DE102007013818A1 - Measuring connection element for use in air conditioning system of aircraft i.e. passenger plane, has valve member sealed in position, in which opening is formed in pipeline wall in relation to environment atmosphere - Google Patents

Abstract

The element (10) has a valve housing (14) fastened to a pipeline, and a valve member (16) shifted along a longitudinal axis of the element between positions. The valve member is sealed in a position, in which an opening is formed in a pipeline wall in relation to environment atmosphere, and is released in another position. The valve housing is formed in a hollow cylindrical shape and has a valve seat formed at an inner periphery of valve housing sections (18, 20). The valve housing sections are connected with each other by a conically formed valve housing section (22).

Description

The The present invention relates to a measuring connection element which is intended for Producing a fluid-conducting connection between an interior a part of an aircraft air conditioning forming pipeline and a measuring device with an opening formed in a pipe wall and the Measuring device is connectable. Furthermore, the present invention relates Invention equipped with such a measuring connection element Aircraft air conditioning.

Currently in Aircraft, in particular air conditioning systems used in passenger aircraft include a variety of piping, such as. B. recirculation lines, Fresh air pipes, exhaust pipes, etc .. The regulation of a Fluid flow through these pipelines and the regulation the pressure in these pipelines takes place by means of diaphragms, to set a desired Flow area be introduced into the individual pipes. During commissioning or the maintenance of the aircraft air conditioning system as well as after a panel change becomes common a calibration to set the desired through a pipeline flowing Fluid volume flow or the desired performed in the pipeline existing pressure. During the calibration process it is necessary to have the pipe in the pipeline To measure pressure. In a wall of a part of an aircraft air conditioning forming pipeline is therefore usually formed at least one opening, the above a measuring connection element with an external device for measurement of the pressure present in the interior of the pipeline can.

One Known measuring connection element comprises a hollow cylindrical body as well one attached to a first end of the hollow cylindrical body annular Attachment portion. For producing a fluid-conducting connection between the interior of the pipeline and the hollow cylindrical body of the measuring connection element becomes the annular attachment section of the measuring connection element permanently at a portion of the outer surface of the pipeline fixed, which surrounds the opening formed in the pipe wall opening. The fixation of the attachment portion of the measuring connection element the outer surface of the Piping is usually done by gluing. A second end of the hollow cylindrical body of the If necessary, d. H. for example, during a calibration process to set the desired by the pipeline is flowing Fluid volume flow or the desired in the pipeline present pressure, temporarily with an external pressure measuring device get connected. During the Operating phases of the aircraft air conditioning system in which no measurement of the takes place in the pipeline existing pressure and thus no connection between the second end of the hollow cylindrical body of the Measuring connection element and the external pressure measuring device, is the second end of the hollow cylindrical body by means of a removable Closure cap closed.

at the known measuring connection element is the problem that the Removable closing cap, which during the operating phases of the aircraft air conditioning system, in which no measurement of the pressure present in the pipeline takes place, d. H. while the normal operating phases of the aircraft air conditioning system operating in the pipeline wall trained opening across from the ambient atmosphere seals, easily released or even be demolished. This creates an undesirable Leak that the flow control affected in the pipeline of the aircraft air conditioning.

The The present invention is directed to the object of a measuring connection element for producing a fluid-conducting connection between an interior space a part of an aircraft air conditioning forming pipeline and an external measuring device, which also during the Operating phases of the aircraft air conditioning in which no connection between the measuring connection element and the measuring device, a secure seal formed in a pipe wall opening with respect to the ambient atmosphere guaranteed.

to solution This object comprises a measuring connection element according to the invention Attachable to the pipeline valve housing. A valve member is in the valve housing along a longitudinal axis of the measuring connection element between a first and a second Position movable. In its first position, the valve member seals the opening formed in the pipe wall opposite to the ambient atmosphere while off it is the opening formed in the pipe wall in its second position releases. The measuring connection element according to the invention can be connected to any measuring device. The measuring device For example, a device for measuring the through the pipeline out Fluid volume flow, a device for measuring the composition of the guided through the pipeline Fluid flow, a temperature measuring device or the like. Preferably, however, the measuring terminal element is adapted to with a device for measuring the presence in the pipeline Pressure to be connected.

In the Messanschlus invention selement is formed in the aircraft air conditioning piping wall opening formed by the displaceable in the valve housing valve member during the operating phases of the aircraft air conditioning in which the measuring terminal element not with a measuring device such. B. a device for measuring the pressure present in the pipeline is securely sealed against the ambient atmosphere. On a removable cap, which can be easily solved or even demolished during operation of the aircraft air conditioning, can therefore be dispensed with in the measuring connection element according to the invention. The present invention thus enables the avoidance of unwanted leaks in the piping system of an aircraft air conditioning system and thus increases the reliability of the overall system.

The valve housing of the measuring connection element according to the invention is preferably substantially hollow cylindrical in shape and can have a formed on its inner circumference valve seat. The trained on the inner circumference of the valve housing Valve seat is preferably adapted to seal the formed in the pipe wall opening opposite to the ambient atmosphere with one in the following even closer to cooperate described portion of the valve member, when the valve member is in its first position.

Of the Valve seat can on the inner wall of a first valve housing section be formed, in comparison to a second valve housing section has an enlarged diameter. The first and the second Valve housing section can through a conically shaped valve housing portion connected together be. In a preferred embodiment of the measuring connection element according to the invention is an outer diameter of the first valve housing section adapted to an inner diameter of the opening formed in the pipe wall. In the attached to the pipe state of the valve body can thus the first valve housing section at least partially through the opening formed in the pipe wall in protrude the interior of the pipeline. The intrusion into the interior the pipe serves to center on the pipe and prevents penetration of adhesive into the pipe or the measuring connection bore. The second valve housing section and the conically shaped valve housing section in contrast, extend in the state attached to the pipe of the valve housing from the pipe wall to the outside.

Preferably is on the valve body a mounting portion for attaching the valve body an outer surface of the Pipe formed. With the help of the attachment section can the valve housing in a quick and easy way, for example by gluing on the outer surface of the Piping be attached. Alternatively, however, the valve housing may also with a locking device for locking the valve housing in the port formed in the pipe wall or other suitable Be provided fastening device.

Preferably becomes the on the valve body trained attachment portion, however, by a plurality of Tongues formed in the radial direction from an outer circumference of the valve housing extend. For example, they extend the attachment portion forming tongues from an outer circumference one to the conical valve body section adjacent region of the first valve housing portion and have a certain elasticity on, so that the tongues in the fixation on the outer surface of the Pipeline to the curved Create contour of the pipe outer surface. On the underside of the tongues "nubs" can be formed, the the adhesive surface enlarge. The valve housing of the measuring connection element according to the invention can thus easily be safely connected to pipelines different diameter, d. H. Pipelines whose outer surfaces are different curvatures have to be mounted.

Preferably is the attachment portion relative to the other elements of the valve housing so dimensioned that the valve body overall sufficient Stiffness to the when using the measuring connection element according to the invention in an aircraft air conditioning system acting on the valve housing mechanical Loads to withstand. Through the attachment section is a higher one Strength achieved than in the known measuring connection element. By a corresponding design of the valve housing and in particular the attachment portion it is thus possible on an additional reinforcement of the valve housing to dispense with the pipeline during or after assembly. Compared to a known from the prior art measuring connection element, that after fixing to the pipeline to achieve the required Stiffness must be enhanced with a wet laminate layer is the measuring connection element according to the invention thus considerably faster and easier to assemble.

In a preferred embodiment of the measuring connection element according to the invention, the valve member which can be displaced in the valve housing comprises a valve tappet which is connected at a first end to a sealing portion of the valve member. Preferably, the sealing portion of the valve member is substantially cylindrically shaped and has an expanded compared to the valve stem Diameter up. In addition, the outer diameter of the sealing portion is preferably adapted to the inner diameter of the first valve housing portion, so that the sealing portion of the valve member in its first position can sealingly cooperate with the formed on the inner periphery of the first valve housing portion valve seat.

Preferably the sealing portion of the valve member has a at its outer periphery trained groove on. In this groove can be an example in shape be absorbed by an O-ring formed sealing element. If the valve member is in its first position in the valve housing, the sealing element is located on the inner circumference of the first valve housing section trained valve seat and thus ensures a secure seal the formed in the pipe wall opening opposite to the Ambient atmosphere.

According to one preferred embodiment of Measuring connection element according to the invention is in the valve lifter a longitudinal bore trained, over a transverse bore with an outer circumference of the Valve tappet connected is. Preferably, the transverse bore is in one of the sealing portion formed adjacent area of the valve stem. The in the Valve tappet trained longitudinal bore Thus, in a simple manner fluid-conducting with the interior the pipeline can be connected by the valve member in the direction the interior of the pipeline along the longitudinal axis of the measuring connection element in the valve housing is shifted until provided by the valve stem in the transverse bore a fluid-conducting connection between the interior of the pipeline and the one formed in the valve lifter longitudinal bore will be produced.

Of the Valve tappet can at one opposite the first end connected to the sealing portion second end of a connection portion for connecting the valve stem with a hose or similar Have connection line of the measuring device. Preferably the connecting portion of the valve stem with a conically shaped outer periphery provided so that the hose or the connecting lead of the measuring device in a quick and easy way to the connection section pushed the valve stem and the measuring device thus fluid-conducting with the formed in the valve stem longitudinal bore can be connected.

Around in the mounted on the pipe state of the valve body a Displacement of the valve member in the valve housing in the direction of the interior limiting the pipeline is preferably on the valve member a stop element is formed, which with a formed on the valve housing stop surface interacts. The stop element can for example by a radially from an outer circumference extending the valve stem Stop ring are formed. The provided on the valve housing Stop surface can for example, an edge surface the second valve housing section be.

at a preferred embodiment of the measuring connection element according to the invention the valve member is resiliently biased to its first position, in which it is formed in the pipe wall opening opposite to the ambient atmosphere seals. This will ensure that the first valve member always in its first sealing Position is as long as no force is applied to the valve member becomes.

Preferably consist of the valve body as well the valve member from a for the aircraft construction qualified injection molding material. Such a thing Material is characterized by good mechanical properties as well in particular by excellent fire properties. Furthermore can such a material for the production of complex shaped parts be used in injection molding.

A Aircraft air conditioner according to the invention includes at least one pipeline, one in a pipeline wall trained opening is connected to a measuring connection element described above.

A preferred embodiment of the measuring connection element according to the invention will now be with reference to the attached schematic drawings closer explains of which

1 3 shows a cross-sectional view of a measuring connection element in which a valve member which can be displaced in a valve housing is in a first position,

2 3 shows a cross-sectional view of the measuring connection element, in which the valve member which is displaceable in the valve housing is in a second position,

3 a three-dimensional representation of the measuring connection element according to 1 in the state mounted on a pipeline of an aircraft air conditioner,

4 a partial cross-sectional view of the measuring connection element according to 1 in mounted on a pipeline of an aircraft air conditioner shows, and

5 a partial cross-sectional view of the Measuring connection element according to 2 in mounted on a pipeline of an aircraft air conditioner shows.

One in the 1 to 5 shown measuring connection element 10 serves, for example, during a calibration process to set a desired through a pipeline 12 an aircraft air conditioning system (see 3 to 5 ) flowing fluid volume flow or a desired in the pipeline 12 present pressure an interior of the pipeline 12 temporarily with an external measuring device for measuring the in the pipeline 12 to connect existing pressure. The measuring connection element 10 comprises a substantially hollow cylindrical valve housing 14 and one in the valve housing 14 along a longitudinal axis L of the measuring connection element 10 slidable valve member 16 ,

The valve housing 14 and the valve member 16 of the measuring connection element 10 consist of an injection molding material that is qualified for aircraft construction, which is characterized by good mechanical properties and excellent fire properties.

The valve housing 14 includes a first valve housing portion 18 compared to a second valve housing section 20 has an enlarged diameter. The first and second valve housing sections 18 . 20 are through a conically shaped valve housing section 22 connected with each other. As in particular in the 4 and 5 can be seen, is an outer diameter of the first valve housing portion 18 to an inner diameter of one in a pipeline wall 24 adapted trained opening, so that the first valve housing section 18 im at the pipeline 12 attached state of the valve housing 14 at least partially through the in the pipeline wall 24 formed opening in the interior of the pipeline 12 protrudes. The protrude into the interior of the pipeline 12 serves for centering on the pipe 12 and prevents the penetration of glue into the pipe 12 or in the pipeline wall 24 trained opening.

For fastening the valve housing 14 on the pipeline 12 is on the valve body 14 a fixing section 26 educated. Like from the 1 to 3 it can be seen, the attachment portion 26 by a plurality of tongues 28 formed in the radial direction, ie radially from an outer periphery of the conical valve housing portion 22 adjacent region of the first valve housing section 18 extend. With the help of the tongues 28 formed fastening section 26 can the valve body 14 by gluing with an outer surface of the pipeline 12 get connected. Because the tongues 28 have a certain elasticity, put the tongues 28 to the curved contour of the pipe outer surface and thus ensure a secure attachment of the valve housing 14 on the pipeline 12 ,

The attachment section 26 is dimensioned so that the valve body 14 has sufficient rigidity to when using the Meßanschlusselements 10 in an aircraft air conditioner on the valve housing 14 to withstand acting mechanical loads. In particular, the valve housing sections 18 . 20 . 22 as well as by the tongues 28 formed attachment section 26 with respect to their inner or outer diameter and their material thickness designed so that on a subsequent reinforcement or stiffening of the pipe 12 mounted valve housing 14 can be waived.

The valve member 16 of the measuring connection element 10 includes a valve lifter 30 which is at a first end with a sealing portion 32 of the valve member 16 connected is. The sealing section 32 of the valve member 16 points in comparison to the valve tappet 30 an enlarged diameter. In addition, an outer diameter of the sealing portion 32 of the valve member 16 to an inner diameter of the first valve housing portion 18 customized. In an outer periphery of the sealing portion 32 is a groove 34 molded, in which a formed in the form of an O-ring sealing element 36 is included. In one in the 1 . 3 and 4 shown first position of the valve member 16 thus acts the sealing element 26 with a valve seat 38 together, on an inner periphery of the first valve housing portion 18 is trained. By the interaction of the sealing element 36 with the valve seat 38 is the in the pipeline wall 24 formed opening in the first position of the valve member 16 safely sealed against the ambient atmosphere.

In the valve lifter 30 is a longitudinal bore 40 Trained over a transverse bore 42 with an outer periphery of the valve lifter 30 connected is. The transverse bore 42 is in one to the sealing section 32 adjacent area of the valve lifter 30 educated. In addition, the valve lifter points 30 at a second end that with the sealing portion 32 connected first end of the valve stem 30 opposite, a connection section 44 on. The connection section 44 is provided with a conically shaped outer periphery, so that the connection section 44 of the valve lifter 30 can be connected in a quick and easy way with a connecting hose of the external pressure measuring device.

In normal operation of the aircraft air conditioning system is the valve member 16 in his in the 1 . 3 and 4 shown first position in which the valve member 16 through the interaction of the in the groove 34 of the sealing section 32 received sealing element 36 with the inner circumference of the first valve housing portion 18 trained valve seat 38 for a seal in the pipeline wall 24 formed opening opposite the ambient atmosphere provides. By applying one in the direction of the interior of the pipeline 12 directed force F, the valve member 16 in the valve housing 14 in his in the 2 and 4 shown second position to be moved.

In the second position of the valve member 16 it works in the groove 34 of the sealing section 32 absorbed sealing element 36 no longer with the on the inner circumference of the first valve housing section 18 trained valve seat 38 together. Instead, put in the valve lifter 30 Trained transverse bore 42 a fluid-conducting connection between the interior of the pipeline 12 and extending through the valve lifter 30 extending longitudinal bore 40 ago. In the second position of the valve member 16 the external pressure measuring device is thus via the over the connection section 44 of the valve lifter 30 pushed hose, over which in the valve lifter 30 trained longitudinal bore and over the longitudinal bore 40 with the outer periphery of the valve lifter 30 connecting transverse bore 42 fluid-conducting with the interior of the pipeline 12 connected. At the measuring device is thus in the pipeline 12 present pressure P _stat. and can be detected by the measuring device, without it being necessary, the measuring device in the interior of the pipeline 12 contribute.

The displacement of the valve member 16 in the valve housing 14 from its first to its second position is due to the interaction of a conically shaped fa ce a ring around an outer circumference of the valve stem 30 extending stop element 46 with a correspondingly conically shaped stop surface 48 bounded by an edge surface of the first valve housing portion 18 is formed.

After finishing the measurement of the inside of the pipeline 12 present pressure P _stat. The tube of the pressure measuring device is again from the connection section 44 of the valve lifter 30 solved. The valve member 16 can then return to his in the 1 . 3 and 4 shown first position, in which it is necessary for proper sealing of the pipe wall 24 formed opening opposite the ambient atmosphere provides.

Claims (16)

Measuring connection element ( 10 ), which is used to establish a fluid-conducting connection between an interior of a pipeline forming part of an aircraft air conditioning system (US Pat. 12 ) and a measuring device with one in a pipeline wall ( 24 ) and the measuring device can be connected, characterized by - a on the pipeline ( 12 ) attachable valve housing ( 14 ), and - in the valve housing ( 14 ) along a longitudinal axis (L) of the measuring terminal element ( 10 ) between a first and a second position displaceable valve member ( 16 ), wherein the valve member ( 16 ) in its first position that in the pipeline wall ( 24 ) formed opening with respect to the ambient atmosphere seals and releases in its second position. Measuring connection element according to claim 1, characterized in that the valve housing ( 14 ) is formed substantially hollow cylindrical and formed on its inner circumference valve seat ( 38 ) having. Measuring connection element according to claim 2, characterized in that the valve seat ( 38 ) on an inner circumference of a first valve housing section ( 18 ) is formed, which compared to a second valve housing section ( 20 ) has an expanded diameter. Measuring connection element according to claim 3, characterized in that the first and the second valve housing section ( 18 . 20 ) by a conically shaped valve housing section ( 22 ) are interconnected. Measuring connection element according to claim 3 or 4, characterized in that an outer diameter of the first valve housing section ( 18 ) to an inner diameter of the in the pipeline wall ( 24 ) formed opening, so that the first valve housing section ( 18 ) in at the pipeline ( 12 ) attached state of the valve housing ( 14 ) at least partially through the in the pipeline wall ( 24 ) formed opening in the interior of the pipeline ( 12 protrudes. Measuring connection element according to one of claims 1 to 5, characterized in that on the valve housing ( 14 ) a fastening section ( 26 ) for fastening the valve housing ( 14 ) on an outer surface of the pipeline ( 12 ) is trained. Measuring connection element according to claim 6, characterized in that the fixing portion ( 26 ) by a plurality of tongues ( 28 ) is formed, extending in the radial direction of a Outer circumference of the valve housing ( 14 ). Measuring connection element according to claim 6 or 7, characterized in that the fixing portion ( 26 ) is dimensioned so that the valve housing ( 14 ) has a sufficient rigidity to the mechanical loads of the valve housing ( 14 ) when using the measuring connection element ( 10 ) in an aircraft air conditioning system. Measuring connection element according to one of claims 1 to 8, characterized in that the valve member ( 16 ) a valve tappet ( 30 ), which at a first end with a sealing portion ( 32 ) of the valve member ( 16 ), wherein the sealing portion ( 32 ) of the valve member ( 16 ) compared to the valve lifter ( 30 ) has an expanded diameter. Measuring connection element according to claim 9, characterized in that the sealing portion ( 32 ) of the valve member ( 16 ) formed in its outer periphery groove ( 34 ) for receiving a sealing element ( 36 ) having. Measuring connection element according to claim 9 or 10, characterized in that in the valve tappet ( 30 ) a longitudinal bore ( 40 ) is formed, which via a transverse bore ( 42 ) with an outer periphery of the valve stem ( 30 ) connected is. Measuring connection element according to one of claims 9 to 11, characterized in that the valve stem ( 30 ) at a second end a connection portion ( 44 ) with a conically shaped outer periphery for connecting the valve stem ( 30 ) having a hose of the measuring device. Measuring connection element according to one of claims 1 to 12, characterized in that on the valve member ( 16 ) a stop element ( 46 formed by an interaction with a on the valve housing ( 14 ) formed stop surface ( 48 ) a displacement of the valve member ( 16 ) in the valve housing ( 14 ) limited. Measuring connection element according to one of claims 1 to 13, characterized in that the valve member ( 16 ) resiliently its first position is biased, in which it in the pipeline wall ( 24 ) formed opening with respect to the ambient atmosphere seals. Measuring connection element according to one of claims 1 to 14, characterized in that the valve housing ( 14 ) and the valve member ( 16 ) consist of a qualified for aircraft construction injection molding material. Aircraft air conditioning system with a measuring connection element according to one of the claims 1 to 15.