EMBEDDED AIR EXTRACTOR

Abstract

 The extractor has: [a] a supporting casing of insulating material provided with a cylindrical part; and a laminar part (2) in integral arrangement at right angles to the axis of the cylindrical part (1); an impeller (6) fitted with blades acting as a fan; an electric motor (5); and an electronic circuit (7); [b] a cylindrical part (1) having a cavity partially occupied by a coaxial cylindrical body (3) in which are housed the impeller (6), the electric motor (5) and the electronic circuit (7); the cylindrical part (1) and the cylindrical body (3) are linked by radial arms (4); and, between the part (1) and the body (3), there is a passage which surrounds said body (3); and [c] a laminar part (2) which on its perimeter, has an elastic section which extends beyond this perimeter and which can be anchored in a removable manner in a groove (21) on a side edge (16) of a front cover, the latter being in the form of a thin bowl and which is provided with an opening (17).

Description

DESCRIPTION

[0001] he present invention concerns an air extractor adaptable for building in, of the type of those which comprise: a supporting casing of insulating material, an impeller with blades working as an axial fan, an electric motor and an electronic circuit.

[0002] It is often convenient to install extractors in small enclosures or rooms, such as bathrooms, toilets, pantries, cellars or washing rooms, etc., which lack direct ventilation to the outside.

[0003] The normally known extractors are frequently difficult to mount in a built-in manner in standard individual ducts for static extraction or ventilation which are installed in almost all buildings. In addition, with these conventionally known extractors it is not simple to perform their assembly in a wall, ceiling or window and, moreover, said assembly frequently requires a space which is often not available.

[0004] The invention proposed overcomes these drawbacks. This objective is achieved by means of an extractors of the kind referred to at the beginning, which is characterised in that said supporting casing consists of a cylindrical part; and an integral laminar part arranged substantially at right angles to the axis of said cylindrical part; said cylindrical part having a cavity partly occupied by a coaxial cylindrical body on which are installed said impeller, said electric motor and said electronic circuit; said cylindrical part and said cylindrical body being linked by means of radial arms; and, between said cylindrical part and said cylindrical body there being a passage which surrounds said cylindrical body; and said laminar part having on its perimeter, an elastic section which extends beyond said perimeter and which is suitable for anchoring in a removable manner in a groove on a side edge of a front cover, the latter being in the form of a thin bowl in which an opening has been made.

[0005] The extractor object of the invention offers various advantages over the models presently available on the market, and these advantages are based on its low profile; this thinness of the cover permits it to be installed in a wall, ceiling or window as required.

[0006] Other advantages and characteristics of the invention can be appreciated from the following description, in which, in a non-restrictive manner, a preferential method of implementing the invention is explained, making reference to the drawings hereto attached. The figures show:

Fig. 1 is a front view, exploded in perspective, of the extractor object of the present invention.

Fig. 2 is a diametrical cross section of the extractor in accordance with Fig. 1, conveniently assembled.

Fig. 3 is a diametrical cross section of same extractor, showing also elements related with its adaptation to a window of any standard thickness.

Fig. 4 is a front view, exploded in perspective, of the supporting casing of the extractor and cover, showing schematically the system for mounting.

[0007] The extractor device object of the invention comprises, in the first place, a supporting casing which is preferentially moulded in a single piece from a suitable plastic material. This supporting casing is in the form of a cylindrical part 1, and a laminar part 2, the orientation of which is perpendicular to the hypothetical axis of the cylindrical part; preferentially it is square in shape though its sides are slightly concave.

[0008] The cylindrical part 1 is serves for the housing of the assembly formed by the impeller 6 fitted with blades, that acts as axial ventilator, the electric motor 5 and the electronic circuit 7, useful for different applications. Inside said cylindrical part 1 is also to be found a cavity which is occupied partly by a cylindrical body 3, preferably moulded in single piece with the assembly, located coaxially with respect to the cylindrical part 1; from the foregoing, it is appreciated that a passage is left between the cylindrical part 1 and the cylindrical body 3. This cylindrical body 3 is connected by means of a number of radial arms 4 with the cylindrical part 1. The electric motor 5 is housed, practically entirely, inside the cylindrical body 3 and the impeller 6 is fixed directly onto the shaft of the electric motor 5. It is preferable that the impeller 6 be moulded in a single piece from a suitable plastic material in order to partly cover the electric motor, thereby eliminating any possibility of establishing contact with parts of the extractor that may be electrically live, even when using the feeler gauge required for the tests dictated by the electrical safety standard.

[0009] It can be seen that the cylindrical body 3 consists of two inverted housings, one for the aforementioned electric motor and another situated centrally to hold the different electronic circuits, such as the timing circuit and the circuit 7 equipped with a humidity detector (Fig. 1). This housing likewise permits the mounting of a standard connection strip in the case of a standard extractor, or the mounting of the electronic circuits in a quick and secure manner, retaining them in position by pliable pawls inside the housing, which provides the benefit of permitting the housing of all connections to be made on installation without taking up space on the outside and permitting the use of an extremely flat cover 8, wherein an innovation is introduced in the size of the extractors commercially available to date, permitting the invention to be housed almost entirely inside ducting pipes, in holes or other recesses made in walls, windows or ceilings for this purpose.

[0010] Two of the radial arms 4 which link the cylindrical body 3 with the cylindrical part 1, being situated at 180° from each other, have a fork 10 in the arm 4 in order to leave room for a quick-fit system to the ducting pipe wall, making it unnecessary for the operator to perform operations of hole-drilling and insertion of plugs and screws, leaving the latter procedure optional to the user if any case should so requires, since the face 2 incorporates four drilled holes at its extremities for screw-mounting.

[0011] These forks delimit spaces open to the outside surface of the cylindrical part 1 (Fig. 2) and closed by a front partition (which in Figs. 2 and 3 is situated in the upper part of the corresponding drawing sheet) and this outside partition is traversed by a screw 11; in each of these spaces is to be found a fluke which can rock back and forth; at its free end are projections suitable for biting into appropriate surfaces and it has a frontal fold with a hole through which the screw 9 can run. Each space also incorporates an essentially prismatic part 32 through which screw 9 can run; this piece 32 is fitted in such a manner it cannot turn in the space mentioned; thus, when screw 11 is turned, the piece 32 is moved towards the outside partition and, as a consequence, produces the tilting of the fluke 9 towards the outside of the cylindrical body 3, the result being its free ends overshoot the space and can bite into a body surrounding the cylindrical part 1, the flukes 9 being anchored into the walls where it is to be installed, fixing the extractor in place in a quick and clean fashion.

[0012] It can be seen that in the example of implementation shown in the drawings, the radial arms have been designed as a thin flat shape whereby they merely act as guide vanes for the air flow, achieving maximum advantage of the circular cross section for said air flow, however they can be implemented with other shapes and sections.

[0013] In the cylindrical body 3 a central pillar 12 can be observed, to which the protective cover 13 is screwed, preferably moulded as a single piece, which can close the housing of the electronic circuitry; preferentially it is round in shape, but other forms can be taken, with arms arranged at 180° in order to fit into the channels made in the radial arms for the passage of cables and be able to mount the cover 13 securely. In the event that it is considered convenient, a number of small slots 14 can be made permitting thereby the penetration of humidity for detection without failing to comply with any tests of the standard. Likewise it incorporates a drill hole 15, for the case of incorporating a humidity detector, with the purpose of showing a light emitting diode (LED) to indicate the operational state.

[0014] A front cover 8 can be pressure-fitted and held in place on the front face of the supporting casing; this can be done, for example, by means of a device 31 with non-return anchoring, its release only being possible with the assistance of a screwdriver tip. This cover 8, preferably moulded in a single piece, takes the form of a very flat, square-shaped tray, having a side edge 16 (Fig. 2) of very reduced height arranged so that its free edge fits over the edge of the leaf 2. Said cover preferentially slightly convex or arched, provided with a large central opening 17, which constitutes the entrance for the suction or intake of air to the extractor, is covered by a grill 18, preferably moulded as a single piece with the assembly, framed by the inside part of the opening 17 by a lip 19 (Fig. 3), which is prepared for fitting on the free edge of the inside diameter of the laminar part 2 of the supporting casing; these elements fit together in an extremely shallow configuration. The outlet for the conductors corresponding to the power supply of the device can be led through the slight gap 20 provided for this purpose in the laminar part or flat leaf 2, or it can also be done laterally though the front cover 8, provided with a notch 21 in its side wall.

[0015] In accordance with an important characteristic of the invention, at the extremity of the cylindrical part 1, there are two rectangular slots for the anchoring of a first ring 22, which in turn is provided with fixing pawls and drill holes which run through the thickness of the first ring 22 in order to incorporate two semi-circular fins 24, the function of which is to block the passage of return air, with the help of two weak springs inserted on the axis of rotation of the fins, making it possible for air to pass outwards only.

[0016] On the outside surface of the cylindrical part 1 are to be found a number of embossed segments between which are gaps arranged helicoidally: these gaps are suitable for receiving the helicoidal projection formed on the inside cylindrical face of a second ring 25 (Fig. 3), all of the foregoing being such that the screwed assembly of said ring on said cylindrical part, makes it possible to achieve a graduation in the distance of the second ring 25 with the laminar part 2.

[0017] In other words, the extractor, as well as to a wall or ceiling, can be applied to a window pane; to this end, an optional kit is prepared consisting of the second ring 25, a frame 26, a front cover 27 and an offsetting frame 28, these being moulded from a plastic material. The second ring 25 has incorporated on its inside diameter a screw thread which adapts to the threaded sections of the cylindrical part 1 of the supporting casing whereby when screwed onto said part the kit frame 26 is trapped against the glass and by displacing the inside face of the support leaving an offsetting section between the two elements mentioned which shall depend on the thickness of the glass. Therefore, in both cases the distance is offset with the offsetting frame 28 which being nestable can be built up to the thickness required.

[0018] The front cover of the kit explained, is press-fitted, and held in position by means of a screw 29, preferentially moulded in a single piece, which takes the shape of a square tray, having side walls 30, arranged to fit on its free edge into a recess which runs parallel to the edge of the outside partition of the frame 26, with a retaining web on its side opposite to the screw socket.

[0019] The offsetting frame is an independent piece preferably square in shape, following the external profile of the front cover 8, moulded from plastic material, which with a slot following the outside profile on one side and a rib standing out on the other face, makes it possible to assemble various frames until the desired offsetting height is reached.

Claims

1. Air extractor adaptable for building in, of the type of those which comprise: a supporting casing of insulating material; an impeller (6) fitted with blades acting as an axial fan; an electric motor (5); and an electronic circuit (7), characterised in that said supporting casing consists of: a cylindrical part (1); and a laminar part (2) in integral arrangement substantially at right angles to the axis of said cylindrical part (1);

said cylindrical part (1) having a cavity partially occupied by a coaxial cylindrical body (3) in which are housed said impeller (6), said electric motor (5) and said electronic circuit (7); said cylindrical part (1) and said cylindrical body (3) being linked by means of radial arms (4); and, between said cylindrical part (1) and said cylindrical body (3), there being a passage which surrounds said cylindrical body (3);

and said laminar part (2) having on its perimeter an elastic section which extends beyond said perimeter and which is suitable for being anchored in a removable manner in a groove (21) on a side edge (16) of a front cover, the latter being in the form of a thin bowl and which is provided with an opening (17).

2. Extractor in accordance with claim 1, characterised in that at least two of said radial arms (4) each determine a space open to the outside of said cylindrical part (1) and closed by a front partition through which runs a screw (11); in each of these spaces there being a fluke (9) joined to said front partition with the possibility of tilting back and forth and an essentially prismatic part (32) through which said screw (11) can run and which fits without the possibility of turning in said space; all the foregoing so that the turning of said screw (11) causes said essentially prismatic part (32) to move towards the outside partition, provoking the tilting of said fluke (9) with the result that its free ends overshoot said space and become able to grip into a body surrounding said cylindrical part (1).

3. Extractor in accordance with claim 1 or 2, characterised in that on the outside surface of said cylindrical part (1) are to be found a number of raised projections between which are determined a number of spaces arranged helicoidally, said spaces being suitable for receiving the insertion of a heicoidal rib made on the cylindrical inside surface of a ring, all the foregoing so that the assembly by screwing said ring onto said cylindrical part (1) makes it possible to graduate the distance of said ring from said flat part (2).

Drawing