FI74344B - UTSPRIDARE FOER INGAONGSLUFT. - Google Patents

Description

74344 1 Supply air diffuser

The invention relates to a ceiling diffuser with at least one supply air duct in which air flows substantially downwards and to an actual diffuser part in which air flows substantially to the side, as well as control and control devices for controlling the air flowing from the diffuser. and the control devices 10 comprise one or more airflow-rotating air deflectors located in the diffuser section outside the center line of the supply air duct, adapted to change the effective outflow area of the diffuser section as the volume flow changes.

DE patent publication 1 753 283 discloses an arrangement in which air is introduced into a room through a hinged control plate covering the inlet, • - which control plate operates on the principle of counterweight. The air is led from the inlet duct by about 90 ° to one side, deflected and made to flow into the room along the ceiling. In this known solution, it is intended to keep both the initial air velocity and the final air velocity at a certain distance as a clone when the volume flow varies within a certain range. In this solution, the direction of air entry into the room also remains essentially constant.

In the solution according to U.S. Pat. No. 4,259,898, the air flow is divided from the connecting part of the diffuser into two flow paths. Gravity shell ·. ·. the flow dam leading to the edge of the diffuser opens as the volume flow increases and correspondingly closes as the volume flow decreases due to the force caused by the air flow. The flow path to the center of the diffuser is constantly open and through it: 30 depending on the structure, the air is directed either to the side or directly downwards.

...- In this solution, therefore, the air is led into the room so that, in the case of large volumes of air, air flows through the diffuser into both the peripheral and central areas of the diffuser, and in the case of small volumes, air flows through the central area of the diffuser into the room.

35 In the solution according to DE-A-2 310 147, one shut-off valve for the supply air opening 2 74344 1 is used in each of the supply air diffusers. Changes in the air volume open / close the shut-off part, which operates on a counterweight platform. The air is led into the room with the air inlet direction remaining substantially constant in the vertical cross section. The general object of the invention is to provide a simple and reliable 5 million supply air ceiling diffuser with which, without the use of external or additional auxiliary energy, the supply can be distributed in an efficient manner without causing traction and noise in different cases and operating situations.

It is a more detailed object of the invention to provide a supply air ceiling diffuser which - can distribute air into the room substantially in the direction of the ceiling surface and in the required directions 15 in an area - which operates on its own with low duct pressure - whose pressure drop does not substantially depend on the flow current or the blow pattern - which requires more space than a conventional ceiling diffuser, especially above the suspended ceiling 30 - which is easy to install, adjust and maintain - easy to replace with a conventional ceiling diffuser 35 - which is simple and inexpensive to manufacture.

The objects of the invention are achieved by a roof diffuser, which is mainly characterized in that the diffuser part comprises a first duct part from which the air flow is adapted to flow substantially along the roof surface and a second duct part from which the air flow is arranged to flow at least partially downwards and / or downwards. , and that the control devices are adapted to operate so that at low volume flows the air flow is directed to the first duct part and at higher volume flows to both the first and second duct parts.

The control devices are adapted to change the discharge pattern of the air flow flowing from the ceiling diffuser so that the discharge length of the air flow in a certain volume flow range remains at the desired constant value.

In the ceiling diffuser according to the invention, the pressure variation of the flow 15 is used as the control force. In a preferred embodiment of the invention, the force caused by the flow is counterbalanced by the force caused by the counterweight in the control plate. The balance of forces determines the current position of the adjustment plate.

In a preferred embodiment of the invention, the control of the air flows in the roof diffuser takes place in four main directions in the 1st sector by four different: control plates which move simultaneously, controlling the flow of air according to the volume flow. In each main air diffusion direction, the air entering the room is decomposed as a function of volume flow so that at low volume flows the entire air flow is directed substantially parallel to the room roof and at high volume flows the control plate or plates direct and direct air flow partly substantially to the roof and partly down. Depending on the volume of the volume flow, the so-called the profile of the throw pattern in the vertical and horizontal planes with the outer surface of the diffuser remaining constant.

In a preferred embodiment of the invention, the baffles control the airflow with a hollow profile, the pulse and the outlet speed of the airflow from the roof diffuser and thus the final airflow speed at the same distance.

35

The invention will now be described in more detail with reference to the drawings of the drawings showing preferred embodiments of the invention.

4 74344 1 Figure 1 is a schematic side view of a supply air ceiling diffuser according to the invention.

Fig. 2 shows a top view of the ceiling diffuser according to Fig. 1, viewed along the line II-II in Fig. 1.

Figure 3 shows another embodiment corresponding to Figure 2.

Figure 4 shows the operation of the roof diffuser control device 10 according to the invention.

Figures 5-6 show the different mounting of the damper.

The supply air ceiling diffuser shown in Figures 1 and 2 is generally denoted by reference numeral 10. The ceiling diffuser 10 comprises an supply air duct 11 and a diffuser section 12. There is at least one supply air duct 11. In this embodiment, the diffuser part 12 comprises a first duct part 13 and a second duct part 14. The duct part 13 and 14 is separated by a partition 15. The control device 16 is adapted to be located in the diffuser part 12 and preferably in its second duct part 14. The control device 16 comprises a control element such as an air deflector 17. 17, a counterweight 18 is attached to the arm 19. The arm 19 is slidably pivotable in the joint Cj. The air guide 17 is further adapted to pivot about its edge in the joint C2 and the pivot is indicated by the arrow D1. The arm 19 can be counter-; 25 with its weights 18 turns the joint Cj around and thus changes the torque distance of the counterweight 18 from the pivot axis of the air guide 17. With such a counterweight adjustment, the throw length of the air flowing into the room can be adjusted. The other end of the arm 19 may be formed sharply and a pointing device 20, preferably a scale on the upper surface of the air guide 30, may be arranged in the air guide 17, from which the different positions of the arm 19 relative to the pivot axis of the air guide 17 of the control device 16 can be read.

The position of the counterweight 18 on the arm 19 can also be adjustable. The counterweight 18 can be slid and set in different positions on the adjusting arm 19, whereby a correspondingly changed torque distance can be obtained.

The control device 16 further comprises a volume flow indicating device 21. The indicating device 21 may consist of an articulated rod which hangs freely, e.g. attached to the lower surface of the air guide 17. The position of the indicator device 21 in fixed structures, e.g. with respect to the bottom surface 22 of the roof diffuser 10, can be read from the scale in the indicator device 21.

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The air flow from the inlet duct 11 of the roof diffuser 10 tends to deflect the air guide 17 of the control device 16. When the volume flow is small, the second duct part 14 of the diffuser part 12 does not open and the whole air flow passes laterally through the first duct part 13 of the diffuser part 12 substantially along the roof surface. As the airflow increases, a greater deflecting force is applied to the air deflector 17 of the control device 16. At low volume flows, the air flow cannot deflect the air guide 17, but the second duct part 14 remains closed. At a higher volume flow, the air guide 17 of the control device 16 rotates around the joint C2 until a new torque balance is reached between the deflection force of the air flow air guide 17 and the counter-torque caused by the counterweight 18. As the volume flow continues to increase, the air deflector 17 opens more and more and air flows more and more through the second duct part 14. Thus, the control device 16 always controls the air flow distribution between the first duct part 13 and the second duct part 14 according to the magnitude of the volume flow.

The embodiments of Figures 1, 2 and 3 show a preferred device solution according to the invention, in which the output channel consists of a first channel part 13 and a second channel part 14 separated by a partition wall 15.

Thus, depending on the volume flow, the flow to the roof diffuser 10 can be distributed only in the first channel part 13 of the diffuser section 12 with a small amount of arrow arrowhead, or the incoming flow can be divided into flows and L 1 from which the flow passes through the control device. 16 as the air guide 17 opens in the second duct portion 14.

By means of the control device 16, the air diffuser entering the room from the ceiling diffuser 10 is changed. By changing the helt pattern here is meant the vertical and horizontal profile of the air flow, i.e. the flow distribution of the air flow leaving the ceiling diffuser 35 10 in the room. The ceiling diffuser 10 according to the invention can be dimensioned, for example, in such a way that a substantially constant final velocity is achieved in the extreme region of the throw pattern, i.e. in the region to which the flow is to be extended. This is achieved in such a way that as the volume flow increases by opening the air guide 17, a certain part of the air flow is directed at least partially downwards. Thus, as the volume flow increases, the part of the air flow which is directed along the roof 5 and which passes along the roof surface due to the coanda effect decreases in relative proportion.

In the ceiling diffuser 10 according to the invention, the desired throw pattern and the desired throw width can always be adjusted. The slack pattern and slip width can be kept as desired as the volume values vary.

In the preferred embodiment of the invention shown in Figures 1 and 2, the air is directed horizontally in four main directions P1, P2, P2 and P2. Each main direction has its own control device 16 with air deflectors 17, 15 with counterweights 18 and colors 19. The lower surface of the partition 15 can preferably have a separate air deflecting adjustable guide 25. Fig. 1 shows a guide 25 diagrammatically and likewise a dashed line shows one of the guides. The guide 25 comprises an air-treading plate 25a and bendable deflection parts 25b therein, which are preferably in two pieces. The opening portions 25b are preferably welded to the lower surface of the partition 15. The guide 25 can be bent to different adjustment positions.

Figure 3 shows another preferred embodiment of the invention corresponding to Figure 2. In the embodiment of Figure 3, the air guides 17 of the control device 16 are formed by a circular sector structure. The curved outer circumferences d1, d2> d1, d1 of the air deflectors 17 are connected to each other when the duct part 14 is seamlessly connected to each other. As the volume flow increases, the air guides 17 open in a similar manner as in the embodiment according to Figures 1 and 2.

30

In both the embodiments of Figures 1, 2 and 3, a pre-diffuser 26 may be located in front of the diffuser part 12, which may be, for example, a conical ore component. Its function is to direct the flow to its decomposition 12.

In the preferred embodiments of Figures 1, 2 and 3, the roof diffuser 10 divides the horizontal flow in at least four main directions P 1, P 2> P 1 and P 2. It should be noted that although only the most preferred embodiments have been described above, the roof diffuser may also consist of a solution such that in one main direction, e.g. in the main direction P 1, there is a control device arrangement according to the invention for the desired throw profile and in other directions the ductwork and control devices can also be formed. previously known solutions of the custom-5 method.

It is also possible for such an embodiment that the partition wall 15 itself is missing and the air guide 17 of the control device 16 is shaped so as to direct the flow either parallel to the roof and / or obliquely. Thus, the control device 16 substantially changes the direction of the air flow according to the volume flow.

Figure 4 shows in more detail the operation of the control device 16 according to the invention. At low volume flows, the counterweight 18 keeps the second duct part 14 of the air deflector 15 17 in the closing position, which is marked with the em.

In this case, the flow is directed from the roof diffuser 10 only through the first channel part 13 of the diffuser part 12 parallel to the roof surface. As the volume flow increases, the force caused by the flow opens the 11-controller 17 of the control device 16. In the figure, the fully open positions of the second channel part 14 are marked. The flow then passes through both the first channel part 13 and the second channel part 14. Figure 4 shows an embodiment in which both the vertical wall 23 and the bottom wall 22 consist of a grille or have outlet openings. The embodiment of Figure 4 also has a pre-diffuser 26 which directs the air flow to the ceiling diffuser 10: 25 the diffuser part 12 to its first duct part 13 and to the second duct part 14. The pre-diffuser 26 can also consist of a network structure.

Figures 5-6 show different embodiments of the control device 16. Figure 5 shows the articulation of the air deflector 17 of the control device 16 to the wall 22 as the volume flow increases as the volume deflects away from the position blocking the flow path of the air deflector 17 by an arrow in the direction of the arrow.

Fig. 6 shows the articulation of the air guide 17 of the control device 16 to the upper wall 35 35. The increasing flow rate deflects the air guide 17 away from the closing position of the current background as indicated by the arrow. The device solutions of Figures 5 and 6 are suitable, for example, for an embodiment of the invention in which only one outflow channel part is opened and closed in one or more directions by the control device 16 and in which in one direction the air flow is pedaled according to Figures 1-4.

In the embodiments of Figures 1, 2, 3 and 4, the guide plates 17 are operatively connected to each other by means of the corner parts of the plates, so that when one plate deviates, the other guide plates 17 thus also forcibly pedal. Thus, even with one counterweight it is possible to balance several adjustment plates. However, for the stability and stability of the roof diffuser 10, it is advantageous for each control direction to have its own control devices 16 with counterweights 18, by means of which the throwing length of the air flow from the roof diffuser 10 is controlled by changing the torque distances of the control device 16 counterweights 18 from the air deflector axis. In order to adjust the counterweights 18 and thus the throw length, the adjusting device 15 has an indication indicating the position of the counterweights 18. Preferably, this indication is arranged in the 11-mano controllers 17 acting as an air guide and pedal plate.

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Claims (12)

A ceiling diffuser (10) for supply air to rooms or the like, comprising at least one supply air duct (11) in which air flows substantially downwards and an actual diffuser part (12) in which air flows substantially to the side, both control and control devices from the diffuser part ( 12) for controlling the flow of air, the regulating and controlling devices comprising one or more airflow-rotating air deflectors (17) located outside the center line of the supply air duct (11) in the diffuser section (12), adapted to change the effective outflow area of the diffuser section (12) when the volume flow changes, characterized in that the diffuser part (12) comprises a first duct part (13), from which the air flow is adapted to flow substantially along the ceiling surface, and a second duct part (14), from which the air flow is adapted to flow at least partially obliquely and / or downwards and that the control devices (16) are adapted to operate so that at low volume flows the air flow the aus is directed to the first channel part (13) and with higher flow rates to both the first (13) and the second channel part (14). Ceiling diffuser according to claim 1, characterized in that when the volume flow changes, the rotatable air guides (17) are adapted to change at least partially the outlet direction of the air flowing from the diffuser part (12) into the room. Roof diffuser according to Claim 1 or 2, characterized in that at low volume flows the air is adapted to flow from the diffuser part (12) substantially along the roof surface and correspondingly from higher volume flows at least partially downwards. Ceiling diffuser according to Claim 1, 2 or 3, characterized in that the control devices (16) are adapted to change the discharge pattern of the air flow flowing from the ceiling diffuser so that the discharge length of the air flow in a certain volume flow range remains suitable. Roof diffuser according to Claim 1, 2, 3 or 4, characterized in that the control devices (16) comprise an air guide (17), a counterweight (18) and an arm (19) or the like, to which the counterweight (18) is fitted, and that the air deflector (17) is fitted to the diffuser section (12) so that the air deflector (17) increases or inflates the effective outflow area of the diffuser section (12) according to the volume flow until the torque equilibrium is reached by the air flow to the air guide (17), between the torque caused by the air guide (17) due to its own mass and the counter torque caused by the counterweight (18). Ceiling diffuser according to Claim 5, characterized in that the position of the counterweight (18) relative to the articulation point (C2) of the air guide (17) can be changed by turning the counterweight (18) relative to the pivot point (C1) in the air guide (17). Ceiling diffuser according to Claim 5 or 6, characterized in that the adjusting device (16) has a pointer (20) for adjusting the light pattern, which is adapted to indicate the respective position of the counterweight (18). Ceiling diffuser according to one of the preceding claims, characterized in that the control devices (16) comprise an air volume flow indicating device (21). Ceiling diffuser according to one of the preceding claims, characterized in that the ceiling diffuser (10) has a pre-diffuser (26), which preferably consists of a conical part which directs the air flow to the diffuser section (12). Ceiling diffuser according to one of Claims 1 to 9, characterized in that the partition wall (15) is adapted to separate the first duct part (13) and the second duct part (14), and in that the partition wall (15) is arranged to control the flow of air. a guide plate (25), preferably in an adjustable position. Ceiling diffuser according to one of the preceding claims, characterized in that the ceiling diffuser (10) comprises an air diffuser section 11 74344 1 (12) for distributing air in four main directions (P ^,? 2 * P ^, P ^), each direction being own air guide (17). A roof diffuser according to claim 11, characterized in that the ceiling diffuser (10) comprises connecting parts (17b) by means of which the adjacent air deflectors (17) are dust-connected at their edges so that the opening or closing movement of one air guide also opens or closes the other air deflectors. 10 15 20: 25 30 35 74344