Structure and use of a panel with integrated air conditioner for prefabricated houses

Abstract

An object is to provide an air conditioner-incorporating panel for a prefabricated house which can be safely moved so as to enhance the efficiency of operating of a step of assembling the prefabricated house. An outdoor unit P for an air conditioner is fixed to the outer surface of a wall panel 1 that is fitted to a prefabricated house. An indoor unit Q is fixed to the inner surface of the wall panel 1. A support base 2 is provided below the outdoor unit P on the side of a lower end portion of the outer surface of the wall panel 1. The wall panel 1, supported by the support base 2, is inclined so as to stand on its own at such an angle that loads on the inner and outer surfaces are equalized. Casters 3 are fitted to the lower surface of the support base 2.

Claims

1. A wall panel for a prefabricated house the panel comprising an outdoor unit of an air conditioner fixed to an outer surface of the wall panel and an indoor unit fixed to an inner surface of the wall panel, a support base provided below the outdoor unit on a side of a lower end portion of the outer surface of the wall panel and the support base includes a pair of inclination members fixed to left and right sides of the outer surface on side edges of the lower end portion of the wall panel and whose bottom surfaces are inclined, wherein loads on the inner and outer surfaces of the wall panel are configured so that the wall panel can stand in an inclined state on its own with the wall panel supported by the support base, casters are fitted to a lower surface of the support base to support the wall panel in the inclined state while the wall panel rolls; supports are placed on the inclination members and fix the outdoor unit to the inclination members, wherein left and right casters of the casters which are fitted to the lower surface of the support base are respectively arranged on front, bottom surfaces of the inclination members, a first caster of the left and right casters fitted to the lower surface is fitted to a first end of a left longitudinal caster support, a second caster of the left and right casters fitted to the lower surface is fitted to a first end of a right longitudinal caster support, a third caster of the left and right casters fitted to the lower surface is fitted to a second end of the left longitudinal caster support, a fourth caster of the left and right casters fitted to the lower surface is fitted to a second end of the right longitudinal caster support, wherein the first end of the left longitudinal caster support is fitted into an interior of one of the inclination members and the first end of the right longitudinal caster support is fitted into an interior of another one of the inclination members where the left longitudinal caster support and the right longitudinal caster support freely swing, a first angle adjustment member is rotationally secured to the left longitudinal caster support, a second angle adjustment member is rotationally secured to the right longitudinal caster support, and wherein the first and second angle adjustment members hold the wall panel in a vertical position.

2. The wall panel according to claim 1, wherein each first end portion of the angle adjustment members is respectively coupled to the longitudinal caster supports such that the angle adjustment members freely swing and such that a pair of screwing portions whose fixed angles are different are formed in each second end portion of the angle adjustment members.

3. The wall panel according to claim 1, wherein the wall panel is installed vertically into the prefabricated house with an upper end portion thereof fitted into a ceiling beam of said prefabricated house.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a perspective view showing an embodiment of the present invention;

(2) FIG. 2 is a front view showing the embodiment of the present invention:

(3) FIG. 3 is a side view showing a state where the present invention is moved and fitted:

(4) FIG. 4 is a cross-sectional side view showing a support base in the present invention:

(5) FIG. 5 is a cross-sectional side view showing the movements of a caster support lever and an angle adjustment lever in the present invention:

(6) FIG. 6 is a cross-sectional side view showing a state where a support plate is supported by the angle adjustment lever in the present invention;

(7) FIG. 7 is a cross-sectional plan view showing a state where the present invention is fixed to a prefabricated house; and

(8) FIG. 8 is a side view showing a state where the present invention is stored.

DESCRIPTION OF EMBODIMENTS

(9) An embodiment of the present invention will be described below. The present invention is used as a wall panel 1 for a prefabricated house, and an outdoor unit P for an air conditioner is fitted to the outer surface of the wall panel 1 and an indoor unit Q is attached to the inner surface (see FIG. 1). Furthermore, within a wiring pipe R, a power supply and a coolant pipe are connected (see FIG. 2). The illustrated wall panel 1 is a wall panel 1 in which a window frame 1A is provided, and the outdoor unit P is installed below the window frame 1A and the indoor unit Q is installed above the window frame 1A (see FIG. 1).

(10) When the wall panel 1 is moved, the wall panel 1 is moved in an inclined state such that an upper end portion of the wall panel 1 is prevented from hitting a ceiling (see FIG. 3). Here, a support base 2 is fitted to the bottom of the outdoor unit P that is fixed to the wall panel 1, and the wall panel 1 which stands on its own at such an angle that loads on the inner and outer surfaces of the wall panel 1 are equalized is supported by the support base 2. Furthermore, casters 3 are fitted to the lower surface of the support base 2, and the wall panel 1 can be moved with the casters 3 while the state where the wall panel 1 stands on its own is being maintained.

(11) In the support base 2, the casters 3, inclination members 4, support levers 5, caster support levers 6 and angle adjustment levers 7 are provided (see FIG. 5).

(12) The inclination members 4 are fixed to the left and right sides of the outer surface of a lower end portion of the wall panel 1 (see FIG. 2), and are a pair of support members whose bottom surfaces are inclined (see FIG. 5). A setting is made such that when the wall panel 1 is inclined along the inclined bottom surfaces of the inclination members 4, the wall panel 1 stands on its own at such an angle that the loads on the inner and outer surfaces of the wall panel 1 are equalized (see FIG. 4). Furthermore, the casters 3 are arranged on the fronts and the backs of the bottom surfaces of the inclination members 4, and with the casters 3 which are protruded downward with respect to the inclination members 4, the inclined wall panel 1 can be moved while the state where the wall panel 1 stands on its own is being maintained (see FIG. 3).

(13) The support levers 5 are a pair of beam members which are mutually placed on the inclination members 4 and which are parallel to each other, the outdoor unit P is placed on the support levers 5 so as to be fixed thereto and the wall panel 1 and the outdoor unit P are integrated through the support levers 5 (see FIG. 2). On the other hand, the indoor unit Q is directly fixed to the inner surface of the wall panel 1 (see FIG. 1).

(14) The caster support lever 6 is a lever-shaped member which is fitted to the interior of the inclination member 4, one end portion is coupled to the interior of the inclination member 4 such that the caster support lever 6 freely swings and the caster support lever 6 is provided so as to be extended out from the inclined bottom surface of the inclination member 4 in a horizontal state (see FIG. 5). The casters 3 are fitted to both longitudinal end portions of the caster support lever 6. Furthermore, the angle adjustment lever 7 is provided at the other end portion of the caster support lever 6 so as to freely swing. The angle adjustment levers 7 are arranged so as to stand vertically from the other end portions of the caster support levers 6, the inclination members 4 are supported horizontally by the angle adjustment levers 7 and thus the inclined wall panel 1 can be kept vertically (see FIG. 6).

(15) The angle adjustment lever 7 is a lever-shaped member whose one end portion is coupled to the caster support lever 6 such that the angle adjustment lever 7 freely swings, and the other end portion is coupled to the inclination member 4 (see FIG. 4). Furthermore, at the other end portion of the angle adjustment lever 7, a pair of screwing portions 7A whose fixed angles are different are formed, and thus one of the screwing portions can be selected (see FIG. 5). Screwing is performed in a position in which the caster support lever 6 is stored within the inclination member 4 or in a position in which the support lever 5 is supported horizontally by the angle adjustment lever 7 of the caster support lever 6.

(16) Specifically, one of the screwing portions 7A is provided so as to be inclined with respect to the side surface of the angle adjustment lever 7, and thus the inclination member 4 is fixed in a position in which the inclination member 4 is inclined (see FIG. 4). The other screwing portion 7A is provided at the longitudinal end portion of the angle adjustment lever 7, and thus the longitudinal end portion is fixed in a position in which the inclination member 4 is in a horizontal state (see FIG. 6). In the illustrated screwing portions 7A, fixing nuts are welded to the angle adjustment lever 7 (see FIG. 5), and bolt insertion holes which are screwed to the nuts are opened in the angle adjustment lever 7 and the inclination member 4.

(17) When the wall panel 1 is moved, the angle adjustment levers 7 are fixed such that the bottom portions of the caster support levers 6 are parallel to the inclined bottom portion of the support base 2 (see FIG. 4). In this way, the wall panel 1 is supported by the casters 3 which are protruded downward from the caster support levers 6 at such an angle that the loads on the inner and outer surfaces of the wall panel 1 are equalized (see FIG. 3). Then, the wall panel 1 is moved in a state where the wall panel 1 is inclined so as to stand on its own while the angle is being maintained. Furthermore, when the wall panel 1 is close to a position in which the wall panel 1 is fitted, the wall panel 1 is arranged so as to stand vertically, the lower end portion of the wall panel 1 is placed on a floor beam 10 and the upper end portion of the wall panel 1 is fitted to a ceiling beam 11 through waterproof packing 12.

(18) In order for the wall panel 1 to be fixed to the prefabricated house, fixing frames 1B which are formed on the left and right sides of the wall panel 1 are inserted into slits 13A formed in the studs 13 of the prefabricated house so as to be locked thereto, and in this state, the wall panel 1 is fixed with fixing bolts 14 (see FIG. 7).

(19) When the wall panel 1 before being assembled in the prefabricated house is stored in a warehouse or the like, the support levers 5 are supported horizontally by the angle adjustment levers 7 which are arranged so as to stand vertically from the other end portions of the caster support levers 6 (see FIG. 8). The support levers 5 are supported in this way, and thus the wall panel 1 is kept vertically, with the result that wall panel 1 before being assembled in the prefabricated house can be stored in a vertical state.

(20) The individual configurations of the illustrated example in the present invention are simply examples of the present invention, and the shape and the size of the wall panel 1, the shapes and the sizes of the outdoor unit P and the indoor unit Q, the attachment positions and the like can freely be changed without departing from the spirit of the present invention.

REFERENCE SIGNS LIST

(21) P outdoor unit Q indoor unit R wiring pipe 1 wall panel 1A window frame 1B fixing frame 2 support base 3 caster 4 inclination member 5 support lever 6 caster support lever 7 angle adjustment lever 7A screwing portion 10 floor beam 11 ceiling beam 12 waterproof packing 13 stud 13A slit 14 fixing bolt