DE10008598A1 - Nozzle for controlling air flow into room has ring-shaped body and pipeline section fixed on inside surface and curved to divert air flow evenly out from channels formed inside body - Google Patents

Abstract

The nozzle (10) has a ring-shaped body (12) of circular cross-section and is divided inside the body into channels (A1,A2) with a pipeline section (14) fixed on the inside face of the nozzle body. The pipeline section is curved on its surface so that the air flow is diverted by this surface evenly out from the channels. One edge (12') of the body is connected to a screen-like cover (13) which covers a part of the outlet opening of the second channel. The nozzle can be made of plastics and has on the outside surface of the body claws (15) which engage on a surface of a frame .

Description

The invention relates to a nozzle for controlling a Air flow into a room.

The following writings are known from the prior art: SE-9100975, SE-7402503, NO-169406 and SE-970031.

A nozzle construction is known from the scriptures, in which the control part has an opening circular cross section which is connected to a channel which tapers in the direction of flow of the air flow and in a tour ends, which is designed such that the Air flow at an angle or in the direction of the ceiling surface can flow a room.

In the present application, a completely new nozzle construction is presented, which has a body part circular cross-section, in which an umbrella-like guide piece is used. The guide piece divides the annular body part provided with a circular cross section into two channels; channels A ₁ and A ₂ . With the help of the curved guide piece, the air flow can be aligned uniformly towards the side of the nozzle construction. At the end of the second channel section A ₂ , a cover part is additionally attached, which contributes to the lateral alignment of the air flow for its part.

A nozzle construction is also within the scope of the invention possible, where the guide piece is made of two metal plates det, which have different temperature coefficients. This allows the orientation of the air flow due to the Temperature can be controlled.

The scope can be a wall or a ceiling his.

The nozzle according to the invention is by the definitions characterized the claims.

In the following the invention with reference to a be shown in the figures of the accompanying drawing preferred embodiments of the invention in detail be wrote on which the invention, however, not be closely should be limited.

The nozzle according to the invention for controlling an air flow is shown in perspective in FIG. 1A.

In Fig. 1B, the nozzle of Fig. 1A is shown as a perspective section.

In Fig. 1C is section II of FIG. 1A.

In Fig. 1D, the connection of the nozzle 10 with the attachments of the nozzle in the nozzle hole 16 of a plate R is illustrated.

In Fig. 2, the guide piece connected to the nozzle is shown as a single part.

According to Fig. 1A, the nozzle 10 has a circular cross-section nozzle body part 12 and on the front side of a cover-like covering part 13 covering the outlet opening, which is connected to the annular body part 12 . The inside of the annular body part 12 of the nozzle is divided by a guide piece 14 into the channels A ₁ and A ₂ , whereby an air flow can be performed both in the channel A ₁ and accordingly in the channel A ₂ . The guide piece 14 is constructive tion an umbrella-like Kon, that is, and is curved in the flow guide surfaces 14 '14' in the end edge 140th the respective tongue-shaped Luftströmungsleitstück 14 thus separates the channels A _1, A ₂ in the interior of the annular body portion 12 from each other. The end edge 140 of the guide piece 14 extends down to the level of the cover member 13 and the guide piece 14 has the task of the flow from both uniformly the channel A ₁ as well as the channel A ₂ obliquely to the central axis X of the nozzle 10 to carry out. in FIG. 1A fasten the fastening parts 15 on both sides of the annular body part 12, the part 10, for example on a sheet metal plate R, in which a circular opening 16 is formed for the part 10. The claw pieces 15 lock the part 10 on the sheet metal plate 15 and enable it however, a rotation of the nozzle 10 about its center axis with X for adjusting the air flow direction. the nozzle 10 preferably consists of a Kun material.

In Fig. 1B, the construction of Fig. 1A is shown as a partial section. According to Fig. 1B, the annular and ge provided with a circular cross-section body part 12 on the inside into channels A ₁ and A ₂ , which are separated by a gene in the surfaces 14 ', 14 "curved guide piece 14 .

In Fig. 1C is section II of FIG. 1A. According to FIG. 1C, the flow L ₁ is running in the channel A ₁ of the curved lower side surface 14 'of the guide piece 14 performed with respect to the axis X slanted to one side and ₂ accordingly ver through the air flow L in the channel A ₂ on the other side of the Guide piece 14 along the surface 14 "of the curved guide piece 14 and also guided by it in the same direction to the side and obliquely to the central axis X of the construction. To guide the flow L ₂ , the cover part 13 also bears in the outlet opening of the channel A. ₂ at.

In Fig. 1D, the attachment of part 10 in the nozzle hole 16 of the frame R is shown such that the push-button elastic working fastening parts 15 , which are a kind of claw-like parts, are located on the rear R 'of the frame R men. The fastening part 15 thus prevents the nozzle 10 from slipping out of the nozzle hole 16 . The frame R is located between the end of the fastening part 15 and the annular edge 12 a of the body part 12 . Part 15 nevertheless enables the nozzle 10 to be rotated about its central axis X in order to adjust the air flow direction.

In FIG. 2, the guide piece 14 is shown as a detail. The guide piece 14 is preferably also made of plastic material, as is the entire nozzle construction 10 . However, an embodiment of the invention is also possible in which the guide piece 14 is made of metal sheets which have different coefficients of thermal expansion. The metal plates are placed on top of each other and their different thermal expansion coefficients lead to the guide piece 14 having a bending position corresponding to the temperature. In this way, the position of the guide piece 14 can be regulated on the basis of the temperature, and thus the direction of the air flow L ₁ , L _{2 is} always adjusted according to the temperature.

The guide piece 14 can also be constructed from a storage metal. This can be achieved in the same way due to the influence of temperature control of the air flow direction. The function of the guide piece 14 is corresponding. The nozzles can be assembled into a larger unit, thereby forming a complete air distribution device, the air distribution properties of which can be changed as desired by controlling the individual nozzles. A further embodiment can also be designed such that the height position of the guide piece 14 in relation to the body 12 of the nozzle 10 and the plane of the fastening plate R can be changed. In this way, the air jets L ₁ and L ₂ can also be controlled. The guide piece 14 is z. B. adjustable in the inside grooves of the body 12 , which serve as fastenings of the guide piece 14 .

Claims (5)

1. Nozzle ( 10 ) for controlling an air flow, the nozzle ( 10 ) having an annular body part ( 12 ) of circular cross section, the one edge ( 12 ') of the body part ( 12 ) being connected to an umbrella-like cover part ( 13 ) is, characterized in that the nozzle ( 10 ) inside half of the nozzle body ( 12 ) in channels (A ₁ and A ₂ ) is divided with a guide piece ( 14 ) which is attached to the inner surface of the nozzle body part ( 12 ) circular cross-section , and that the guide piece ( 14 ) is curved in its surface ( 14 ', 14 "), the air flow with the aid of the surface ( 14 ', 14 ") of the guide piece ( 14 ) being uniform from the channels (A ₁ , A ₂ ) is passed, and that the cover part ( 13 ) leads out to cover part of the outlet opening of the second channel (A ₂ ). 2. Nozzle according to claim 1, characterized in that the nozzle ( 10 ) on the outer surface of the body part ( 12 ) Kral len ( 15 ) which engage with their ends on the surface of a frame part (R), in the opening of the nozzle is set, but said fasteners allow rotation of the nozzle about its axis (X) to adjust the air flow direction. 3. Nozzle according to one of the preceding claims, characterized in that the guide piece ( 14 ) is formed from two sheets lying one on top of the other, which consist of different metal, which have different temperature coefficients from one another, or the guide piece is made of storage metal, due to the temperature regulates the shape of the bend of the guide piece ( 14 ) and thus the air flow through the nozzle ( 10 ) can be controlled. 4. Nozzle according to one of the preceding claims, characterized in that the guide piece (14) can be adjusted in mounted in the body (12) mounts of the guide piece (14) in relation to the body (12). 5. Nozzle according to claim 1 for controlling an air flow, characterized in that the nozzle ( 10 ) consists of plastic.