JP2019113308A - Air discharge port of ventilation device - Google Patents

Abstract

The present invention provides an air passage and an air outlet of a ventilation device that enables easy installation and easy repair of a ventilation system.
An air outlet of a ventilating device (8), the ventilating device at least having an air outlet, an air supply means and an air guiding means, the air outlet having a plurality of air outlet openings. Air including a plate, the air outlet being retractably attached to the interior panel in an integrated state such that the air outlet can be accessed by folding back from the interior panel so that the space behind the air outlet can be accessed Discharge port.
[Selected figure] Figure 3

Description

  The present invention relates to a drywall ceiling comprising an air outlet of a ventilating device and an air outlet of a ventilating device. In particular, the invention relates to an air outlet incorporated into an interior panel (i.e. an interior drywall panel).

  In the prior art, ventilation devices for ventilation and air conditioning of rooms are known. They are used for air conditioning or temperature control of rooms, in other words for the supply of conditioned air, ie warmed, cooled, dried and / or moistened air.

  Generally, the ventilating device comprises at least an air supply means, an air guiding device and an air outlet. The air guiding device is used to achieve a favorable environment of air flow by controlling the direction of the flow of air discharged from the ventilating device. Ventilation should be done so that the air flow can not be perceived. If the air is to be cooled, it should prevent the air from flowing vertically downward from the air outlets installed in the ceiling of the room, resulting in an unpleasant strong flow of cold air.

  In order to avoid this, in the case of a high installed air outlet, the flow of air coming from the outside is distributed in the direction of the flow of the air outlet so that it flows along the ceiling in each direction of the room. The so-called Coanda effect is used. In order to achieve this at the outlet of the ceiling, a horizontal discharge of air from the outlet of the ceiling is essential.

  The discharge angle of the air flow is influenced by several components of the ventilator. Air is supplied to the discharge means in the direction in which the flow is supplied and then usually needs to be deflected in order to flow through the air discharge openings to the room to be ventilated. This often occurs in the deflection and / or collision chamber.

  In order to allow accurate and flexible control of the flow of discharged air, the device of the outlet may be provided with additional air guiding elements. The air guiding element may be movably arranged such that the user can individually adjust the direction and / or intensity of the flow of the exhausted air.

  Another element of the ventilator is the air passage. The air passage is essentially a cover below the ventilator. Thus, for the end user, the cover clearly controls the appearance of the ventilation device. However, this cover plate also influences the direction of the air being discharged and the air flow behavior. This can be used for air guidance. On the other hand, the cover plate, which will be described later as an air outlet, can be further designed to have a minimal effect on the exiting air flow. For this reason, the prior art air outlets are often grid plates, thin perforated plates or thin slit plates made of painted or sheet metal.

  In essence, the design of the visible air outlet is determined by the function and is often unattractive to the viewer. Furthermore, the ventilating device with the air outlet creates foreign bodies in the homogeneous overall architectural appearance of the ceiling or wall otherwise. Accordingly, there is a need for an air outlet that integrates into the environment with minimal disruption to the overall architectural appearance. However, the functionality of the air passage should not be impaired, especially if the air passage is an air outlet.

  In particular, this problem is evident in the ventilating device inserted into the suspended interior drywall panel. However, the construction of a drywall panel (i.e., gypsum board) attached to the support profile provides space between the wall or exposed ceiling and the drywall panel. This space may be used to accommodate non-visible parts of the ventilation device. However, having a relatively large thickness of the drywall panel means that the air outlets produced by the thin plate are not finished flush with the outer edge of the drywall panel.

  When drywall panels made of gypsum board are used as elements of drywall, the gypsum board typically has a thickness of about 12.5 mm while the air passage known in the prior art is , Often a few millimeters thick metal plate.

  Gypsum board has the advantage of allowing other functions apart from covering and dividing up the space. For example, a perforated gypsum board may be used to build a room that reduces acoustic noise. There is a perforated gypsum board with various hole or groove designs. There is a need for an air passage that can be adapted as much as possible to these designs so that the overall architectural appearance is not affected by the air passage.

  In general, it is possible to use holes or perforations in perforated gypsum board as the air passage. In such a case, the air outlet will not differ from the appearance of the rest of the ceiling. However, this solution does not provide the comfort provided to the consumer as the relatively large thickness of the gypsum board impedes the outflow of air at horizontal angles.

  There is an additional disadvantage of combining a ventilation system with a drywall construction. At present, ventilation systems are not part of drywall construction systems. This means that the ventilator is incorporated after the completion of the drywall construction, often with damage to the assembled drywall construction. The independent focus of the drywall construction on the one hand and the ventilation system on the other hand due to the different focus on the interest of the manufacturer and the manufacturers can almost meet the requirements of the actual construction site, such as the low ceiling height. Absent.

  Conventional ceiling walkways are incorporated into drywall ceilings. Manufacturers of drywall construction and ventilation systems do not understand each other, so previously known design solutions are less attractive. Generally, the discharge openings are made of painted sheet metal. This means that the passage is always visible visually, no matter how good all the quality is, which disturbs the design of the drywall ceiling.

  Accordingly, it is an object of the present invention to provide an air passage and an air outlet of a ventilating device which allows easy installation and easy repair of the ventilating system. Air outlets may be used in particular for drywall construction to visually match the interior design.

  The problem is solved by an air outlet comprising the features of claim 1 and a drywall ceiling comprising the features of claim 12. Advantageous embodiments are defined by the features of the independent claims.

  The air discharge port of the ventilating apparatus according to the present invention comprises a plate having a plurality of air discharge openings, and the air discharge port is provided in the interior panel in order to provide a space which can be accessed behind when installed in an interior panel. It is fixed in such a way that it can be folded open from the panel. Besides the at least one air outlet, the ventilating device comprises an air supply means and an air guiding device.

  The construction of the air outlet, which can be unfolded from the interior panel, said that the drywall construction for the interior can be provided with an opening for the ventilation device by the artisan (the expert who builds up the drywall) of the drywall construction It has the advantage. Thereafter, the incorporation of the ventilation device by the ventilation craftsman is easily possible through the opening of the interior panel. Ventilation artisans find that in drywall construction there is no need to first form a suitable opening (usually an amateur opening) and that the work has already been done by drywall construction specialists. After incorporation of the ventilating device, the opening may be made non-removably visible by means of a customized or standardized air outlet produced by the drywall manufacturer. This ensures a clean and straight design of the interior panel that is easily made, and can easily meet the requirements of the site.

  In addition, subsequent repair of the ventilating device may be performed by desorption of the air outlet simply by folding open the air outlet from the interior panel.

  Interior panels according to the invention are understood in the sense of, inter alia, drywall ceilings and / or drywall construction wall materials, ie dry partition walls. The phrase air passage includes an air outlet and an air inlet. The air outlet allows air to flow out of the ventilator into the room while the room air flows from the room to the ventilator through the air inlet. In the case of the air outlet, since the function other than the function of supplying air to the room is necessary, the present invention will be described below with reference to the air outlet. This is not the case for air inlets. Of course, the invention can therefore also be used as an air inlet.

  In a particularly preferred embodiment, the plate of the air outlet comprises a cover frame which at least partially covers the air outlet in the plate. Particularly preferably, the cover frame is arranged to seal the plurality of air discharge openings arranged laterally of the ventilating device not covered by the ventilating device disposed in the plate. According to this, the air outlet can be made larger than required, for example to be larger than the ventilating device. Thus, a sufficient space for incorporating the ventilation device is secured, and a space for future repair is also provided.

  The cover frame is used to seal the flow of air back into the space between the ceiling or wall and the interior panel at the plurality of air discharge openings that are not needed for ventilation. This is particularly useful when extremely horizontal emissions need to be achieved. The very horizontal discharge angle is an angle less than 25 °, preferably less than 15 °, between the ceiling or wall and the flow direction of the air flow. The angle needs to be small enough to have the Coanda effect, i.e. to allow the air flow to be drawn by the ceiling and flow along the ceiling far into the room.

  The cover frame may preferably be designed in the manner of a close frame facing all sides of the ventilator. According to this, the air outlet provided in the ventilating device may be, for example, disposed at the center of the plate and symmetrically surrounded by a close frame such as a visor.

  If the cover frame is arranged on the side of the plate facing the ventilating device, the side of the plate visible to the viewer can be freely designed without being hampered visually by the cover frame. The cover frame can also be arranged as an element of design on the side of the plate that is visible to the viewer.

  When the cover frame is arranged on the face of the plate facing the ventilating device, at least the part of the cover frame visible through the air vent opening in the plate is dark like black There may be an advantage that the air ventilation openings become visually indistinguishable from other areas of the perforated plate and / or interior panels.

  The cover frame may advantageously be coupled to the plate at the edge of the plate. For example, if the plate is provided with the cover frame, the attachment of the frame can be easily realized without visually impairing the visible surface of the plate.

  As a particularly preferred aspect of the present invention, the frame has a chamfer with respect to the ventilation device. The chamfered portion may be a 45 ° chamfered portion. The chamfer is used to laterally align the ventilating device, the frame and the plurality of air discharge openings of the plate. Since the plate is fixed to the frame and is essentially incorporated into the interior panel so that it can not slide, alignment must be done by moving the ventilator. The ventilating device is supported only by the support beam of the interior panel and is not fixed any more, so this installation is possible without labor.

  The outer edge of the ventilating device is mounted to the plate at the air outlet. It is visually advantageous if the edges of the ventilating device are mounted on the reticulated portion of the plate so as to have no or at least a minimal overlap with the plurality of air discharge openings. For this reason, alignment of the ventilating device to the plate is essential. When the outer edge of the ventilating device overlaps with a plurality of air discharge openings, visibility from below is not excluded.

  Here, if the ventilating device comprises a chamfer at the contact edge that contacts the chamfer of the cover frame, the chamfer edge at which the easy alignment of the ventilating device with respect to the cover frame complements each other The sliding between the edges makes this possible.

  The cover frame may be made of various materials, such as wood, aluminum, sheet steel or plastic. Furthermore, the cover frame may be a solid material or a single piece. Preferably, U-shaped sheet-like steel profiles are used.

  In order to enable easy, stable and durable installation of the air outlet in the interior panel, the air outlet may be equipped with a mounting frame arrangement. The mounting frame arrangement is preferably of two parts and comprises an outer mounting frame and an inner mounting frame. The outer mounting frame is fixed to an interior panel, and the inner mounting frame is mounted to the plate of the air outlet. Preferably, both mounting frames are respectively circumferentially formed and at least partially include the edge of the plate or the opening of the interior panel.

  The plate of the air outlet may have a smaller thickness than the elements of the interior (drywall) panel (drywall panel). The difference in thickness can be adjusted by the spacer such that the bottom edge of the plate in the fixed state is coplanar with the bottom edge of the surrounding interior panel. In this way, uniform mounting is possible on common or different but similar support elements.

  Such coplanar incorporation of visible surfaces in the interior panel may be achieved even if different materials having different thicknesses are used. By way of example, referring to a gypsum board with a thickness of 12.5 mm as the interior panel, the gypsum board does not need to have a ledge on the visible surface, nor does it need to be adjusted for complex assembly. It may be coupled to a 1.5 mm thick plate to optimize the air outlet.

  Further, the thickness of the plate of the air discharge port may be determined by the ratio of the thickness of the cover frame to the thickness of the interior panel so that the cover frame is preferably fixed to the inner mounting frame of the mounting device. It can be adjusted.

  The thickness of the plate of the air outlet is preferably less than 3 mm, more preferably less than 2 mm, still more preferably less than or equal to 1.5 mm. The small thickness of the plate has minimal influence on the air guidance. Depending on the material used for the plate and the dimensions of the plate, different thicknesses of the plate are required for sufficient stability. The plate should be made as thin as possible.

  The use of a hinge or hinge system is provided to fold the air outlet from the interior panel. Preferably, a hinge or hinged component may be arranged in the plate of the air outlet. For example, small opposite bolts can be provided which can be rotatably supported at the top of the interior panel so that the plate can be rotated or pivoted about an axis.

  In addition, advantageously, the plate comprises at least a removable locking device part and can be removably fixed to the interior panel. Particularly preferred are locking means, which are detached by pressing on the plate of the air outlet (i.e. a particular part of the plate), for example a locking means based on a spring system. . Such a spring based locking system is particularly preferred as it does not visually impair the visible surface of the interior panel including the air outlet. Basically, other locking systems can also be used, which are, for example, electronically controlled devices.

  In order to achieve a uniform or uniform visual appearance of the interior panel, the plate is visually indistinguishable from the surrounding interior panel, and seamlessly around this with respect to the design and the material preferably used In harmony, the plate may have the same design as the interior panel visible to the viewer. This may be achieved, for example, by covering the visible surface with a gypsum board base paper or, for example, with a backing similar to the surface of gypsum board. The gypsum board liner or backing may be further processed in the same manner as the elements of the interior panel, such as, for example, gypsum board. For example, they can be painted with a primer and painted with an interior paint, preferably by the use of rollers.

  In addition to the air outlet of the ventilating device, the invention relates to a drywall ceiling, wherein the drywall ceiling comprises a support structure for a plurality of metal profiles, an interior panel attached to the metal profiles, and at least one ventilation. It comprises a device, which comprises at least one air supply, an air guiding device and an air outlet. The air outlet comprises a plate having a plurality of air outlet openings. The air outlet is mounted so as to be able to be folded away from the interior panel to facilitate access to a space behind the interior of the interior panel.

  More preferably, the interior panel is made of gypsum board, in particular made of perforated gypsum board referred to as soundproof panel. Perforated gypsum board is widely used as a building material for absorbing sound, and of particular interest because perforated gypsum board already has a perforated pattern. The perforation pattern of the plate at the air outlet may be adapted to the perforation pattern in the perforated gypsum board so that the pattern is visually imperceptible, ie without perceptible interference with respect to size, space and / or material Be continuous. The plurality of air discharge openings of the plate at the air discharge openings have the same design as the perforation pattern of the perforated gypsum panel to further extend this pattern. They are, for example, circular or square and may be arranged in a regular or irregular pattern.

  This is due to the fact that the pattern has the same distance between adjacent holes at the transition from the perforated gypsum board to the plurality of air outlets in the plate of the air outlet from the perforated gypsum board, causing interference It is meant to be continuous without interference). The distance between adjacent holes in the plate and the perforated gypsum board as well as adjacent perforations in the plate is the same. In other words, this means that the distance between the center of the last opening before the edge of the plate and the edge is the same distance as half the distance between the centers of adjacent openings of the perforation pattern. means. If the perforations of the gypsum board and the openings of the plate are arranged in parallel, there is a uniform spacing.

  The invention will now be described in more detail by way of example with reference to the drawings. Like numbers refer to like features throughout the drawings.

Top view of drywall ceiling with ventilating device Bottom view of drywall ceiling with ventilating device Cross section of drywall ceiling with ventilating device Cross section without a ventilating device of drywall ceiling with air outlet The enlarged sectional view of FIG. 4

  FIG. 1 shows the construction in an embodiment of the drywall ceiling 1 according to the invention with an embedded ventilating device in a top view when looking from the ceiling to the floor. The drywall ceiling 1 is installed in the form of a hanging ceiling. A plurality of base profiles 41 are attached to the bare ceiling. A carrier profile 42 is attached to the base profile 41 at a right angle to these base profiles 41, which in turn constitutes a framework on which the building panel 2, here the perforated gypsum board 2, is installed. The perforated gypsum board is covered on the top by a backing, in which case a black fleece is laid on the top. For this reason, the hole 21 of the perforated gypsum board 2 can not be visually recognized in the top view of FIG.

  The perforated gypsum board 2 has an opening (not shown) into which the ventilation device 8 is inserted. In this example, the ventilation device 8 comprises a diffuser. The aeration device 8 comprises a beam 6 and is thereby supported on two support profiles 42. The aeration device 8 can move freely on the support profile 42 and is not fixed further.

  The opening of the perforated gypsum board 2 is sealed by the air outlet 3. In FIG. 1, only the outer edge of the air outlet 3 can be seen, as the diffuser 8 covers the central part of the air outlet 3. The air outlet 3 has a plate with an air opening, in this case the plate is a perforated plate 12 (not shown) of size 600 × 600 mm, thickness 1.5 mm, the air outlet 3 The inner mounting frame 20 is circumferentially surrounded at its end edge. The inner mounting frame is a profile made of aluminum.

  A hinge 22 is attached to the internal mounting frame 20 so that the air outlets 3 can be folded from the drywall ceiling about a common axis. A spring mechanism 24 is disposed at the end edge so as to face the hinge 22. The spring mechanism 24 fixes the air outlet 3 at the opening of the perforated gypsum board 2. The fixed structure can be detached by pushing from below the air outlet 3. In order to prevent a sudden descent of the air outlet 3 from the opening of the perforated gypsum board 2, the inner mounting frame 20 is further provided with a catch hook 28. The catch hook 28 holds the air outlet 3 at the half open position after the air outlet 3 is desorbed.

  FIG. 2 shows the same part of the drywall ceiling 1 shown in FIG. 1, but here it is a bottom view, ie a bottom view from the perspective of the viewer looking at the floor from the floor. In this figure, the perforations 21 of the perforated gypsum board 2 with black fleece are visible (black squares). It will be further understood that in the perforated plate 12 the air outlets 3 are in line with the perforated gypsum board 2 and do not visually differ from the perforated gypsum board 2. According to their simple construction, it can be seen that the edge of the perforations in the perforated gypsum board 2 and the air outlet 3 of the plate are adjacent.

  In order to achieve a visual uniformity between the perforated gypsum board 2 and the holes of the plate 12, the plate 12 with the openings is covered (adhered) by the liner of the gypsum board with the visible surface and the openings in the plate 12 With an opening that matches the The gypsum board liner of plate 12 is then primed and painted with the same paint as the surrounding perforated gypsum board.

  Thus, the surface of the visible side of the plate comprising the perforated gypsum board 2 and the openings 12 is the same material (the liner of the perforated gypsum board) and is likewise treated (primed, painted). The pattern of the plate with the perforated gypsum board 2 and the openings 2 is identical in shape, size and spacing. The patterns are continuous in harmony. The design of the perforated gypsum board and the air outlet do not differ at all.

  FIG. 3 shows a cross-sectional view of a drywall ceiling 1. In this depiction, the arrangement of the ventilation device 8 with the air supply 10 on the plate with the opening 13 in the air outlet 3 is shown. A cover frame 14 is disposed on the side of the dry ceiling opposite to the viewer's side so as to surround a plurality of air discharge openings 13 of the plate 12. The frame is painted black towards the viewer (not shown) so that it is not visually distinguished from the black fleece used for the perforated gypsum board when looking through the plate opening 12 . The cover frame 14 is made of sheet steel profile and has an outer dimension of 598 x 598, a 45 mm frame width and a 12 mm thickness.

  The cover frame 14 is fixed to the inner mounting frame 20 of the mounting frame devices 18, 20 and laterally seals the plurality of air discharge openings of the air discharge port. The inner peripheral edge of the cover frame 14 facing the diffuser has a 45 ° chamfer. In order to fix it in shape, the aeration device 8 has a circumferential chamfer 16 at its lower end, which in this embodiment is attached to the lower edge of the aeration device 8 It is formed of an angle plate. By aligning the 45 ° chamfers of the cover frame 14 and the aeration device 8, the aeration device 8 is mounted on the support profile 42 in such a way as to coincide with the air outlet 3 simply by moving the beam 6. Can be aligned to

  In FIG. 4, for the sake of greater clarity, the same drywall ceiling 1 is shown in cross section, but here the ventilating device fitted is not shown. The air outlet 3 is in a fixed state.

  FIG. 5 shows an enlarged view of FIG. In this enlargement, the arrangement of the mounting frame arrangement comprising the outer mounting frame 18 and the inner mounting frame 20 is clearly visible. Both the outer mounting frame 18 and the inner mounting frame 20 are made of circumferentially continuous aluminum profiles. By means of the inner frame 20 the cover frame 14 is fixed to the plate provided with the opening 12. The cover frame 14 compensates for the difference in thickness between the perforated gypsum board 2 and the plate with the openings 12 so that the "perforated gypsum board" 2 and the "air outlet" 3 as elements are of equal thickness.

  The distance a between adjacent perforations 21 in the perforated gypsum board is as large as the distance b between the openings 21 at the turn from the perforated gypsum board 2 to the plurality of air discharge openings 13 of the perforated plate 12. The dashed line indicates the position of the cylindrical axis of the hole in the perforated gypsum board or the holes in the plurality of air discharge openings 13 of the perforated plate.

  1: Drywall ceiling, 2: Building panel, 21: Perforating building panel, 3: Air outlet, 41: Base profile, 42 carrier profile :, 6: Beam supporting a ventilator, 8: Ventilation ( 10: Air supply unit, 12: Metal sheet with opening, 13: Multiple air discharge openings, 14: Cover frame, 16: Ventilation chamfered portion, 18: Outer mounting frame, 20: Inside Mounting frame, 22: hinge, 24: spring mechanism, 26: spacer, 28: catch hook

Claims (15)

The air outlet of the ventilation system,
The ventilating device comprises at least an air outlet, an air supply means and an air guiding device,
The air outlet includes a plate having a plurality of air outlet openings,
The air discharge port is retractably attached to the interior panel in a built-in state so that a space behind the air discharge port can be accessed by folding the air discharge port from the interior panel.   The air outlet according to claim 1, wherein the interior panel is a drywall ceiling or drywall material.   The air outlet according to claim 1, wherein the plate has a cover frame that at least partially covers the plurality of air outlets.   The air discharge port according to claim 3, wherein the cover frame is disposed to seal a plurality of air discharge openings disposed to the side of the ventilating device.   5. An air outlet according to claim 3 or 4, wherein the cover frame is arranged in the form of an adjacent frame on the plate.   The air outlet according to any one of claims 3 to 5, wherein the cover frame is arranged on the side of the plate facing the ventilating device.   The air outlet according to any one of claims 3 to 6, wherein the cover frame comprises a chamfer, preferably a 45 ° chamfer, arranged at the edge facing the ventilating device. . The plate has a smaller thickness than the surrounding interior panel,
The lower edge of the plate is coplanar with the lower edge of the surrounding interior panel in a fixed state by the difference in thickness between the plate and the interior panel being filled by the spacer The air discharge port according to any one of claims 1 to 7. The plate has a removable locking device;
9. An air outlet according to any of the preceding claims, wherein the plate is removably fixed to the interior panel by having the removable locking device. The face of the plate visible to the viewer has the same design as compared to the interior panel,
10. An air outlet according to any of the preceding claims, wherein the plate is not visually different with respect to the design and seamlessly blends in with the surrounding interior panel.   11. The plate according to any of the preceding claims, wherein the viewer-visible surface is covered by a liner or fleece of gypsum board, the liner or fleece of said gypsum board being primed and treated with paint. An air outlet according to item 1. A drywall ceiling comprising a plurality of metal profile substructures, an interior panel attached to the metal profiles and at least one ventilating device,
The ventilating apparatus comprises at least one air supply means, an air guide means and an air outlet.
The drywall ceiling, wherein the air outlet is retractably attached to the interior panel in a built-in state so that it can be folded back from the interior panel to gain access to the space behind the air outlet.   13. Drywall ceiling according to claim 12, wherein the interior panel comprises gypsum board, in particular perforated gypsum board. Said perforated gypsum board has a perforation pattern,
14. The drywall ceiling of claim 13, wherein the plurality of air discharge openings of the plate have the same pattern as the perforation pattern of the perforated gypsum board to expand the perforation pattern of the perforated gypsum board.   15. The dry type of claim 14, wherein the distance between the perforations at the turn from the perforated gypsum board to the plurality of air discharge openings in the plate is the same as compared to the distance between adjacent perforations of the perforated gypsum board. Wall ceiling.