FR2553180A1 - Air-conditioning unit with cooling circuit, particularly for an window-mounted unit - Google Patents

Abstract

The air-conditioning unit comprises an evaporator compartment containing an evaporator and a fan for blowing air through an intake grid and for driving it back through a blower grid after cooling it by contact with the evaporator. Electrical devices are actuated by electrical control units. The electrical control units 52, 56 are rotating coaxial members which are situated on both sides of the blower grid 26 and each of which, through a bevel gear 58, 62, drives a control shaft 60, 64 passing through the evaporator compartment 10 and connected to the electrical devices 36, 38 placed behind the evaporator compartment 10. Application particularly to window-mounted air conditioners.

Description

 The present invention relates to an air conditioning unit with a refrigeration circuit that can be produced in particular in the form of a window air conditioning unit.

 Air-conditioning devices of this kind are used to cool dwellings and include in particular an evaporator compartment provided with an evaporator and a fan for sucking air through a suction grille and discharging it through a grille. blowing after cooling in contact with the evaporator, and electrical components actuated by electrical control components.

 The refrigeration circuit of such devices conventionally comprises, in addition to the aforementioned evaporator, a compressor, a condenser and an expansion member traversed in normal operation in this order by a refrigerant. The evaporator is located on the interior side to cool the interior air of the house by heat exchange with the refrigerant which heats up as a result. The refrigerant thus heated is then compressed by the compressor and sent to the condenser which is located on the outside of the house, to restore heat to the outside environment. On leaving the condenser, the refrigerant is expanded in the expansion member and then sent to the evaporator.

 In known devices of this kind, the electrical control members which actuate the electrical members (switch and thermostat) of the device are located on the front of the evaporator housing, thereby reducing the space available for the suction grille and for the supply grille.

 The present invention aims to avoid such a drawback by proposing an air conditioning device of the aforementioned type in which the electrical control members are not located in the flow of air drawn or blown, in order to leave the entire suction section and the entire blowing section free for the passage of air, thereby reducing the noise level.

 The particular arrangement of the electrical control members of the invention also makes it possible to reduce the size of the transmission means between the electrical control members on the one hand and the electrical members on the other hand, thus ensuring better operation of the evaporator compartment.

 The present invention relates to an apparatus.

of air conditioning of the aforementioned type, in which the electrical control members are coaxial rotary members which are arranged on either side of the blowing grille and which each entralnent, by an angle gear, a control shaft passing through the evaporator compartment and connected to the electrical components located behind the evaporator compartment.

 As a result, the evaporator compartment is not encumbered by the electrical components, nor by a bulky transmission system since the latter comprises only two control shafts passing through the evaporator compartment.

 In a preferred embodiment of the invention, the blowing grid is produced, in a manner known in sciai in the form of a straight cylinder portion and is provided internally with circular deflectors mounted inclined on two driven coaxial half shafts independently in rotation by 3rd control -blowing members.

 The invention therefore provides that in the extension of each half-shaft is mounted a blower control member and an electrical control member.

 I1 then results in that all of the control members of the apparatus, that is to say both the electrical control members and the blower control members, are located outside the gauge of the apparatus, thus offering the benefits listed above.

 In this preferred embodiment of the invention, the blower control member is a rotary button integral in rotation with the corresponding half-shaft, while the electrical control member is a rotary or axial button, not integral in rotation of the half tree.

Other characteristics and advantages of the invention will be better understood on reading the detailed description which follows and which refers to the appended drawings, in which
Figure 1 is a cross-sectional view of an air conditioning device according to the invention
Figure 2 is a partial front view of the apparatus of Figure 1
Figure 3 is a top view of the apparatus of Figure 1; and
Figure 4 is a partial view of Figure 3 showing in detail the structure of one blower control member and the electrical control member of the apparatus of the invention.

 The air conditioning apparatus shown diagrammatically in FIG. 1 is intended to be placed on the frame of a window of a dwelling or in an opening made in an exterior wall to cool the interior ambient air. This device comprises an evaporator compartment 10 intended to be placed on the interior side of the dwelling, a condenser compartment 12 intended to be placed on the exterior side of the dwelling, and an intermediate compartment 14.

 The refrigeration circuit of the device comprises an evaporator 16 placed inside the evaporator compartment 10, a compressor 18 placed inside the compartment 14 (cf. FIG. 3), a condenser 20 placed inside the condenser compartment 12 and a detent member (not shown) placed inside the intermediate compartment 14.

These organs are traversed in normal operation in this order by a refrigerant fluid conventionally constituted by a gas of the type Fr.oo. The evaporator conventionally by a gas from 16 constitutes a heat exchanger intended to cool the interior air of the dwelling, while the condenser 20 constitutes another heat exchanger intended to restore to the external ambient medium the heat stored by the refrigerant fluid.

 The evaporator compartment 10 is also provided with a fan 22 for sucking the interior air of the dwelling through a suction grid 24 and discharging it through a blowing grid 26 after cooling in contact with the evaporator 16, as shown by the arrows F.

 The condenser compartment 12 is also provided with a fan 28 to suck the outside air through a suction grid 30 and discharge it through a blowing grid 32 after heating in contact with the condenser 20 (see arrow G).

 The intermediate compartment 14 houses, in addition to the compressor and the expansion member of the refrigeration circuit, the motor 34 for driving the fans 22 and 28 and the electrical components of the device. These electrical components include in particular a thermostat 36 and a switch 38 (cf.

figure 3).

 As can be seen from Figures 1 and 2, the suction grille 24 has a generally rectangular shape, while the blowing valve 26 has the shape of a straight cylinder portion and is internally provided with circular deflectors 40 and 42 mounted inclined on two coaxial half-shafts 44 and 46 which can be independently driven in rotation by blower control members which will be described later. The half-shafts 44 and 46 are mounted in the extension of one another with the interposition of a central bearing 48 (cf. FIG. 3) and are directed along the axis XX of the right cylinder forming the blowing grid 26 .We will understand that, by modifying the orientation of the half-shafts 44 and 46, - we can modify at will the flow of air discharged through the spuffling grid 26. In the extension of the half-shaft 44 is mounted a control member 50 blower and an electric control member 52, and in the extension of the half aPhe46 is mounted a member 54 of. blower control and an electric control member 56. The members 50 and 54 are rotary knobs integral in rotation with the semi-corresponding 44 or 46. The electrical control members 52 and 56 are also constituted by coaxial rotary knobs, not integral in rotation with the half-res44 and 46. The electrical control member 52 is intended to actuate the thermostat 36 by means of a bevel gear 58 and a control shaft 60 which passes through the evaporator compartment, and the control member 56 is intended actuating the switch 38 by means of a corner drive 62 and a control shaft 64 which also passes through the evaporator compartment. The structure of the control members 50 and 52 will now be more particularly described with reference to FIG. 4, it being understood that the structure of the control members 54 and 56 is strictly homologous to the structure of the control members 50 and 52.

 As can be seen in FIG. 4, the electrical control button 52 and the blower control button 50 are mounted on the same support 66 comprising a sleeve 68 terminated by a flange 70. The electrical control button 52 drives a pinion bevel 72 engaged inside, inside the sleeve 68 and driving another bevel gear 74 secured to a transmission shaft 76. The latter passes radially through the sleeve 68 and drives the electric control shaft 60 by means of a coupling 78.

 The blower control button 50 comprises a hollow cylindrical portion 80 which pivots around the sleeve 78 and which is integral in rotation with the corresponding half-shaft 44. The cylindrical portion 80 has a cutout 82 in an arc of a circle for the passage of the transmission shaft 76. Thanks to this structure, the blower control button 50 can pivot along the axis XX on a determined arc, which allows the orientation of the deflectors 40 over a corresponding determined range.

 The particular arrangement of the control members 50 and 54 and of the control members 52 and 56, at the end of the blowing grid 26, prevents it from encroaching on the blowing section and on the suction section, thereby reducing the sound level of the device.

 it should also be noted that the particular arrangement of the electrical members inside the intermediate compartment and the small size of the control shafts 60 and 64 make it possible not to unnecessarily clutter the evaporator compartment 10 of the device.

 The invention is not limited to the embodiment particularly described and shown and also extends to other alternative embodiments.

Claims (6)

 1. Refrigeration circuit air conditioning apparatus, comprising in particular an evaporator compartment (10) provided with an evaporator (16) and a fan (22) for sucking air through a suction grid (24) and discharge it through a blowing grid (26) after cooling in contact with the evaporator (10), and with electrical members (36,38) actuated by electrical control members (52,56), characterized by the fact that the electrical control members (52,56) are coaxial rotary members which are arranged on either side of the blowing grid (26) and which each drive, by a bevel gear (58,62), a control shaft (60,64) passing through the evaporator compartment (10) and connected to the electrical components (36,38) placed behind the evaporator compartment i10). ,.  2. Apparatus according to claim 1, wherein the blowing grid (26) has the shape of a straight cylinder portion and is internally provided with circular deflectors (40,42) mounted inclined on two half-shafts (44,46 ) coaxial independently driven in rotation by blower control members (50,54), characterized in that in the extension of each half-shaft (44-, 46), a blower control member (50, 54) and an electrical control member (52,56).  3. Apparatus according to claim 2, characterized in that the blower control member (50,54) -is a rotary knob integral in rotation with the corresponding half-shaft (44,46) and the electrical control member (52,56) is a coaxial rotary knob, not integral in rotation with the aforementioned half-shaft.  4. Apparatus according to claim 3, characterized in that the electric control button (52,56) and the blower control button (50,54) of each half-shaft (44,46) are mounted on the same support '(66) comprising a sleeve (68) terminated by a flange (70).  5. Apparatus according to claim 4j characterized in that the electrical control button (52,56) drives a bevel gear (72) coaxial engaged in the sleeve (68) and driving another bevel gear (74), integral with a transmission shaft (76) which passes radially through the sleeve and which drives an electrical control shaft (60,64).  6. Apparatus according to one of claims 4 and 5, characterized in that the blower control button (50,54) has a hollow cylindrical portion (80) which pivots around the sleeve (68), is integral in rotation of the corresponding half-shaft (44,46) and has a cutout (82) - in an arc for the passage of the transmission shaft (76).