DE1956659A1 - Device for ventilation of rooms - Google Patents

Description

DR. ING. E. HOFFMANN · DIPL. ING. W. EITLE DR. RER. NAT. K. HOFFMANN

PATENT LAWYERS

D.8000 MÖNCHEN 81 · ARABELLASTRASSE 4 · TELEPHONE (0811) 911087

AB Svenska Fläktfabriken, Nacka / Sweden

Device for ventilation of rooms

The invention relates to a device for the ventilation of rooms with senr high requirements with respect to draft-free blowing in and large amounts of air, e.g. from Brut- j houses, from a supply opening.

If, air is injected to aerate and possibly for heating or cooling of the stands of the animals in cattle sheds, for example Brüthäuser, the air must be draft-free blown and evenly distributed to all parts of the stand, because the livestock is highly sensitive to train. In many cases, the air speed in the stand area must not exceed 0.3 m / s. Another important factor is the temperature distribution in the room. if

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the temperature in some parts of the stand area is higher than in others, the animals gather and crowd, e.g. a herd of freshly littered piglets or just now hatched chicks, usually in the warmest spot. This must be prevented. High demands on milling machines Blowing in and uniform temperature distribution must In addition to their cattle sheds, they can also be fulfilled in other rooms, e.g. in greenhouses. If such premises If air is supplied for ventilation and heating, large amounts of air often have to be blown in. It is there It is important that these are ceiled evenly in the premises and blown in in such a way that no draft is generated.

In connection with the injection of air for ventilation in premises, it is known for distribution of air to use textile hoses in such a way that the air flows evenly over the entire hose surface through gaps in the textile material flows out. In this way, draft-free ventilation is achieved and the air is to a certain extent also filtered. An injection device of this type requires however, long hose lengths to blow in the air volumes required from the point of view of ventilation and heating, and there must be a high static pressure in the textile tube.

It is possible to blow a larger amount of air into a room with a hose of a certain length, if that Blowing in instead of through gaps in the hose wall through holes at certain points on the hose surface. In this case it is also not necessary to use textile hoses instead, tubes made of cheap plastic material can be selected. In connection with the Replacing the livestock in a barn, preferably new plastic hoses are attached and the old ones

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Hoses destroyed. This reduces the amount of work needed Disinfection work. However, it has been shown that the holes in the surface of a plastic tube outflowing air flows in an oblique direction, i.e. it receives a directional component parallel to the plastic hose, especially near the inlet of the air for ventilation on the plastic hose. Together with the blown air is blown in with the surrounding room air. As a result of the blowing direction mentioned above, the speed the air entrained as a result along the plastic hose is enlarged, resulting in an unacceptably strong air flow Train in the room can lead. The dynamic pressure in the hose is high near the outlet end of the plastic hose, the static pressure, on the other hand, is low. At the opposite end of the hose the dynamic pressure is in static Pressure has been converted. As a result, there is a large difference in static pressure between the two ends of the ochlauches. In addition to the inclined blowing direction in near the inlet end of the hose it is therefore difficult to evenly distribute the blown into the space To reach air. The overpressure at the far end of the hose cannot be of any small size otherwise negative pressure and sputtering could occur at the inlet end of the hose. The current range

the air blown in at the far end of the hose '■: is therefore great se in, which is also an annoying feature in the room can arise.

The aim of the invention is to overcome the disadvantages mentioned and a satisfactory distribution as to make a draft-free blowing in of the air for ventilation possible.

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According to the present invention, the object is achieved by daP the device for ventilation in a room for plastic hoses with different cross-sections attached, one plastic tube is arranged inside the other plastic tube, that one end of the inner one Kuriststoffschlauches connected to the supply only and the other end is preferably closed, the outer plastic tube preferably on both; Ends closed is, and that the two plastic tubes have outflow holes Have arranged on the tube surfaces in such a way that the outflow surface of the outflow holes in the inner Plastic tube, both individually and as a whole, is larger than that of the bleeding holes in the outer plastic tube.

The use of two plastic hoses enables a low outflow velocity from the outer hose, since the pressure in the space between the hoses can be kept low and thus the level of the air flow can be kept short. Another success is that the dynamic pressure in the inner tube causes the flow direction {_ _; does not affect the air for ventilation from the outer tube, so that: i the air is blown into the room essentially perpendicular to the longitudinal direction of the hoses and this prevents the room air from being blown along with the ventilation air along the plastic hose. In view of this and the short flow width, the risk of a draft is very low and the air distribution is achieved in a simple manner.

There is an expedient embodiment of the invention in that the outer plastic hose is longer than the inner plastic hose and includes a piece of hose,

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which extends from the end of the inner plastic tube remote from the supply port, some the outflow holes in the outer plastic tube in the Hose pieces are arranged. This creates a compensation static pressure in the space between the plastic tubes and an even distribution of the air for ventilation to the outflow holes in the surface of the outer Plastic hose reached.

The plastic hoses can in principle be oriented anywhere in the room. In most cases, however, it can a horizontal orientation assumed to be most appropriate v / earth. According to one embodiment of the invention, the hoses can be held in their position that the inner plastic tube through one in the room attached wire-shaped part is carried, and that the outer plastic tube is arranged so that it is from the inner tube, preferably supported by an air cushion in a space between the surfaces of the tubes.

An expedient embodiment of the invention is much more that the outflow holes of the inner plastic% otoffschlauches are concentrated on the upper part and the sides of the hose surface, preferably in a range of two thirds of the circumference of the hose, around an air cushion, which the outer plastic hose supports and guides to create in the space between the upper part and the sides of the hose surface.

In the drawing is an embodiment as an example an apparatus embodying the invention is shown and will be described in more detail below. Show it:

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Fig. 1 shows a cattle shed in cross section, in which for ventilation and heating or cooling of the animal stands, a device according to the invention is attached is j

FIG. 2 shows a cross section through the plastic hose along the line II-II in FIG. 1,

3 shows a flow diagram for ventilating the air blown in and the room air entrained in the process , if only a plastic hose is used for the distribution of the air for ventilation.

In the drawing, 1 denotes a cattle shed, for example a breeding house. A room 2 is to be ventilated and heated or cooled as required by means of a ventilation device K, which is connected to an opening 3 in a wall la of the room and an air distribution device 5 according to the invention fixed in the room. Straw 6 or peat litter is spread out on the floor 1b of the room. The ventilation device H contains a fan part 7 with a fan 7a, a mixing chamber 8 for mixing return air and outside air in a suitable ratio before it is sucked into the fan part, a pivotably mounted mixing control flap 8a in the mixing chamber, an inlet and outlet part 9 on the outside of the cattle shed and the wall la, which contains an inlet chamber 9a with a barred inlet opening 9b and an outlet chamber 9b with an outlet opening 9d, a rain cover 9 © being attached over the inlet opening 9b of the inlet chamber, one in an opening 3a in the wall la between the mixing chamber 8 and the outlet chamber 9c mounted control valve 10, a heating or cooling mounted in an opening 3b in the same wall la between the inlet chamber 9a and the mixing chamber 8

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battery 11 and a drum part 12 which is connected to an opening 8b of the mixing chamber in order to extract exhaust air and return air from the floor of the room. The fan part 7 of the ventilation device has a supply opening 7b for the air directed into the room 2 for ventilation. A guide rod device IJ with fixed or adjustable guide ribs IJa for suppressing a rotary movement of the air flow generated by the fan 7a is attached to this supply opening. λ

• According to the invention, the air distribution device 5 consists of two plastic hoses 14 and 15 * which are fastened in space 2. These hoses have different cross-sections and are provided on their surface with outflow holes 14a and 15a, respectively. One plastic hose 14 is fastened inside the other plastic hose 15. The inner plastic hose 14 is connected at its one end 14b to the aforementioned supply opening 7b in the fan part 7 of the ventilation device 4 via the guide rod device 1J5. The opposite end 14c of the inner plastic tube 14 is preferably completely closed, as are the two ends 15b and 15c of the outer | Plastic tube 15 are preferably closed. In principle, however, the invention also includes the possibility of making some of the outflow holes 15a of the outer tube in one or both surfaces at its end, e.g. at the end 15c. According to the invention have the v.eiter Ausstrürnlöcher L4A in the inner plastic tube 14, the SOY / OHL individually and overall smaller an emanating than that of the outflow holes 13a in äuiBeren plastic tube Vj j

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If only a plastic tube 16 with outflow holes 10a on its surface is used to blow in the air for ventilation, as shown in FIG. ^{5 1 Ig.} 3 is inclined, the air blown through most of the outflow holes 16a in the hose has an oblique direction, i.e. the air receives a directional component parallel to the plastic hose 16 and when it exits, it takes room air with it in the longitudinal direction of the hose, creating a disturbing draft in the room . The direction of the injected air is most obliquely near the inlet end 16b of the plastic hose, since at this end the dynamic pressure due to the air velocity in the hose is high in relation to the static pressure when large amounts of air are injected. The dynamic pressure is successively converted so that at the opposite end 16c of the plastic tube 16 it has completely become a static pressure. This static pressure is added to the original static pressure prevailing at the inlet end 16b of the hose. In order to prevent negative pressure and fluttering at the inlet end lob of the hose, the positive pressure at the distal end 16c of the hose must be kept high, which results in a large flow width, which in turn creates tension in the space. The length expansion can of course be reduced by choosing smaller outflow holes loa. In such a case, however, a larger amount of room air is blown at the same time. Furthermore, due to the large difference in the static pressure at both ends lob and loc of the hose, the air for ventilation will be distributed unevenly to the outflow holes 16a.

These disadvantages are avoided by using two plastic hoses 14 and 15 according to the invention, as shown in Fig.l. shown to be used. The air for ventilation is evenly distributed in room 2 and the flow width

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be less than when using only one plastic hose Io. This is achieved due to the fact that the static pressure in the space 17 between the hoses l4 and 15 can be kept low, reducing the outflow velocity in the outflow holes. 15a of the outer plastic tube 15 will be low and thus the The flow width can be kept small, so that there is no strong simultaneous entrainment of room air. Further influenced the dynamic pressure in the inner tube 14 does not correspond to the direction in which the air is blown for ventilation will be substantially perpendicular to the longitudinal direction of the tubes 14 and 15.

It is of course not necessary for the outflow holes 14a and 15a to be in the inner and outer plastic tubing, respectively

14 or 15 according to the invention are distributed evenly or in the same size relative to one another. Rather, they can be distributed unevenly in the longitudinal direction of the hose and can possibly also have different sizes in the corresponding hose in order to achieve the desired air distribution in the space 2. In most cases, however, it is not necessary, such arrange- like nuns make. The outflow holes 14a in the inner plastic tube 14 should in principle be significantly smaller than the outflow holes 15a in the outer plastic tube

15, but on the other hand, they should be of a larger number so that the air in the outflow holes 15a in the outer Hose 15 flows in from all directions. The whole The outflow surface of the outflow holes 14a in the inner plastic tube 14 must both the ventilation device 4 and be adapted to the desired static overpressure in the space 17 between the hoses 14 and 15, which is the outflow speed through .the outflow holes 15a in the outer

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Plastic hose determined. The size and distribution
the outflow holes 15a in the outer plastic hose 15 are to be selected according to the desired flow width and distribution of the air in space 2. In connection with this is
note that large holes result in a large flow width and small holes result in a small flow width. The cross section of the inner plastic tube 14 is to be selected so that the
dynamic pressure at the inlet end 14b of the hose is at most ten times the static pressure at the same end. At higher dynamic pressure, ie high inflow velocity, at the inlet end l4b must at some point of the
inner plastic hose 14 a throttle device can be provided to the difference between the static
Press down on the two ends 14b and 14c of the inner tube to reduce it.

The outer plastic hose 15 is somewhat longer than the inner plastic hose 14 and includes a hose piece 15 which extends from that of the supply opening
7b facing away from the end 14c of the inner plastic tube
extends. Some of the outflow holes 15a are located in this piece of hose. This counteracts the unevenness of the static pressure in the space 17b between the hoses 15 and 15. The unevenness arises from the uneven outflow from the inner plastic tube 14, this uneven outflow in turn being caused by the large differences in the static pressure within the inner plastic tube 14. The space 17a in the hose piece 15d of the distant
End l4c of the inner plastic tube extending
Hose piece 15d of the outer plastic hose I5 and

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the outflow holes 15a in this piece of hose actually result such a balance of the static pressure in the space 17b between the hoses 14 and 15 that a uniform distribution of the air for ventilation achieved on the outflow holes 15a in the outer plastic tube will.

In the embodiment shown in the drawing, the plastic tubes 14 and 15 are aligned horizontally in the space 2. They are held in place by a wire-shaped part 5I aagebravrch.tes in room 2. This part supports the inner plastic hose 14, which in turn carries the outer plastic hose Ip with the help of an air cushion in the space 17b, the surfaces of the hoses 14 and 15. The wire-shaped part 5a,

elches the inner tube 14 is supported by two support parts 5b and 5 ° with a zv. ^T eite wire-shaped part 5d connected, which is fastened further up in the space 2 in order to keep the air distribution device 5 stable and in order to reduce the sag of the first wire-shaped part 5a and the hoses 14 and 15.

The air cushion in the space 17b between the surface of the tubes 14 and 15 is created in that the larger part of the outflow holes 14 a in the inner tube l4 is directed upwards. To get through the air cushion outer tube I5 not only to wear, but it too to the side are the outflow holes l4a of the inner On the top and sides of the smart tube concentrated and cover about two thirds of the hose circumference. If the outer tube 15 has a diameter, which exceeds the diameter of the inner tube 14 by 20 to 60 mm, the outer tube 15 does not need any own support, but can rest on the air cushion mentioned. To the hose section 15d of the outer hose,

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which is at the distal end l4c of the inner tube Further extends to support the distal end 15c of the outer tube 15, as shown in Fig. 1, on a Part 5e be set, which is provided on the wire-shaped part 5a.

For an air distribution device according to the invention the following numerical values are given as an example. Two plastic hoses with diameters of 6 ^ 0 mm and 700 mm are required to blow in an air volume of 10,000 m / h used, according to the invention the hose m t the smaller diameter within the hose with the larger diameter is attached. The inner hose has a length of 20 m and has 1500 outflow holes with a Diameter of 18 mm, which are evenly distributed in the longitudinal direction of the hose. These outflow holes are as can be seen in Fig. 2, in the upper part and on the sides of the tube surface substantially in a range of arranged two thirds of the hose circumference. The outer one Hose has a length of 22 m and has 560 outflow holes with a diameter of 50 mm, which is so in the Surface of the outer tube are arranged so that the desired blowing direction is achieved, e.g. as in Fig. diagonally up to the roof.

An exemplary embodiment of the invention has been described with reference to the drawing. the However, the invention can be varied within the scope given by the following claims.

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Claims (4)

- 13 claims (L \ apparatus for ventilation vonRäumen with very high requirements with respect to draft-free blowing and large quantities of air, Z.3. Of Brüthäusern, characterized by a supply opening thereof by being in a space (2) has two plastic tubes (14, 15) attached with different cross-sections, wherein a plastic tube ä (14) is arranged inside the other plastic tube (15), that one end (14b) of the inner plastic tube (14) is connected to the supply opening 7b) and the other end (14c) is preferably closed , the outer plastic hose (15) is preferably closed at both ends (15b, 15c), and that the two plastic hoses have outflow holes (14a, 15a) arranged on the hose surfaces in such a way that the outflow surface of the outflow holes (J4a) in the inner plastic hose ( l4) is smaller, both individually and as a whole, than that of the outflow holes (15a) in the outer plastic tube (15) 2. Apparatus according to claim 1, characterized in that the outer plastic tube (15) is longer than the inner plastic hose (14) and includes a hose piece (I5d) which differs from that of the supply opening (7b) remote end (14c) of the inner plastic tube extends, wherein some of the outflow holes (15a) in the outer plastic tube in the Hose piece (15d) are arranged. 3. Device according to claim 1 or 2 with substantially horizontally aligned plastic tubes, thereby characterized in that the inner plastic tube (l4) by a wire-shaped fixed in the space (2) Part (5a) is worn, and that the external art 009825/1265 fabric hose (15) is arranged so that it is of the inner tube, preferably through an air cushion in a space (17b) between the surfaces of the tubes, is supported. 4. Apparatus according to claim 2 * characterized in that 'the outflow holes (14a) of the inner Plastic hose (14) are concentrated on the top and sides of the hose surface, preferably in a region of two thirds of the circumference of the hose (14), around an air cushion, which the outer Plastic hose (15) supports and guides, in the space (17b) between the upper part and the sides of the hose surfaces to accomplish. 009825/1265 Read more