction such that it is placed along the ceiling (71) of the room and protrudes in a reduced amount from the ceiling (71) in the fixed state.

As shown in Figures 1 and 3, the swelling portion (13) of the casing (10) is designed to protrude from the bottom face of the main body (11) gradually downwardly from the front side toward the rear side. That is, the swelling portion (13) is configured to protrude gradually downwardly toward the side wall (72) of the room (70) in the fixed state.

Specifically, the swelling portion (13) have a front surface or a lower surface configured as an inclined surface (14) inclined gently downwardly from the front edge thereof continued to the main body (11) toward the rear surface. The casing (10) is configured as a whole to be thinner on the front side than on the rear side. On the other hand, the rear surface of the swelling portion (13) is formed as a vertically rising face (15) along the side wall (72) of the room, which is continuedto the rear face of the main body The both side surfaces of the swelling portion (13) are continued to the side portions of the lower face of the main body (11).

The front edge of the inclined surface (14) of the swelling portion (13) is located slightly posterior to the front end of the main body while the both side edges of the swelling portion (13) are located slightly interior to the both side ends of the main body The front and both side portions of the main body (11) are formed with respective projecting edge portions (12) projecting forwardly and bilaterally of the swelling portion (13).

The projecting edge portions the front edge and both edge portions of the main body (11) of the casing (10) are composed of a combination of curved surfaces to have slightly rounded configurations, as shown in Figures 3, 5, and 6.

The casing (10) is formed with an air inlet (41) for introducing room air from below into the casing (10) by suction and with air outlets (43, 44) for discharging conditioned air into the room. The air inlet (41) is formed in the inclined surface (14) of the swelling portion (13) of the casing while the air outlets (43, 44) are formed in the main body (11) of the casing from the front face thereof to the both side faces thereof.

Of the air outlets (43, 44), the portion located in the front face of the main body (11) is formed into the front air outlet (43) and the portions located in the both side faces of the main body (11) are formed into the side air outlets Since the main body (11) of the casing (10) is formed with the projecting edge portions the air inlet (41) and the air outlets (43, 44) are located at a specified distance from each other.

On the other hand, the casing (10) is composed of a top panel a rear panel (10b), front panels (10c, 10d), and right and left side panels (10e), as shown in the exploded perspective view of Figure 2. The top panel (10a), the rear panel (10b), and the front panels (10co, 10d) are members fixed to each other to be integrated. The side panels (10e) are detachable from the top 11 panel (10a), the rear panel (10b), and the front panels (10c, The side panels (10e) can be attached to the air conditioner after the air conditioner is assembled without the side panels and fixed to the ceiling (71) or to the side wall The side panels (10e) are attached to the casing (10) of the air conditioner fixed to the ceiling (71) or to the side wall (72) with the fixing device thereby covering up and hiding the fixing device from the outside.

The front air outlet (43) is formed between the front panels (10c, 10d) of the casing A horizontal flap (51) is disposed in the front air outlet The horizontal flap (51) is held by stays (51a) such that the discharge angle of the front air outlet (43) is adjustable. One of the stays (51a) is provided with a swing unit (51b) for changing the angle of the horizontal flap On the other hand, a horizontal flap (51) and a swing mechanism (not shown) for adjusting the angle of the horizontal flap (51) are incorporated in each of the side panels (10e) such that the direction in which the conditioned air is discharged from the side air outlets (44) is manually adjustable.

An air passage (45) connected from the air inlet (41) to each of the air outlets (43, 44) is formed in the casing Two fans (20R, 20L) for sucking the room air from below and laterally discharging the air and a heat exchanger (30) for generating the conditioned air from the room air are disposed in the air passage An air filter (65) is disposed below the centrifugal fans A12 -o' 20L) and adjacent the air inlet (41).

Each of the fans (20R, 20L) is formed as a so-called turbo fan which is a kind of centrifugal fan. A drive shaft (26) of a fan motor (25) extending vertically (in upward and downward directions) is coupled to each of the fans (20R, 20L). The fans 20L) are rotatively driven by the respective fan motors to laterally discharge the air sucked from below.

Each of the fans (20R, 20L) is attached to the casing by mounting the fan motor (25) on the top panel (10a) of the main body (11) of the casing (10) from the lower side of the top panel A bellmouth (27) for guiding, to each of the fans the room air flown from the air inlet (41) to the air passage is disposed below each of the fans (20R, The fans (20R, 20L) are arrangedinparallel at agiven spacing widthwise in the main body (11) of the casing while the casing has apartition board (64) disposedbetween the two centrifugal fans (20R, 20L). The casing (10) is provided with the right fan located on the right side and with the left fan (20L) located on the left side with the partition board (64) interposed therebetween when the casing (10) is viewed from the front side thereof. Each of the fans (20R, 20L) rotates clockwise when the casing (10) is viewed from above.

On the other hand, the heat exchange portion (30) is provided in the main body (11) of the casing The heat exchange portion (30) is formed of a front heat exchange portion (31) located in the main body (11) of the casing (10) adjacent the front face thereof and side heat exchange portions (32) located in the main body (11) of thecasing (10) adjacent theside faces thereof to have a generally U-shaped configuration when viewed in plan view. The heat exchanger (30) is formed as a so-called crossfin heat exchanger composed of a large number of fins in the form of vertical plate members and a heat transfer pipe extending through the fins, though they are not depicted. The fins are arranged in parallel to each other except for the corner portions thereof located between the front heat exchange portion (31) and the side heat exchange portions The angles of the fins at the corner portions are gradually changing conformally to the curved configuration of the heat transfer pipe.

A thermal insulator (35) formed to have a generally U-shaped configuration when viewed in plan view, similarly to the heat exchanger is disposed on the upper side of the heat exchanger A drain pan (36) similarly formed of a thermal insulating material to have a generally U-shaped configuration when viewed in plan view is disposed on the lower side of the heat exchanger As the materials of the thermal insulator (35) and the drain pan there can be used, blowing styrole or the like.

Figures 4 through 6 are layouts each showing a positional relationship among individual components in thecasing which represent only the outer configurations of the casing (10) and 41-:the individual components schematically. The interior of the swelling portion (13) serves as a space for accommodating an optional item (60) to accommodate, e. either of a high efficiency air filter or deodorizer. As the high efficiency air filter, a so-called HEPA filter (high efficiency particulate air filter) or an electrostatic filter can be used. As the deodorizer, an optical deodorizing unit which deodorizes a stinking substance by using an optical catalyst can be used.

Between the left and right centrifugal fans (20R, 20L), a switch box (61) is disposed. Between the centrifugal fans 20L) and the rear panel (10b) on the rear side of the casing (19), a refrigerant pipe (62a) and a drain pipe (62b) are disposed along the rear panel (10b). (63) denotes a pipe cover, in which the two pipes (62a, 62b) are disposed to extend.

The casing (10) of the air conditioner is designed to be fixable to either of the ceiling (71) and wall (72) of the room via the fixing device (80) shown in Figure 2. The fixing device is composed of a vertical plate member (81) extending along the rear panel (lOb) which is a member composing the rear face of the casing (10) and a horizontal plate member (82) extending forwardly from the vertical plate member which are formed integrally. The horizontal plate member (82) is designed to extend along the top panel (10a) which is a member composing the upper face of the casing The fixing device (80) is formed of the vertical plate member (81) and the horizontal plate member (82) to have a generally L-shaped side configuration when viewed in side view. In the present embodiment, the horizontal member (82) is composed of two arms each having an L-shaped cross section, which are disposed separately on the left and right sides of the casing As shown in detail in Figure 7, the arms (82) and the top panel (10a) of the air conditioner are formed with fixing holes (HI, H2) for the passage of bolts for fixation. The fixing holes (HI) of the fixing device (80) are composed of oblong holes. Of the fixing holes (H2) of the casing the front-side ones are composed of oblong holes and the rear-side ones are composed of slits. This allows the casing (10) to adjust the position thereof in a front-to-rear direction relative to the fixing device The vertical plate member (81) of the fixing device is formed with fixing holes (H3) for fixing the fixing device to the wall (72) by using bolts or the like. As shown in Figure 9, a large number of fixing holes (H3) are formed in the vertical plate member (81) to allow the fixing device (80) to be fixed in an arbitrary position to the wall.

The fixing device (8Q) is provided with an engaging mechanism to be engaged with the casing (10) of the air conditioner The engaging mechanism is composed of first hooks (83) provided on the vertical plate member (81) to be engaged with a lower portion of the rear panel (10b) of the casing (10) and second hooks (84) provided on the arms (82) to be engaged with the side edge portions of the top panel (lOa) of the casing The first 16 hooks (83) constitute first fastening means, while the second hooks (84) constitute second fastening means.

The first hooks (83) are provided on the lower end portion of the vertical plate member while the second hooks (84) are provided on the left and right end portions of the arms (82).

The second hooks (84) are formed of an elastic material to comprise base portions (84a) located on the left and right sides of the top panel (10a) of the casing (10) of the air conditioner to extend therealong and tip engaging portions (84b) formed to bend inwardly at acute angles from the lower ends of the base portions (84a).

On the other hand, the air conditioner comprises a first engaging portion to be engaged with the first hooks (83) as the first fastening means and second engaging portions to be engaged with the second hooks (84) as the second fastening means.

Specifically, the lower portion (10f) of the rear panel (10b) of the casing (10) is formed as the first engaging portion to be engaged with the first hooks (83) and the side edge portions (10g) of the top panel (10a) of the casing (10) are formed as the second engaging portions to be engaged with the tip engaging portions (84b) of the second hooks (84).

By using the fixing device the air conditioner (1) can be fixed to the side wall (72) of the room as follows. First, bolts (90) for fixing the air conditioner are inserted downwardly through the fixing holes (H2) formed in the arms (82) 17 of the fixing device (80) and tightened against the arms (82) of the fixing device (80) by using nuts (91) (Figure 10). The fixing device (80) is fixed to the wall by inserting nails or bolts in the fixing holes (H3) formed in the vertical plate member (81).

Next, as shown in Figure 8, the lower portion (10f) of the rear panel (10b) of the casing (10) is hung on the first hooks (83) of the fixing device Then, the front-side portion of the air conditioner is raised by using the hooked lower end portion (10f) as a support so that the side edge portions of the top panel (10a) are hung on the second hooks The side edge portions (10g) of the top panel (10a) come into engagement with the second hooks (84) when they move to positions higher in level than the tip engaging portions (84b), while the tip engaging portions (84b) of the second hooks (84) are outwardly widened under pressure (Figure 11) when the top panel (10a) passes between the second hooks (84).

When the air conditioner is thus brought into engagement with the fixing device the fixing bolts (90) pass through the fixing holes (H2) of the top panel (10a) of the casing By tightening the nuts (92) against the fixing bolts (90) from below, the air conditioner can be fastened to the fixing device Thus, in this structure, the engaging mechanism is used to temporarily fasten the air conditioner to the fixing device Figure 10 shows a state in which the air conditioner (1) is locked by using a double nut After the air conditioner 18 is fastened to the fixing device the side panels are attached to the casing whereby the fixation of the air conditioner is completed.

In the present embodiment, the position at which the air conditioner is engaged with the fixing device (80) is determined such that a small gap of about 5 millimeters is formed between the arms (82) of the fixing device (80) and the top panel of the casing (10) when the air conditioner is temporarily fastened to the fixing device The gap is provided for the adjustment of the position of the air conditioner Because the depth of the air conditioner is larger than the height thereof, the air conditioner is likely to be inclined forwardly when it is fixed. The gap is provided especially for preventing the air conditioner from being inclined forwardly by differently tightening the bolts and nuts (90, 91, 92) against the front and rear sides of the casing If the air conditioner is forwardly inclined, it can be held in a horizontal position by tightening up the front side thereof, while leaving the gap on the rear side.

Figure 12 shows the fixation of the air conditioner to the ceiling (71) of the room which is performed by using the fixing device In this case, the fixing holes (H2) of the top panel of the casing (10) and the fixing holes (Hi) of the arms (82) of the fixing device (80) are formed in positions corresponding to hanger bolts (95) of the ceiling (71) for fixing the air 19 conditioner In this case, the fixing device (80) is fixed first by sandwiching it between nuts (96) screwed to the hanger bolts through the ceiling (71) from above and below. After the fixing device (80) is fixed to the hanger bolts the lower portion of the rear panel (.10b) of the casing (10) is hung on the first hooks (83) and the front end portion of the air conditioner is raised by using the hooked lower portion (10f) as a support, whereby the air conditioner is temporarily fastened to the fixing device similarly to the case of fixing the air conditioner to the side wall By tightening nuts (97) against the hanger bolts protruding downwardly from the top panel (10a) and attaching the side panels (10e) to the casing the fixation of the air conditioner is completed.

A description will be given to the air conditioning operation of the air conditioner The fans (20R, 20L) are driven by the fan motor (25) to rotate and introduce the room air by suction from the air inlet (41) into the casing The room air introduced by suction into the casing (10) flows through the air passage passes through the bellmouth flows into the fans (20R, 20L), and laterally flows out of the fans (20R, toward each of the air outlets.

The room air passes through the heat exchanger while flowing toward the air outlets (43, 44). A refrigerant of a n,--refrigerating circuit passes through the heat exchanger though it is not depicted. During a cooling operation, the refrigerant evaporates by heat-exchanging with the room air in the heat exchanger thereby cooling the room air and generating low-temperature conditioned air. During a heating operation, the refrigerant condenses by heat-exchanging with the room air in the heat exchanger thereby heating the room air and generating high-temperature conditioned air. It follows therefore that the conditioned air generated in the heat exchanger (30) is discharged from the air outlets (43,.44) in three directions into the room.

Since the air inlet (41) and the air outlets (43,44) are located at a specified distance from each other, a so-called air short circuit in which the conditioned air discharged from the air outlets (43, 44) is sucked again from the air inlet (41) does not occur.

The present embodiment achieves the following effects.

That is, since the fixing device (80) is used to fix the air conditioner to the side wall (72) of the room and the top side of the casing (10) is fastened to the fixing device sufficient fixing strength is obtainable even if the air conditioner has a large depth.

Moreover, since the air conditioner is fastened temporarily to the fixing device (80) and then secured thereto whether the air conditioner is fixed to the side wall (72) or to the ceiling the worker who supports the air conditioner in tightening up the nuts (92, 97) is no more required so that 21 ~T only one worker is sufficient to perform the fixing operation, which improves workability.

Since the gap is provided between the arms (82) and the top panel (10a) of the casing (10) when the air conditioner is brought into engagement with the fixing device the casing is prevented from being inclined forwardly. Even if the ceiling (71) or the side wall (72) is inclined, the gap between the air conditioner and the ceiling (71) can be adjusted advantageously.

According to the foregoing embodiment of the prevent invention, the following structure may also be provided. Although the air conditioner having the casing (10) composed of the main body (11) and the swelling portion (13) has been described in the foregoing embodiment, the present invention is also applicable to the air conditioner having a casing configured as a rectangular parallelepiped on the whole. The present invention is not limited to the air conditioner having a casing with a large depth and is also applicable to an air conditioner of the type having a smaller depth.

Although the lower portion (10f) (first engaging portion) of the rear panel (10b) of the casing (10) is hung on the first hooks (83) in the foregoing embodiment, it is also possible to form holes in the lower portion of the rear panel (10b) of the casing (10) and hang the lower portion on the first hooks (83) SR-hrough the holes. Although the side edge portions (10g) of the 22 top panel (10a) of the casing (10) are hung on the second hooks (84) in the foregoing embodiment, the portion hung on the second hooks (84) is not limited to the top panel (10a) of the casing and a lower portion may also be hung on the second hooks (84).

In short, it is sufficient for the portion of the casing (10) anterior to the first engaging portion (10f) to be hung on the second hooks (84).

Although the horizontal panel member (82) is separated into the left and right parts each formed as an arm having an L-shaped cross section in the foregoing embodiment, the configuration thereof is determined appropriately in accordance with the configuration of the casing (10) and need not necessarily be separated into the left and right parts.

The fixing device (80) may also be used exclusively for a wall-mounted application. In that case, fixing means other than the bolts (90) may also be used. To fix the fixing device to the side wall (71) of the room, proper fixing means other than bolts may also be used.

Although the first hooks (83) as the first fastening means and the second hooks (84) as the second fastening means (84) are used as the mechanism for temporarily fastening the airconditioner to the fixing device (80) in the foregoing embodiment, the air conditioner can also -be fixed to the side wall or the like of the room by using only the hooks (83, 84) without using the Lts (90) or the like if the air conditioner is for, home 23 use and has a smaller depth.

Claims (5)

1. 2. The fixing device of claim i, wherein the vertical plate member (81) is formed with fixing holes (H3) for fixing the fixing device to a side wall (72) of a room and the horizontal member (82) is formed with fixing holes (HI) for bolts (90, 95) for fixing the air conditioner
2. 3. The fixing device of claim 2, wherein the fixing holes (Hi) of the horizontal plate member are formed in positions corresponding to the hanger bolts (95) of a ceiling (71) for fixing the air conditioner
3. 4. The fixing device of claim 1, wherein the first fastening means is first hooks (83) provided on a lower end portion of the vetical plate member (81) and the second fastening means is second $c hooks (84) provided on left and right edge portions of the horizontal plate member (82) to be engaged with side edge portions (lo0g) of the air conditioner the second hooks (84) being formed of an elastic material and comprising respective base portions (84a) located along the side edge portions (lOg) of the air conditioner and respective tip engaging portions (84b) formed to bend inwardly of the side edge portions (lOg) of the air conditioner from respective lower ends of the base portions (84a).
4. 5. A fixing structure for fixing an air conditioner by using a fixing device (80) as recited in claim 1, the air conditioner comprising a first engaging portion (10f) to be engaged with a first fastening means (83) and a second engaging portion (lo0g) to be engaged with a second fastening means (84).
5. 6. The fixing structure of claim 5, wherein the first fastening means (83) and second fastening means (84) of the fixing device (80) and the first engaging portion (10f) and second engaging portion (l0g) of the air conditioner are engaged with each other with a top face (10a) of the air conditioner extending nearly along the horizontal plate member (82) of the fixing device a position at which the air conditioner is engaged with the fixing device (80) being determined such that a gap for adjusting the position of the air conditioner is formed between the horizontal plate member (82) of the fixing device (80) and the 26 top face (10a) of the air conditioner