DE102006035337A1 - Regulating device for air flow, has perforated control pipe which moves in linear manner in casing whereby base of casing is closed and has no holes - Google Patents

Abstract

Regulating device has a perforated control pipe (11) which moves in a linear manner in the casing (11a). Base (11b) of the casing is closed and has no holes. Linear moving spindle (14a) of controlling device (14) is connected with the base. Perforated control pipe is mounted on the connecting pipe (13) and control pipe can move on the connecting pipe by which the air flow regulating device is applied to the air flow of entrance pipe (P1).

Description

object The invention is a regulator device for an air flow.

from State of the art are also control valves and spindle valves for Air flow control known. Next perforated pipes and perforated plates are known as air outlet surfaces. From the prior art are also used for air distribution air chamber structures known to which the air is supplied through a control valve, wherein the control valve the air flow in the desired Quantity distributed within the air chamber, from where the air continues into an outlet tube and e.g. through a separate ventilation terminal in one Room emanates. The air chamber construction is used in ventilation as a unit, in the airflow The air can be treated with a separate heat exchanger either heated or cooled or the chamber construction has only one for heating the Serving air flow electrical resistance. The construction preferably has on the walls the air chamber construction on a sound insulation, which also serves as thermal insulation. One task of the chamber is thus as a maintenance unit the ventilation to serve, e.g. near a hotel room or a cabin can be arranged. In In the present application, a new air flow regulator device presented specifically for use with an air chamber suitable. An object of the chamber is as a pressure reducing chamber to serve, wherein the regulator valve according to the invention preferably expressly as a pressure reducing valve and as a valve for controlling the air flow rate serves. In the construction according to the invention is with the chamber a projecting and directed into this Connecting pipe connected. This is open to the interior of the chamber and the chamber construction is at its other end on the housing body R to outside air open. With the said connection pipe is perforated in his coat movable regulator tube connected to the jacket of the connecting pipe moved, and that at its end an unperforated floor construction is at which the spindle of the actuator of the air flow regulator device is appropriate. The actuator moves the regulator tube in dependence from the setpoint set in the central unit linearly in different positions. The feedback with the central unit comes from one inside the connection pipe accommodated pressure measuring system, which reduces the pressure of the air flow in the Channel measures, with the pressure proportional to the air flow rate is. From the central unit, the controller comes to the control unit the actuator, which then controls the actuator by whose spindle is moved linearly. The actuator may e.g. an electric adjusting device, wherein the electric motor a So-called linear motor is. This is the spindle of the electric motor moved linearly, the spindle continues with the unperforated bottom the perforated tube is connected. The fact that on the perforated pipe is used a non-perforated bottom, the Spindle also moves to a position where the entire flow shut off and the air flow is prevented inside the chamber.

The Air flow regulator device according to the invention is characterized by the definitions of the claims.

in the Below, the invention will be made with reference to some in the figures the attached Drawing illustrated preferred embodiments, to which the However, the invention should not be narrowly limited, described in detail.

In 1 schematically a regulator device according to the invention is shown in an air chamber.

In 2 the air chamber is shown in perspective as a schematic illustration.

In 3 is cut II-II off 2 shown.

In 1 is an air flow regulator device according to the invention 10 shown. The regulator device 10 is particularly suitable for high pressure levels to reduce pressure to a lower pressure level when passing air in a room terminal such as ceiling diffuser or in another Luftströmungsendabgabeeinheit in a room. According to the invention, the regulator device 10 inside an air chamber 100 arranged to be in room H with the one at the air chamber 100 attached connection pipe 13 to be connected, to which the inlet pipe P _{1 is} connected. In this arrangement, the inlet pipe P _{1 can be} in the connection pipe 13 plug in. The connection pipe 13 may be a collar-like tube section that enters the air chamber 100 protrudes into it. The regulator device according to the invention 10 has one in his coat 11a perforated regulator tube 11 on, that's an unperforated floor 11b Has. The regulator tube 11 is with the actuator 14 , such as electric motor, moves its spindle 14a moved linearly. The spindle 14a is on the ground 11b appropriate. In the figure, the direction of movement is represented by the arrow D ₁ . The perforated regulator tube 11 comes around the connection pipe 13 around, preferably on the outside. The perforated regulator tube 11 Can also be on the inside of the connection pipe 13 be attached. To control the air flow rate Q of the air flow S ₁ , the spindle 14a inside the chamber 100 moved linearly and because the Bodenab cut 14b of the regulator tube 11 is closed, the flow in the inside space H of the chamber 100 with the adjusting device 14 be completely shut off. In the above shut-off position comes the floor 11b of the regulator tube 11 against the end of the connection pipe 13 and the air flow S ₁ in the chamber 100 in the room H is prevented. According to the invention is located within the connection pipe 13 a pressure measuring system 150 which measures the pressure against the flow as well as in the opposite direction, so to speak, behind the flow. The pressure data of this measurement are via nozzles, such as pipes 15a and 15b , to the central unit 300 passed, which senses the pressure difference of the measured pressures and due to the pressure difference across the control device 200 the adjusting device 14 the adjusting device 14 so controls that the desired, through which the pipe jacket 11a of the regulator tube 11 penetrating holes (a ₁ , a ₂ ...) in the interior H of the chamber 100 flowing air flow rate Q is achieved and / or maintained. The changes occurring in the air pressure are then via a pressure gauge arrangement 150 through the neck 15a and 15b to the central unit 300 and on to the control unit 200 the adjusting device 14 transfer. The stub 15a is in the connection pipe 13 opened against the flow S ₁ and the nozzle 15b is open in the opposite direction. The pillars 15a . 15b , such as pipes, are further with the central unit 300 connected. The central unit 300 take that into the neck 15a . 15b prevailing pressure true and because of the difference of these perceived pressures then becomes the actuator 14 For example, regulated by an electrical signal, that for the control unit 200 is produced. The control is taken along the line e ₁ of the central unit 300 to the control unit 200 The controller size is transmitted via the line e ₂ from the control unit 200 to the adjusting device 14 transfer. The central unit 300 , the control unit 200 and the actuator 14 but could be integrated into a whole. Thus, due to the pressure difference, the position of the spindle 14a the adjusting device 14 regulated. Due to the pressure data in the connection pipe 13 can now through the connecting pipe 13 flowing air flow Q can be determined. According to 1 can be connected to the connection pipe 13 easily from the outside, the inlet pipe P _{1 are} connected. The connection pipe 13 has an inner seal f ₁ , such as ring seal, on which the connection point between the inlet pipe P ₁ and connecting pipe 13 pressure-tight seals. Accordingly, between the inner surface of the moving regulator tube 11 and the connection pipe 13 a seal f ₂ , such as ring seal, are used to prevent undesired leakage flow via said connection surface into the inside space H of the air chamber 100 to prevent. However, the seal f ₂ is not necessarily required.

In the figures, the air flow is indicated by arrows S ₁ .

In 2 is the with the air flow controller according to the invention 10 connected air chamber, ie air chamber 100 , shown in perspective. In 3 is the section II according to 2 shown. The air chamber 100 has an inlet connection E ₁ and an outlet connection E ₂ for the air flow S ₁ . Through the outlet port E ₂ , the air flow from the air chamber 100 into an outlet pipe and through an air distribution terminal in a room or directly into a room or the like either from the outlet port E ₂ or via a connected thereto terminal. In the air chamber 100 the air is treated, eg heated or cooled, with a current device T, which may consist of a heat exchanger, with which the air flow can be heated or cooled, or which may consist only of a heating resistor provided for heating, which is thus operated electrically , The air chamber 100 has a housing body R and on the inside of a sound and heat insulation W on. According to 2 and 3 the air is supplied through the inlet pipe P ₁ (arrows S ₁ ). The inlet pipe P ₁ is in the air chamber 100 inwardly projecting connection pipe 13 connected. This indicates the chamber 100 no protruding structural parts, which is advantageous for storage and transportation. In addition, the connection of the pipe P ₁ to the chamber 100 easy. The pipe P ₁ is only in the connection pipe 13 plugged. In addition, the connection pipe 13 when using the air flow regulator device according to the invention 10 as installation point for the pressure sockets 15a and 15b suitable, being that of the measuring system 150 perceived pressure data through the neck 15a and 15b to the central unit 300 be transferred to which the neck 15a and 15b , preferably pipes, are connected. The stub 15a is in the connection pipe 13 against the flow direction S _{1 of} the air flow and the nozzle 15b opened in the opposite direction. The stub 15a can also be formed from a measuring device arrangement in which a plurality of measuring rings are connected to each other and the relevant pressure data to the central unit 300 be transmitted. Accordingly, the nozzle can 15b consist of an arrangement in which a plurality of measuring rings are interconnected and their pressure data to the central unit 300 be transmitted. The central unit 300 calculates the pressure difference between said entrance and exit sides and a control signal based on the pressure difference becomes the control unit 200 the adjusting device 14 transfer. Due to the aforementioned pressure measurement can be via the control unit 200 the adjusting device 14 and its spindle to be moved linearly 14a be controlled so that the perforated regulator tube 11 that has a ge closed floor section 11b has, with respect to the connection pipe 13 desired position is brought, whereby a certain number of holes a ₁ , a ₂ ... of the jacket 11a of the pipe 11 with the interior H of the air chamber 100 is connected and the desired air flow rate Q (l / min) is achieved in this way.

Claims (6)

Regulator device ( 10 ) for an air flow, characterized in that the air flow control device ( 10 ) a linearly movable, in his coat ( 11a ) perforated regulator tube ( 11 ) whose bottom ( 11b ) is closed and has no holes, with the bottom ( 11b ) a linearly moving spindle ( 14a ) an adjusting device ( 14 ), and the perforated regulator tube ( 11 ) on a connecting pipe ( 13 ) and is movably mounted on this, through which connection pipe ( 13 ) of the air flow regulator device ( 10 ) an air flow from an inlet pipe (P ₁ ) is supplied. Regulator device ( 10 ) according to claim 1, characterized in that the regulator device ( 10 ) in space (H) within an air chamber ( 100 ) is arranged. Regulator device ( 10 ) according to claim 1 or 2, characterized in that the regulator device ( 10 ) in the connecting pipe ( 13 ) a pressure measuring system ( 150 ), whereby pressure data through nozzles ( 15a . 15b ) to a central processing unit ( 300 ) are transferable, which then due to the measured pressure data via a control unit ( 200 ) an adjusting device, the adjusting device ( 14 ) and the position of its linearly movable spindle ( 14a ) and thus the air flow through the holes (a ₁ , a ₂ ...) of the in his coat ( 11a ) perforated regulator tube ( 11 ) in the space (H) inside the air chamber ( 100 ) regulates. Air flow regulator device ( 10 ) according to one of the preceding claims, characterized in that the perforated tube ( 11 ) is designed to surround the connecting pipe (P ₁ ) and that the connecting pipe 13 one in the air chamber ( 100 ) is inwardly projecting construction, to which the inlet pipe (P ₁ ) can be connected. Air flow regulator device ( 10 ) according to one of the preceding claims, characterized in that the connecting pipe 13 on the inside an annular seal (f ₁ ), the junction between the to the box ( 100 ) connected pipe (P ₁ ) and the connecting pipe ( 13 ) pressure-tight seals. Air flow regulator device ( 10 ) according to claim 3, characterized in that the regulator device ( 10 ) a in the connecting pipe (P) mounted pressure measuring system ( 150 ), the nozzles such as pipes ( 15a . 15b ) connected to the central unit ( 300 ), and of which the neck ( 15a ) Open against the flow (S ₁₎ and the socket ( 15b ) is opened in the opposite direction, wherein the pressure difference in the tubes ( 15a . 15b ) from the central unit ( 300 ) and the control data based thereon for controlling the position of the spindle ( 14a ) of the adjusting device ( 14 ) to the control unit ( 200 ) of the adjusting device ( 14 ) be transmitted.