EP1939456A2 - Air passage device - Google Patents

Abstract

The device has a side walls formed in a base housing (11) as a design cover. A blower is installed in a mounting perforation of a wall. An air inlet grill with fin units is held at the side walls of the cover. A grid unit (30) is arranged at an air outlet side of the device. The bar unit has a rising region and a plane region (36). The rising region overlays the plane region, and a disk unit (32) is provided on the plane region.

Description

The invention relates to an air passage device, in particular filter fan or outlet filter, according to the preamble of claim 1.

When arranged in a housing components which generate corresponding waste heat, it is necessary to dissipate the waste heat from the housing and to control a temperature in the housing by more or less strong blowing or suction of ambient air into the housing interior by means of a fan. A well-known example of this is computer cases. Typically, such housings are provided with a filter fan which either runs continuously or is turned on and off by a controller in response to a temperature in the housing. The filter fan is arranged in a recess of a wall of the housing and fixed for example by means of screw. At the same time corresponding air outlet slots are provided at a different location of the housing for an air outlet.

Due to the electrostatic charge of the electronic components and components, which are arranged inside the housing, deposited on them dirt and dust particles, so that malfunction of the components can occur. To avoid contamination, it is known to provide an additional filter mat preferably made of a knitted or needled plastic material in the fan to filter out these dust and dirt particles from the air conveyed through the fan in a flow direction. For this purpose, preferably seen in the flow direction of the air before the fan of the fan, a filter mat is arranged with a gap between the filter mat and the fan of a basic housing and a fan carrier is sealed against the environment substantially airtight. The filter mats used in these filter fans are arranged between the outer fan grille and the base housing. The fan grid is mediated Clamping or locking connections or screw connections to the basic housing releasably connected.

The air outlet of the air passage device is covered in known fans with a grid element that covers either the outlet plan or cupped. The air emerging from the air outlet through the grille element into the housing moves axially or in the direction of flow straight into the housing. Afterwards the air has to distribute itself or an active air distribution has to be done. It is desirable that an active air distribution can be avoided or the air better distributed itself. Furthermore, there is the possibility that parts of the exiting air flow are sucked in particular centrally again into the passage.

Object of the present invention is to provide an air passage device according to the type described above in such a way that the air emerging from the air passage device is discharged into the housing in several directions, and a return of air is avoided.

This object is achieved in an air passage device with the features specified in claim 1.

Thereafter, the invention consists in that on the air outlet side of the air passage device over an air outlet, a grid element is arranged, which has a rising portion and a planar portion, wherein the rising portion merges into the planar portion, and on the planar portion a full-surface portion is provided ,

The advantage here is that through the structure of the grid element, the outflowing air through the rising portion predominantly in the lateral region of the grid, so rather radially, is discharged, whereby a better mixing is achieved within the housing.

This is assisted by the full-surface section, which acts as a flow obstacle. At the same time the installation depth is reduced compared to conventional oval grid elements. The full-surface section also acts as a blocking element, which prevents the backflow of air into the housing.

A further embodiment of the invention provides that the fan carrier is provided with a side wall and with a receptacle for a fan, preferably consisting of a rotor, preferably consisting of wings, or a rotor and a drive, wherein the fan carrier on the side of the Grid member having a diffuser-like portion which is preferably part of the side wall or is integral with the side wall and the portion opposite the side wall by an internal angle (α) is deflected, which is between 180 ° and 270 °, particularly preferably 290 °, and wherein the grid member has a rising or falling portion and a planar portion, wherein the rising or falling portion merges into the planar portion, and on the planar portion a full-surface portion is provided.

In addition to the advantages listed above, this embodiment additionally achieves that an increase in the output of the air power is achieved by preventing the backflow. This is in a range of up to 10%. Furthermore, it is advantageous that a diffuser-like structure of the exhaust side as possible resistance-free air outlet can take place. There are only slight pressure losses.

Advantageous embodiments of the invention are the subject of the dependent claims.

The shape of the diffuser-like section enables a particularly efficient release of air. Moving the starting point to the center causes a reduction of the free discharge surface, whereby the Rücksaugbereich is further reduced. The provision of a smooth transition from the side wall to the diffuser-like portion causes less resistance and thus less flow losses in the transition into the diffuser-like portion, even a resistance-free air outlet is feasible.

By occluding arranging the grid element, a protective cover of the air passage device is achieved in a simple manner.

Due to the linear increase according to another teaching of the invention, a radial escape of air through the grid element is favored in a simple manner. The central positioning of the planar section advantageously allows, despite the provision of rising sections, a straight discharge of the air in the axial direction through the grid element.

The central provision of a full-area section allows a simple deflection of a portion of the air flow flowing through the air passage device in a radial direction. Provision of a small full-area section with respect to the planar section allows an air flow component axially out of the air passage device. By providing a disk-shaped plate body and placing it on the grid element or its integration into the grid element, the distribution of the air flow can be achieved in a simple manner. The parallel arrangement of the planar section to the air outlet supports the distribution of the air flow in a simple way.

Fig. 1

eine räumliche Vorderansicht der Luftdurchtrittsvorrichtung,

Fig. 2

eine räumliche Vorderansicht der Luftdurchtrittsvorrichtung mit geöffneter Frontklappe,

Fig. 3

eine räumliche Rückansicht der Luftdurchtrittsvorrichtung mit geöffneter Frontklappe,

Fig. 4

eine räumliche Draufsicht auf die Rückseite der Luftdurchtrittsvorrichtung,

Fig. 5

eine geschnittene Seitenansicht der Luftdurchtrittsvorrichtung,

Fig. 6

eine Schnittansicht des Gitterelementabschnitts zu Fig. 5,

Fig. 7

eine teilgeschnittene Seitenansicht einer Ausführungsform der Luftdurchtrittsvorrichtung,

Fig. 8

eine Seitenansicht der Luftdurchtrittsvorrichtung mit geöffneter Frontklappe,

Fig. 9

eine teilgeschnittene Seitenansicht einer weiteren Ausführungsform der Luftdurchtrittsvorrichtung, und

Fig. 10

eine teilgeschnittene Seitenansicht einer weiteren Ausführungsform der Luftdurchtrittsvorrichtung.

Embodiments of the invention are illustrated in the drawings.
Show it:

Fig. 1

a spatial front view of the air passage device,

Fig. 2

a spatial front view of the air passage device with open front door,

Fig. 3

a spatial rear view of the air passage device with open front flap,

Fig. 4

a spatial plan view of the back of the air passage device,

Fig. 5

a sectional side view of the air passage device,

Fig. 6

a sectional view of the grid element section to Fig. 5 .

Fig. 7

a partially sectioned side view of an embodiment of the air passage device,

Fig. 8

a side view of the air passage device with open front door,

Fig. 9

a partially sectioned side view of another embodiment of the air passage device, and

Fig. 10

a partially sectioned side view of another embodiment of the air passage device.

In Fig. 1 an air passage device 10 is shown in front view. On the front side, which is located outside of a housing to be ventilated (not shown), a so-called design cover 15 is provided, through which air into the air passage device 10 by a blower 20 (see Fig. 5 ) is sucked. The design cover 15 is provided with movable sipe elements 16. The design cover 15 is arranged on a base housing 11, to which a fan support 12 is connected. Within the fan carrier 12, the blower 20 is arranged. The fan carrier has a side wall 19. In the rear region of the side wall 19, a diffuser region 22 is arranged. This region 22 is angled relative to the side wall 19 to a transition region 22. On the fan support 12 or in the diffuser region 22, a rear wall 18 is arranged, on which a grid element 30 is arranged.

The air passage device 10 in Fig. 2 is shown with open design cover 15. Behind the design cover 15, a filter mat 13 is arranged, which filters out dust from the sucked air. Behind the filter mat 13, a grid element 14 is arranged. This acts as a fan grid and shields the fan 20 against reaching, for example, when the filter mat 13 is changed.

On the rear wall 18, a grid element 30 is arranged, which is connected to the rear wall via fastening portions 34 ( Fig. 3 ). In the open rear side region 21, through which the air sucked in by the fan 20 emerges, there is a barred area, which consists of a rising area 35 and a planar area 36. The grid element 30 is constructed here from annular bars 31 and carrier webs 33. Centrally in the planar region 36, a plate member 32 is arranged, which acts as a flow resistance and thus as a deflecting element for the exiting air. Fig. 4 shows a rear view analog Fig. 3 with closed design lid.

In Fig. 5 the air passage device 10 is shown in the installed state in a mounting wall 50. Here, a seal 17 is arranged between the mounting wall 50 and the base housing 11, which ensures that in the transition region from the mounting wall to the air passage device 10 no air can enter.

An enlarged view of the grid element 30 is shown in FIG Fig. 6 shown. In area A, the sucked air moves toward the grid element 30. By the plate member 32, the air that meets this deflected to the side. As a result, the air flow is divided into an axial component B and a radial component C. The axial component B exits through the planar portion 36 of the grid element. The radial component C exits through the rising portion 35. In this way, the air within the housing to be ventilated (not shown) Distributed more direct and easier. Additional guide elements o. Ä. can be provided. At the same time, the air can pass through the grating element 30 faster, whereby an increase in the air flow in the fan 20 is accompanied by an increase in performance. By the lateral discharge of the air and a reverse suction in the region of the plate member 32 is basically reduced. Furthermore, the provision of the plate member 32 prevents a return flow of the air into the air passage device 10th

In Fig. 7 the fan carrier 12 is shown cut in a first embodiment. Within the fan carrier 12, a fan 20 is arranged. The fan 20 consists of a rotor with vanes 27 and a drive 24 in the form of a motor. The wing 27 has a tip 25 and a trailing edge 26. The fan support 12 consists inter alia of the side wall 19 and the diffuser region 22. A first embodiment of the arrangement of the diffuser region 22 is shown in FIG Fig. 7 shown. Another embodiment follows in Fig. 9 ,

The diffuser region 22 is connected to the side wall 19. However, the connection is made in the end region of the fan support 12 in the rear side region 21 of the air passage device 10. The diffuser region 22 is designed to be incident with respect to the side wall 19. The collapse occurs with respect to the side wall by an outer angle β and an inner angle α. In Fig. 7 the angles between the extension 28 of the side wall 19 and the extension 29 of the Difussorbereichs 22 are shown. The attachment point 41 of the diffuser region 22 relative to the blower 20 is offset from the blower drive 24. The offset 39 is in Fig. 7 between the extension 28 of the side wall 19 and the parallels 38 starting from the starting point of the diffuser region 22 for extending the side wall 28. The starting point of the diffuser region 41 is located immediately behind the trailing edge 26 of the wings 27. Fig. 8 shows one Side view too Fig. 7 with closed illustrated blower support 12 and opened design cover 15th

A further embodiment of the fan carrier 12 with regard to the arrangement of the diffuser region 22 is shown in FIG Fig. 9 shown. The starting point 41 of the diffuser region 22 is located in a transition 23 directly to the side wall 19. The transition takes place both in the outer angle β and in the inner angle α soft, to avoid unnecessary flow resistance. The attachment point 41 is arranged at the level of the tip 25 of the wing 27.

To Fig. 10 the grille element 30 is designed so that it does not touch the blower 20 in the event of a change of air direction, although the blower projects with its wings 27 beyond the blower carrier 12. For this purpose, the grid element 30 is again provided centrally with a planar section 36. From the outside to the planar middle section 36, a sloping area 37 is provided, which merges into the planar area 36. Laterally support webs 33 are arranged, are provided on the annular grid bars 31 to provide a comprehensive contact protection for the fan.

Claims (13)

Air passage device, in particular filter fan or outlet filter, with a blower (20) or without fan, for installation in a mounting aperture (50) in a wall, in particular a housing for waste heat generating components, such as control cabinet, electronics cabinet, computer system o the air passage device (10) has a base housing (11) with or without a fan support (12), a side walls formed as a design cover (15) with or without air outlet side and insertable into the base housing (11) and with on the opposite side walls of the design cover (15) holding lamella elements (16) having ventilation grille (14) formed covering device and between the base housing (11) and the fan grid (14) arranged filter mat (13),
characterized,
in that a grid element (30) is arranged on the air outlet side of the air passage device (10) above an air outlet (21), which has a rising section (35) and a planar section (36), the rising section (35) being in the planar section (36), and on the planar portion (36) a full-surface section (32) is provided. Air passage device according to claim 1,
characterized,
in that the fan carrier (12) is provided with a side wall (19) and with a receptacle for a fan, preferably consisting of a rotor, preferably consisting of blades (27), or a rotor and a drive (24) Fan carrier (12) on the side of the grid element (30) a diffuser running Section (22), wherein the portion is preferably part of the side wall (19) or integral with the side wall (19), and that the portion (22) relative to the side wall by an internal angle (α) is deflected between 180 ° and 270 °, more preferably 290 °, and that the grid member (30) has a rising or falling portion (35, 37) and a planar portion (36), wherein the rising or falling portion (35) in the plan section (36), and on the planar portion (36) is provided a full-surface portion (32). Air passage device according to claim 2,
characterized,
that the diffuser-like section (22) is designed to increase in a linear or degressive manner. Air passage device according to claim 2 or 3,
characterized,
in that the attachment point (41) of the diffuser-like section (22) is arranged directly on the side wall (19). Air passage device according to claim 2 or 3,
characterized,
that the portion (22) diffuser-like running opposite to the side wall (19) is shifted to the middle fan (39). An air passage device according to any one of claims 2 to 5,
characterized,
that the starting point (41) of the diffuser-type section is executed at the level of the rear edge (26) or the tip (25) of a wing (27) of the fan (20). An air passage device according to any one of claims 2 to 6,
characterized,
that the internal angle (α) and / or corresponding thereto Au βenwinkel (β) are made soft. Air passage device according to one of claims 1 to 7,
characterized,
in that the grid element (30) is arranged to occlude the air passage device (10). An air passage device according to any one of claims 1 to 8,
characterized,
that the rising portion (35) is linearly increasing. Air passage device according to one of claims 1 to 9,
characterized,
that the planar portion (36) and / or of the full-surface portion (32) centrally above the air outlet (21) is arranged. Air passage device according to one of claims 1 to 10,
characterized,
that the full-surface portion (32) is smaller than the planar portion (36) is executed. Air passage device according to one of claims 1 to 11,
characterized,
in that the full-surface section (32) is a disc-shaped plate body, which is preferably placed on and / or integrated in the planar section (36). Air passage device according to one of claims 1 to 12,
characterized,
in that the planar section (36) is arranged parallel to the air outlet (21).

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