WO2016078773A1 - Air-supply device - Google Patents

Abstract

An air-supply device (1) for supplying breathing air into a breathing-air region (2) has at least one inflow opening (4, 6) for supplying breathing air, and also has an interior (10) and at least one outflow region (11), via which breathing air flows out into the breathing-air region (2). The inflow opening (4, 6) is connected to the outflow region (11) via the interior (10). The outflow region (11) is connected to the outflow region (11) via the interior (10). The outflow region (11) is formed on a flexible, air-permeable material (12). In order to provide for flexible use of the air-supply device (1) and to avoid any significant adverse effect to a user, provision is made for the air-supply device (1) to have a sheet-like, flexible portion (16), which has a first flat side (7) and a second flat side (8), located opposite the first. The outflow region (11) is arranged on the first flat side (7). The interior (10) is formed between the first flat side (7) and the second flat side (8). In the interior (10), at least the outflow region (11) has arranged on it at least one spacer, which prevents the outflow region (11) from butting against the second flat side (8).

Description

 air supply

The invention relates to an air supply of the type specified in the preamble of claim 1.

From WO 2004/092658 AI an air supply device is known, which has a plastic housing, which has an opening for the exit of the air. The opening is covered by an air-permeable textile material, which is supported on a grid.

WO 96/39905 A1 discloses a mattress for a baby that has a multiplicity of air openings on the bottom part and on side parts. The air openings are covered by a tissue.

The invention has for its object to provide an air supply of the generic type, which has a simple structure and does not bother a user.

This object is achieved by an air supply device having the features of claim 1. It is provided that the air supply device has a flat, flexible section. As a result, a slight impairment of an operator coming into contact with the flexible section is achieved. Due to the flat, flexible section, the air supply is versatile and can adapt well to an available space. The air supply has two Flat sides, between which the interior is formed. In order to achieve a uniform outflow of breathing air over the entire outflow area, at least one spacing means is arranged in the interior at least at the outflow area, which prevents the discharge area from abutting the second flat side. Due to the uniform outflow of the respiratory air over the entire outflow area caused by the supplied breath air draft for the operator is not or only slightly noticeable. It has been found that an air flow with a flow speed from about 1 m / s can be perceived by an operator as unpleasant. Advantageously, the flow velocity of the air flow emerging through the outflow region is significantly less than 1 m / s, in particular not greater than approximately 0.25 m / s. In this case, the flexible section can be designed in such a way that, by compressing the first and the second flat sides, the outflow area can be brought at least in sections into contact with the second flat side. In the unloaded state, ie when no external forces acting on the flexible portion of the air supply, but a distance between the first and the second flat side is given.

Advantageously, at least one spacer means extends from the first to the second flat side. The spacing means thereby extends across the entire interior and leads to air turbulence, which cause a better and more uniform distribution of the breathing air in the interior and thereby a more uniform outflow from the interior through the air-permeable material. Advantageously, at least one spacer means is flexible so that a high flexibility of the air supply device results. If the air supply device is worn around the neck by an operator in the manner of a collar, this results in a high wearing comfort.

A simple construction results when the spacer means is at least partially formed by a spacer knitted fabric. As a result, the flat, flexible section can be formed from only three layers, namely the flexible, air-permeable material, the spacer fabric and a material arranged on the second flat side. Due to the simple structure, the outer shape of the Luftzufiihreinrichtung can be easily adapted to the desired application by the outer shape of the flat, flexible section is made in the desired size. As a result, the air supply is versatile.

Advantageously, the spacer fabric has transverse threads which extend transversely to the material of the outflow through the interior. The spacer fabric advantageously has at least one transverse thread per square centimeter, in particular at least five transverse threads per square centimeter. As a result, a sufficiently high stability and flexibility and at the same time good turbulence of the air in the interior is achieved. The spacer fabric forms an air-permeable, three-dimensional structure, which causes a uniform air distribution in the interior space between the first and the second flat side. At the same time, the spacer fabric ensures a distance between the outflow region and the second flat side in a simple manner.

It can also be provided that the spacing means is at least partially formed by a coarsely porous, flexible, air-permeable material. This can be, for example, a flexible, in particular open-cell foam. The distance between the first and the second flat side is advantageously at least 3 mm. As a result, a sufficient width of the interior and thus a good air distribution is achieved. As advantageous, a distance of at least 5 mm, in particular of at least 7 mm has been found. The air-permeable material is advantageously a tissue. As a result, a very uniform outlet of the air can be achieved. A noticeable draft for the operator is thereby avoided. The weave density of the air-permeable material is advantageously between about 140 g / m ² about 240 g / m ² . However, it can also be provided that the air-permeable material is a perforated plastic film. In this case, a comparatively fine perforation is advantageously provided. The diameter of the Apertures of the plastic film is advantageously less than about 0.5 mm. To achieve a uniform air outlet, advantageously less than 300 holes per square centimeter are provided. In order to avoid an excessive flow velocity of the exiting air, in particular more than 1 hole per square centimeter is provided. Advantageously, more than 20 holes per square centimeter, preferably more than 50 holes per square centimeter are provided.

Advantageously, a planar, air-impermeable material is arranged on the second flat side. The air-impermeable material is advantageously a film or a

coated fabric. The coated fabric may be, for example, polyurethane-coated polyester fabric. The material on the second flat side is flexible.

In order to easily produce a connection for the air to be supplied, the air supply device advantageously has at least one housing part, which is fixed to the flat, flexible section, and which has the inflow opening. The housing part advantageously consists of a dimensionally stable material, for example of plastic. As a result, sufficient stability of the air supply device is achieved. In order to prevent ambient air from entering the respiratory air region, it is advantageously provided that the air supply device has means for generating at least one shielding air flow which at least partially shields the respiratory air region from the environment. In this case, the flow velocity of the shielding air flow is advantageously greater than the flow velocity of the supply air flow for the supply of breathing air. The flow rate of the feed air flow is advantageously not more than 0.25 m / s. The flow rate of Abschirmluftstroms is advantageously from about 0.3 m / s to about 1.5 m / s.

Exemplary embodiments of the invention are explained below with reference to the drawing. Show it: a schematic perspective view of a first embodiment of an air supply, a schematic side view of the air supply of Figure 1, a perspective, sectional view of the structure of the flexible portion of the air supply of Figures 1 and 2, Fig. 4 is a schematic representation of an embodiment of an air supply to an operator,

Fig. 5 is a perspective view of the air supply means of Fig. 4, Fig. 6 and 7 are schematic representations of further embodiments of

 Luftzuführeinrichtungen.

1 shows schematically an air supply device 1. The air supply device 1 is advantageously provided to supply breathing air to an operator, for example, when the operator moves in an area where the air is polluted or if the operator is allergic to components of the ambient air, for example Pollen or the like is. The air supply device 1 has a first connecting piece 3, on which a first inflow opening 4 is provided, and a second connecting stub 5 with a second inflow opening 6. Via the inflow openings 4 and 6 breathing air, in particular pre-purified breathing air, can be supplied into a respiratory air area 2 during operation , A single inflow opening or a larger number of inflow openings may also be advantageous. The connecting pieces 3 and 5 are each formed on a housing part 14, 15 of the air supply device 1. The two housing parts 14 and 15 are formed flat in the embodiment. On the housing parts 14 and 15 each one side of a flexible portion 16 (Fig. 2) of the air supply device 1 is held. As shown in Figures 1 and 2, the flexible portion 16 is elongated, and the housing parts 14 and 15 are disposed on its narrow sides. The flexible section 16 has a first, the breathing air region 2 facing flat side 7 and a second, the breathing air area facing away flat side 8. The flat side 8 shows in operation away from the user. The flexible portion 16 also has two end faces 9, which form the longitudinal sides of the flexible portion 16. The flat sides 7 and 8 and the end faces 9 delimit an inner space 10 into which respiratory air flowing in via the inflow openings 4 and 6 opens.

On the first flat side 7 of the flexible portion 16 is covered by an air-permeable material 12, which forms a Ausströmbereich 1 1 for the breathing air. The air-permeable material 12 has a multiplicity of small openings through which the respiratory air flows uniformly over the area of the outflow area 11 into the respiratory air area 2. The air flows out perpendicular to the surface of the air-permeable material 12. The outflow region 1 1 delimits the interior 10, and the air flows out of the interior 10 through the outflow region 11 into the respiratory air region 2.

The air-permeable material 12 may be, for example, a fabric. The fabric may consist of synthetic fibers or of natural fibers or a mixture thereof. The weaving density of the fabric is advantageously between about 140 g / m ² and about 240 g / m ² . The fabric may be, for example, a plain weave, gabardine or nettle fabric. Due to the close-meshed design of the fabric a uniform overpressure in the interior and thus a uniform outlet of the air under pressure over the environment is achieved. As a result, ambient air is displaced from the breathing air. Due to the comparatively large exit area for the air, a low flow velocity of the exiting air is achieved. The flow rate is advantageously less than 0.25 m / s. The exit area is advantageously between about 5 cm ² and about 500 cm ² . This avoids a noticeable draft for the operator. Preferably, the fabric is substantially dimensionally stable, so that the flexible portion 16 does not require support material to retain its shape. However, the air-permeable material 12 is so flexible that the flexible portion 16 can be bent with little force, in the direction of the double arrow 23. The housing parts 14 and 15 are moved closer to each other or further away from each other. As a result, the air supply device 1 can be easily adapted to the user. Bending about an axis lying in the longitudinal direction of the flexible portion 16 is avoided by the housing parts 14 and 15.

An air-impermeable material 13 is provided on the second flat side 8 facing away from the respiratory air region 2. The air-impermeable material 13 may be, for example, a film or a coated fabric. The coated fabric may in particular be a polyurethane-coated fabric. The air-impermeable material 13 is flexible, so that the flexible portion 16 can be easily bent. By the air-impermeable material 13 ensures that breathing air is supplied only in the breathing air area 2. The air-impermeable material 13 advantageously also extends to the end faces 9.

It can also be provided that the air-permeable material is a perforated plastic film. The diameter of the openings of the plastic film is preferably less than about 0.5 mm. Preferably, more than 1 hole, more preferably more than about 20 holes, preferably more than about 50 holes per square centimeter and more preferably less than 300 holes per square centimeter are provided.

As FIG. 1 shows, the first flat side 7 has an approximately constant distance a to the second flat side 8 over the entire flexible section 16. The distance a is advantageously at least 3 mm, in particular at least 5 mm, preferably at least 7 mm. In order to obtain the uniform distance a between the first flat side 7 and the second flat side 8, a spacing means is provided between the first flat side 7 and the second flat side 8, which will be described in more detail below.

As shown in FIG. 2, the connecting pieces 3 and 5 are connected to a blower unit 21 via hoses 22 schematically shown in FIG. The blower unit 21 advantageously has a blower and a filter unit with one or more filter elements that filter the ambient air. The ambient air is supplied from the blower under pressure to the air supply device 1.

Fig. 3 shows the structure of the flexible portion 16 in detail. Between the air-permeable material 12 and the air-impermeable material 13, a spacer fabric 17 is provided in the exemplary embodiment. The spacer fabric 17 has a first side 18, against which the air-permeable material 12 abuts, and a second side 19 against which the air-impermeable material 13 rests. The two sides 18 and 19 are connected to each other via transverse threads 20. On the sides 18 and 19, the spacer fabric has a filigree structure with a plurality of large openings, which allow a good passage of air through the air-permeable material 12 and cover the air-permeable material 12 only slightly and not sealing.

Due to their rigidity, the transverse threads 20 ensure a distance between the two sides 18 and 19 of the spacer knit 17. The transverse threads 20 at the same time cause a turbulence of the air flowing into the interior 10. As a result, a uniform distribution of the air in the interior 10 is achieved. The spacer fabric 17 is flexible. It can be provided that the spacer fabric 17 is only bendable, so that the air supply device 1, as indicated in Fig. 1 by the double arrow 23, can be bent. However, it can also be provided that the transverse threads 20 allow the spacer knit 17 to be compressed. In unloaded Condition, however, the sides 18 and 19 of the spacer fabric 17 have the distance a to each other, so that the air flowing into the inner space 10 can distribute uniformly over the entire outflow region 1 1. The spacer fabric 17 has at least one transverse thread per square centimeter, preferably at least five transverse threads per square centimeter.

Instead of a spacer fabric 17, a coarse-pored, flexible, air-permeable material can be provided as a spacer means between the first flat side 7 and the second flat side 8. This can be, for example, a foam, in particular an open-cell foam made of plastic. It may also be provided as a spacer means to provide a plurality of spacer elements, which are individually connected to the air-permeable material 12 and / or with the air-impermeable material 13. Fig. 4 shows an embodiment of an air supply device 31, which is supported by a user 36 around the neck in the manner of a collar. The air supply device 31 generates a supply air flow 33, which supplies breathing air into a breathing air region 32. The breathing air region 32 advantageously covers the mouth and nose of the user 36. The supply air flow 33 is supplied through the outflow region 11 of the air supply device 31, which is not shown in detail in FIG. The air supply device 31 also has means for generating Abschirmluftströmen 34 and 35. Advantageously, at least one Abschirmluftstrom 34 is provided which shields the breathing air region 32 laterally from the environment. The Abschirmluftstrom 35 is directed obliquely forward and shields the breathing air area 32 from the user 36 from looking forward. As a result, to the mouth and nose of the user 36 only pre-cleaned air is passed, which flows from the supply air flow 33 into the breathing air region 32. The flow rate of the Abschirmluftströme 34 and 35 is advantageously significantly greater than the flow rate of the feed air flow 33. This effectively shields against the ambient air is achieved. The flow rate of a Abschirmluftstroms 34, 35 is advantageously about 0.3 m / s to about 2.5 m / s and the flow rate of the feed air stream 33 is less than about 0.25 m s.

Fig. 5 shows the air supply device 31 in detail. The structure of the Luftzuführ- device 31 substantially corresponds to that of the air supply device 1, wherein like reference numerals correspond to each other in all exemplary embodiments

Designate elements. The breathing air region 2 is delimited by the outflow region 11, which is formed on the flexible section 16 of the air supply device 31. The outflow region 11 is formed on flexible, air-permeable material 12, through which air flows out of the interior 10. On the side facing in operation upwards end face 9 are provided laterally outflow openings 41 and 42, which are formed comparatively narrow and have a small cross-section. The outflow opening 41 communicates via a connecting piece 37, on which a third inflow opening 38 is formed, with a blower unit (not shown in FIG. 4). The outflow opening 42 is also connected to the blower unit via a fourth connecting piece 39, on which a fourth inflow opening 40 is provided. In this case, air can be supplied under the same pressure via all inflow openings 4, 6, 38 and 40. However, it can also be provided that the inlet openings 38 and 40 air is supplied under increased pressure to improve the shielding effect on the environment. The lateral outflow openings 41 and 42 advantageously produce the lateral shielding airflow 34. The outflow opening for producing the forwardly directed shielding airflow 35 is not shown in FIG. 5. The orientation of the Abschirmluftströme 34 can be chosen suitably to achieve on the one hand an effective shielding and on the other hand, not or barely noticeable to the operator.

6 shows an exemplary embodiment of an air supply device 51 on a buggy 47. The buggy 47 has a push handle 48 and a hood 49, which is the area in which the head of a child sitting in the stroller 47 is located, with respect to the direction of travel upwards and shields behind. The top 49 has an opening 50 Forward. In order to prevent the entry of ambient air under the top 49 and at the same time to provide pre-purified breathing air for the child, the air supply device 51 is provided. The air supply device 51 is advantageously designed in accordance with the air supply device 31. The air supply device 51 feeds a supply air flow 53 into a respiratory air region 52. The feed air stream 53 exits through an air-permeable material 12 (FIG. 5) from an interior 10 of the air feed device 51. The air supply device 51 also has discharge ports 41 and 42 corresponding to the discharge ports 41 and 42 shown in Fig. 5 and which are not shown in detail in Fig. 6. Through the outflow openings 41 and 42 escape Abschirmluftströme 54 and 55, which shield the area under the hood 49 from the environment. The Abschirmluftströme 54 and 55 can flow in the region of the opening 50. In the embodiment, two Abschirmluftströme 54 and 55 are provided. However, a single shielding air flow 54 or 55 may also be expedient, in particular to avoid turbulence. The air supply device 51 has a blower unit 56, which in the exemplary embodiment is fixed beneath the seat surface of the buggy 47 on the frame of the buggy 47.

Other applications for air supply means 1, 31, 51 may be appropriate.

In Fig. 7, an embodiment of an air supply means 61 is shown, which is arranged on a stroller 57. The stroller 57 has a push handle 58 which serves to push the stroller 57 in a sliding direction 72. The stroller 57 has a trough 69, in which an interior 64 is formed, in which a baby can be placed. The trough 69 may be formed in the usual way of soft or dimensionally stable material and removable from the frame of the baby carriage 57. In the head area, a top 59 bulges over the trough 69. An opening 60 is formed on the top 59. In the interior 64 is an air supply arranged means 61, which serves for the supply of breathing air. The air supply device 61 is designed in accordance with the air supply device 1 and supplies breathing air with a low flow velocity into the interior space 64. The breathing air can flow out through the opening 60 into the environment and thereby prevents the ingress of contaminated ambient air through the opening 60 into the interior 64.

To supply the air supply device 61 with breathing air, a blower unit 66 is provided. The blower unit 66 advantageously comprises a blower for the intake of ambient air and a filter unit for cleaning the ambient air. The trough 69 is covered by a cover 65 in the area not covered by the top 59. The cover 65 protects the interior 64 and a lying in the interior 64 baby from the sun and rain. The cover 65 may advantageously be made of fabric or plastic and secured to the trough 69 with one or more magnets, straps, hook-and-loop fasteners, snaps or the like. On the cover 65, a suction opening 67 of the blower unit 66 is provided, which is formed on a suction part 70 in the exemplary embodiment. The suction part 70 is disposed in an opening of the cover 65. However, it can also be provided that the suction opening 67 is formed directly on the cover 65. The suction opening 67 is formed in the embodiment as a slot which is opposite to the

Sliding direction 72 of the stroller 57 opens.

In the exemplary embodiment, a connecting part 68, which may comprise the fan and the filter unit, is arranged in the interior 64 in the upper part of the foot region. It can also be advantageous to arrange the filter unit completely or partially in the cover 65. As a result, the effective filter area can be increased in a simple manner. The connecting part 68 connects the cover 65 with the air supply device 61. Via the connecting part 68, the breathing air flows into the air supply device. In this case, the supply of breathing air can be provided in a central region of the air supply device 61. The air supply device 61 extends around the foot region of the heat 69 and extends on both longitudinal sides of the trough 69 to approximately in the Head region of the trough 69. Within the trough 69, a breathing air region 61 is formed, into which the air supply device 61 supplies a feed air stream 63. The air supply device 61 advantageously extends over more than half the height of the trough 69. As a result, a large area of the outflow region 71 is achieved.

It can also be provided that the cover 65 with the blower unit 66, which can be arranged in particular in the connecting part 68, without an air supply means 61 is used. The blower unit 66 and the cover 65 lead into the interior space 64 under the cover 65 purified breathing air. Through the cover 65, the penetration of non-purified ambient air in the interior 64 can be largely avoided.

Claims

claims

Air supply device for supplying breathing air into a breathing air area, wherein the air supply means (1, 31, 51, 61) at least one inflow opening (4, 6) for supplying breathing air, an interior (10) and at least one outflow area (1 1, 71) via which breathing air flows out into the breathing air area (2, 32, 52, 62), wherein the inflow opening (4, 6) is connected to the outflow area (11, 71) via the inner space (10), and wherein the outflow area (1 1, 71) on a flexible, air-permeable material (12) is formed, characterized in that the air supply means (1, 31, 51, 61) has a flat, flexible portion (16) having a first flat side (7) and a opposite, second flat side (8) has, wherein on the first flat side (7) of the outflow area (11, 71) is arranged, wherein between the first flat side (7) and the second flat side (8) of the interior (10) is formed, and wherein in the interior space (10) at least At the outflow area (11, 71), at least one spacing means is arranged, which prevents the outflow area (11, 71) from abutting against the second flat side (8) in the unloaded state of the air feed device (1, 31, 51, 61).

2. Air supply device according to claim 1,

 characterized in that at least one spacing means extends from the first flat side (7) to the second flat side (8).

3. Air supply device according to claim 1 or 2,

characterized in that at least one spacer means is flexible. Air supply device according to one of claims 1 to 3,

characterized in that the spacing means is at least partially formed a spacer knitted fabric (17).

Air supply device according to claim 4,

characterized in that the spacer fabric (17) has transverse threads (20) which extend transversely to the material of the outflow region (1 1, 71) through the inner space (10).

Air supply device according to claim 4 or 5,

characterized in that at least one transverse thread (20) per square centimeter is provided.

Air supply device according to one of claims 1 to 6,

characterized in that the spacing means is at least partially formed by a coarsely porous, flexible, air-permeable material.

Air supply device according to one of claims 1 to 7,

characterized in that the distance (a) of the first flat side (7) to the second flat side (8) is at least 3 mm.

Air supply device according to one of claims 1 to 8,

characterized in that the air-permeable material (12) is a fabric.

Air supply device according to one of claims 1 to 8,

characterized in that the air-permeable material (12) is a plastic film. Air supply device according to claim 10,

characterized in that the diameter of the openings of the plastic film is smaller than 0.5 mm.

Air supply device according to one of claims 1 to 11,

characterized in that a planar, air-impermeable material (13) is arranged on the second flat side (8).

Air supply device according to claim 12,

characterized in that the material on the second flat side (8) is a film or a coated fabric.

Air supply device according to one of claims 1 to 13,

characterized in that the Luftzuführhreimichtung (1, 31, 51, 61) has at least one housing part (14, 15) which is fixed to the flat, flexible portion (16), and which has the inflow opening (4, 6).

Air supply device according to one of claims 1 to 14,

characterized in that the Luftzuführhreimichtung (31, 51) means for generating at least one Abschirmluftstroms (34, 35, 54, 55) which shields the breathing air region (32, 52) at least partially from the environment.