Pipe coupling system for a pressurized fluid system

专利摘要:
The present invention relates to a pipe coupling system (1) for a pressurized fluid system comprising a coupling body (3) for receiving a pipe (5) from a pressurized discharge system, a leak sealing means (7) for preventing fluid which is fed from the pressurized discharge system via the pipe from into the coupling body (3), a gripping means (9) for gripping in the outer surface of the hose tube (5) which is received in the coupling body (3), and a sealing means (11) towards the environment to prevent intrusion from the outside of the coupling body (3). ), characterized in that said sealing means (11) is at least partially fl superficial and arranged to be pressed at least partially from a sealing seat when there is internal fluid pressure in the coupling body (3), resulting in a fluid flow out of the coupling body (3) and said fl outflow to the outside of the coupling body (3) indicates a leakage from the pressurized fluid system.
公开号:SE1050614A1
申请号:SE1050614
申请日:2007-11-28
公开日:2010-06-16
发明作者:Egil Pedersen
申请人:Kongsberg Automotive As；
IPC主号:

专利说明:

15 20 25 30 2 or both ends. Furthermore, there is an uncertainty regarding the position of the marking and the ability to assess whether the visible markings indicate full introduction or not.
Other common solutions give the user a recognizable feeling of pressure, which indicates when the pipe is in the correct position. This requires the user to be able to tell the difference, which can be difficult, for example, when using a tool for assembly. Furthermore, a recognizable sense of impression is a highly subjective measure which different users may experience differently.
A pipe coupling system according to the preamble of claim 1 is shown in WO 2006/112726 A1. However, the problem of giving the assembly personnel a feedback signal, when the pipe is sufficiently and correctly inserted, is not addressed therein.
WO 2006/037962 A1 shows a pipe coupling and deals with the feedback problem by giving an audible indication at the fully inserted position of the pipe.
The coupling system shown therein comprises a pipe support member, on which a pipe is threaded. When the pipe is inserted into the coupling, the pipe pushes the pipe supporting member inwards, which is therefore pressed to slide deeper into the coupling body. A groove and tongue configuration between the outer surface of the tube support member and the inner surface of the coupling body provides an audible clicking signal which informs the user that the tube with the tube support member has reached a fully inserted position.
The solution described in WO 2006/037962 A1 has the disadvantage that the audible clicking signal only informs the user in an indirect way, namely that the pipe support member has reached a fully inserted position rather than that the pipe is fully inserted in the coupling. Thus, no information is given as to whether the tube is indeed fully inserted into the tube support member. The risk of leakage and unintentional loosening due to incorrect installation of the pipe into the pipe support member is therefore still a requirement. In addition, no information is given as to whether the pipe remains in the correct, fully inserted position during normal use of the pipe coupling system. Furthermore, the insertion force is significantly increased upon insertion of the tube due to the resistance provided by the groove and tongue configuration to be able to produce an audible clicking signal. This resistance must be relatively high, as a premature snapping signal before the pipe has reached a final stop position of the pipe support member would be harmful. This resistance force increases on the friction caused by the gripping or dice means, which results in an uncomfortably high total insertion force. Such a required high total insertion force can in turn lead to a high frictional force between the pipe and the pipe support member when the pipe is inserted, for example, in a slightly inclined manner. If this frictional force exceeds the snap resistance, a premature snap signal is triggered before the tube is fully inserted into the tube support member.
The object of the present invention is to overcome the disadvantages of the prior art and to provide a pipe coupling system which really assures a user that the pipe is sufficiently and correctly inserted into the coupling after assembly and in normal use. Furthermore, a continuous leak tightness check is desirable.
This object is achieved by what is stated in claim 1. According to the present invention there is provided a pipe coupling system for a pressurized fluid system comprising a coupling body for receiving a pipe from a pressurized fluid system, a leak sealing means for preventing fluid which is fed from the pressurized fluid system via the pipe, enters the coupling body, a gripping means for gripping the outer surface of the pipe which is received in the coupling body, and a sealing means towards the environment, to prevent intrusion from the outside of the coupling body, characterized in that said sealing means towards the environment is at least partially movable and arranged to be pressed at least partially from a sealing seat when there is internal fluid pressure in the coupling body, which results in an ström outflow out of the coupling body and in that fl outflow to the outside of the coupling body indicates a leakage from the pressurized fluid system.
The pipe coupling system according to the invention ensures that the fluid flow is always large enough to be detected by the user. Before the sealing member is pressed at least partially from the sealing seat towards the surroundings, a fluid pressure builds up inside the coupling body. When the pressure exceeds an amount necessary to press the sealing member against the environment from the sealing seat, there is a sufficiently strong fluid flow to be able to indicate a leak.
Preferably, the fluid flow to the outside of the coupling body generates an audible feedback signal indicating a leakage from the pressurized fluid system. This audible feedback signal may be, for example, a whistling or hissing tone if the fluid is air or another gaseous fluid. If the fluid is a liquid or optically distinguishable from air, then the leak indication can also be an optical signal for the leaking fluid flow.
In a preferred embodiment the sealing means towards the environment, usually an o-ring, is arranged in an annular groove, which groove has a cut-out which allows the sealing means towards the environment to be pressed at least partially from the sealing seat when there is an internal fluid pressure in the coupling body. The sealing seat of the sealing member with respect to the environment is preferably an annular surface arranged at an axially inner portion of the annular groove.
The preferably flexible and elastically deformable sealing member towards the environment can be arranged to return to contact with the sealing seat when the internal fluid pressure in the coupling body is again below a certain threshold value. For example, the sealing member relative to the environment can be fl visible with return resilient properties. The threshold value should then be much lower than the ordinary pressure in the pressurized fluid system, so that even a very small leakage will lead to a pressure build-up which is indicated quickly. The sealing member relative to the environment can also be constructed as a disposable component which breaks and which is adapted to be pushed from the sealing seat only once.
A borehole may also be provided to allow a fluid flow from the inside of the coupling body to the outside of the coupling body when the sealing member towards the environment is at least partially pressed from the sealing seat due to an internal fluid pressure in the coupling body. Such a borehole has the advantage that the ström current is conducted through the borehole in order to provide a more controlled and noticeable signal to the user. The size of the borehole can be selected so that a warning whistle is produced by the fluid flow or it can be equipped with additional means for this purpose. Hereinafter, preferred embodiments of the invention are described in more detail, with reference to Figures 1 to 5.
Figure 1 shows a side view of a preferred pipe coupling system with half shown as a longitudinal sectional view.
Figure 2 shows an exploded view of a preferred pipe coupling system.
Figure 3 shows a side view of a preferred pipe coupling system with half shown as a longitudinal sectional view and with a pipe which is not sufficiently inserted.
Figure 4 shows a side view of a preferred pipe coupling system with half shown as a longitudinal sectional view and with a pipe which is sufficiently inserted.
Figure 5 shows a detailed, longitudinal sectional view of the sealing member towards the environment, with a portion pressed from the sealing seat.
The pipe coupling system 1 shown in coupling figure 1 comprises a coupling body 3 for receiving a pipe 5 from a pressurized fluid system, a leak sealing means 7 for preventing fluid from the pressurized fluid system from entering the coupling body 3, a gripping means 9 for gripping in the outer surface of the pipe 5 which is received in the coupling body 3, and a sealing member 11 towards the environment to prevent intrusion from the outside of the coupling body 3. The end of the coupling body 3 which is not intended to receive the pipe 5 is provided with a threaded connection end 13 and a seal 15. The coupling body 3 further comprises a portion having an outer shape 17 which is suitable for receiving a wrench for screwing the pipe coupling system 1 with its threaded connection end 13 into another component of the pressurized fluid system.
In this embodiment, the pipe coupling system 1 comprises a pipe supporting sleeve 19 which is inserted into the coupling body 3 from the end intended to receive the pipe 5. The inner shape of the coupling body 3 is adapted to receive the outer collar of the pipe supporting sleeve 19, to secure holding the pipe support sleeve 19 in a radial direction. The pipe support sleeve 19 is pressed into the coupling body 3 until a flange portion of the pipe support sleeve 19 abuts an inner folding coupling body 3, which provides a final stop for the pipe support sleeve 19 to be pressed into the coupling body. 3. The inner collar of the pipe support sleeve 19 is adapted to fit into a pipe 5 which is intended to be received by the coupling system 1. The outer collar of the pipe support sleeve 19 is adapted to fit the outer surface of the pipe 5 so that an end portion of the tube 5 is enclosed in the tube support sleeve 19. The tube support sleeve 19, which is attached to the coupling body 3, therefore provides guidance to the tube 5 during insertion, and a stabilization of the tube 5 in the coupling body 3 once it is inserted. The inner shape of the coupling body 3 provides a cavity portion which is to receive sealing and gripping means which are inserted into the coupling body 3 after the pipe-supporting sleeve 19 has been inserted.
In this way, detachment of the pipe-supporting sleeve 19 from the coupling body 3 is prevented, by the sealing and gripping means.
The sealing and gripping means comprise a leak sealing means 7 for preventing fluid from the pressurized fluid system from entering the cavity portion of the coupling body 3. The leak sealing member 7 fits in a tight connection between the inner surface of the coupling body 3 and the outer surface of an inserted tube 5.
The leak sealing member 7 is preferably an o-ring of rubber material which, before insertion of the pipe, partially protrudes into the void intended to receive the pipe 5.
When the pipe 5 is inserted deep enough into the pipe coupling system 1 to reach the leak sealing member 7, the leak sealing member 7 is deformed into a tight-fitting seal between the pipe 5 and the coupling body 3.
Further axially outwards in the cavity portion of the coupling body 3, means for fastening the pipe 5 within the pipe coupling system 1 are arranged. The fastening means comprise a gripping means 9, preferably a pressure ring, for gripping the outer surface of the pipe 5 which is received in the pipe coupling system 1. Furthermore, the fastening means comprise an insert 21 which is preferably formed in an axial inner portion with a plurality of inner projections 24 arranged at intervals along an inner circumference of the insert 21, the projections 24 forming a segmented, conical, inner portion with a decreasing diameter in the direction of the axial outer end of the insert 21. The gripping means 9 have a radial outer conical surface which substantially corresponds to the inner segmented conical the portion of the insert 21. The fastening means is a combination of properties of the insert 21 and the gripping means 9. The gripping means 9 are axially movable. The arrangement of the insert 21 and the gripping means 9 is such that an axial outward force applied to the tube 5, which is held in the pipe coupling system 1, will be transmitted to an increase of a compressive force applied by the gripping means 9 on the outer surface of the tube 5 . All unintentional releasing force on the tube 5 will therefore cause the gripping means 9 to react with an increased gripping force on the tube 5, so that the releasing force does not result in an actual loosening of the tube 5.
The axial outer portion of the insert 21 is preferably provided with an annular groove for receiving a sealing member 11 towards the environment, usually an o-ring of rubber material, to prevent intrusion from the outside of the coupling body 3. Alternatively, the sealing member 11 towards the environment may be arranged between a axial outer surface of the internal projections 24 of the insert 21 and an axial outer end 28 of the insert 21. The sealing member 11 to the environment is not axially attached to the annular groove or the space between the projections 24 and the flange 28 of the insert 21.
Preferably, the groove or gap has a greater axial elongation than the sealing member 11 relative to the environment. Alternatively, the groove or gap has an axial outer cut-out which allows the sealing member 11 to move axially outwards from the sealing seat relative to the environment when there is an internal fluid pressure in the coupling body. The sealing seat of the sealing member 11 relative to the environment is the surface of the axial inner portion of the groove or gap. If an internal pressure in the cavity portion of the coupling body 3 is built up due to a leakage in the leak sealing member 7, the internal fluid pressure presses the sealing member 11 towards the environment at least partially outwards from the sealing seat. When the sealing means 11 towards the environment has at least partially lost contact with the sealing seat, a fluid flow passes the sealing means 11 towards the environment to the outside of the coupling body 3. This audible or visible outflow current indicates a leakage from the pressurized fluid system.
Preferably, the fluid is air, and the air flow to the outside of the coupling body 3 generates an audible feedback signal which indicates a leakage from the pressurized fluid system. In a preferred embodiment, a bore 22 is provided in the insert 21, which enables a fluid flow from the cavity portion of the coupling body 3 to the outside of the coupling body 3, when the sealing member 11 is pushed towards the environment from the sealing seat due to an internal fluid pressure. in the coupling body 3. Such a borehole 22 has the advantage that the outflow current is conducted through the borehole 22 in order to provide a signal which is controlled and noticeable.
Figure 2 shows an exploded view of the pipe coupling system 1 with all components separated. This manufacture is particularly useful for describing the manner in which the pipe coupling system 1 is mounted. The seal 15, for the end which is not intended to receive the pipe 5, is passed over the threaded connection end 13 to a sealing position at the bottom of the thread. The pipe support sleeve 19 is fed into the coupling body 3 through the opening of the coupling body 3 which is intended to receive the pipe 5. Then follows the leak sealing member 7 which bears against the inner collar of the pipe support sleeve 19 once it has been inserted far enough. The gripping means 9, in the form of a conical pressure ring, are then inserted. The insert 21 has a special construction so that it is attached to the coupling body 3 once it has been inserted correctly. the insert 21 has a roll 23 on its radial outer surface which corresponds to an annular recess 25 along the radial inner circumference of the cavity portion of the coupling body 3.
To facilitate insertion of the insert 21, the heel or cap 23 has a tapered portion at the axial inside. Once the insert 21 has been pressed into the coupling body 3, the roller and recess configuration secures the insert 21 itself and all the components, inside the coupling body 3, which are located more axially inwards. The sealing member 11 relative to the environment, in the form of a flexible ring of rubber material, can then be inserted into the annular groove inside the insert 21 to come into contact with the sealing seat.
Figure 3 shows a situation when a pipe 5 is not inserted far enough into the pipe coupling system 1. The pipe 5 is not inserted deep enough for the leak sealing member 7 to provide a tight fit between the outer surface of the pipe and the inner surface of the coupling body 3. In this situation there is no fluid pressure in the pipe 5. As soon as a fluid pressure is applied to the pressurized system and the pipe 5, a fluid leakage occurs into the cavity portion of the coupling body 3 and a fluid pressure builds up therein. Figure 3 shows the sealing member 11 relative to the environment in contact with the sealing seat as long as no pressure is applied to the system. When there is frictional contact between the tube 5 and the sealing member 11 towards the environment when inserting the tube 5, the sealing member 11 is pressed against the environment during insertion into the inner portion of the annular groove, to come into contact with the sealing seat. Once the fluid pressure in the cavity portion of the coupling body 3 is above a threshold value, the pressure is high enough to push the sealing member 11 towards the environment axially outwards from the sealing seat.
Alternatively, the outer end 28 of the insert 21 is provided with one or more stopper projections 26, arranged at intervals along the axial inner circumference, which stopper projections 26 extend axially inwards to form contact surfaces 30 for maintaining the sealing member 11 relative to the environment partially in contact with the cube seat even if there is an expression inside the coupling body 3. However, those parts of the sealing member 11 are pressed against the environment which do not have contact with the stop projections 26 from the sealing seat at internal fluid pressure, since the sealing member 11 is flexible towards the environment. Preferably, an axial bore 22 is provided in the insert 21, which bore extends axially from the annular groove or space in which the sealing member 11 is arranged towards the environment, to the outside of the pipe coupling system 1. It is advantageous if the bore 22 is arranged peripherally centrally at the the inner circumference between two stopper projections 26 arranged at intervals along the inner circumference of the outer flange 28 of the insert 21. At the center between two stopper projections 26, the outward deflection of the flexible sealing member 11 towards the environment is greatest due to internal fluid pressure. As soon as the flexible sealing member 11 towards the surroundings is partially bent outwards from the sealing seat, a channel through the borehole 22 is opened up, so that the fluid flow from the inside of the coupling body 3 to the outside of the coupling body 3 is made possible through this channel.
Figure 4 shows a situation where a pipe 5 is fully inserted into the pipe coupling system 1. In this situation, fluid pressure is applied in the pipe 5. The pipe 5 is correctly inserted and there should be no fluid leakage out of the system. However, the sealing member 11 is pressed towards the environment partly from the sealing seat due to a fluid pressure in the cavity portion of the coupling body 3. This indicates a fluid leakage at the leak sealing member 7. The leak may be due to wear, abrasion, aging or weakening of the leak sealing member 7.
The fluid flow to the outside of the coupling body 3 indicates the leakage through an audible feedback signal in the form of a whistling or hissing tone if the fluid is air or another gaseous fluid.
Figure 5 gives a more detailed view of the function of the sealing member 11 towards the environment. The upper portion of the longitudinal sectional view shows a section through a portion of the system to which a stopper projection 26, arranged at the outer flange 28 of the insert 21, secures, with its contact surface 30, a part of the sealing member 11 to the environment in contact with the sealing seat also if there is fluid pressure inside the coupling body 3. The lower portion of the longitudinal sectional view shows a section through a portion of the system at which an axial drill heel 22 is provided in the insert, and no stopper projection 26 prevents the sealing member 11 from bending outwards on due to internal fluid pressure. The borehole 22 extends from the outside of the pipe coupling system 1 to the annular groove in which the sealing member 11 is arranged towards the surroundings. If there is internal fluid pressure in the cavity portion of the coupling body 3, as shown in the lower part of Figure 5, then a channel to the axial borehole 22 opens up, resulting in a fluid flow out of the coupling body 3, said fluid flow to the outside of the coupling body 3. body 3 indicates a leak from the pressurized fluid system.

权利要求:
Claims (1)
[1]
1. CLAIMS Requirement pipe coupling system (1) for a pressurized fluid system comprising - a coupling body (3) for receiving a pipe (5) from a pressurized fluid system, -a leak sealing means (7) for preventing fluid which is fed from the pressurized fluid system via the pipe , enters the coupling body (3), - a gripping means (9) for gripping in the outer surface of the pipe (5) which is received in the coupling body (3), and -a sealing means (11) towards the environment, to prevent intrusion from the outside of the coupling body (3), characterized in that said sealing means (11) towards the environment is at least partially movable and arranged to be pressed at least partially from a sealing seat when there is internal fluid pressure in the coupling body (3), which results in a fluid flow out from the coupling body (3) and in that said fluid flow to the outside of the coupling body (3) indicates a leakage from the pressurized fluid system. . Pipe coupling system according to claim 1, wherein the fluid flow to the outside of the coupling body (3) generates an audible feedback signal indicating a leakage from the pressurized fluid system. Pipe coupling system according to one of the preceding claims, wherein the sealing member (1 1) is at least partially elastically deformable relative to the environment by an internal fluid pressure in the coupling body (3). Pipe coupling system according to any one of the preceding claims, wherein at least a portion of the sealing member (11) is arranged towards the environment to remain in contact with the sealing seat when there is internal fluid pressure in the coupling body (3). . Pipe coupling system according to any one of the preceding claims, wherein the sealing means (11) to the environment, in the form of an o-ring, is arranged in an annular groove, which groove has an axial, outer cut-out 10 which allows the sealing means (11) to the environment is pressed at least partially from the sealing seat when there is an internal fluid pressure in the coupling body (3). . Pipe coupling system according to claim 5, wherein the axial, outer cut-out is the space between two stopper projections (26) arranged at a distance from each other along the axial inner circumference, which stopper projections (26) extend axially inwards to form contact surfaces (30) for maintaining the sealing member (1 1) to the environment partially in contact with the sealing seat. Pipe coupling system according to any one of the preceding claims, wherein a borehole (22) is provided to enable a flow of fluid from the inside of the coupling body (3) to the outside of the coupling body (3) when the sealing means (11) towards the environment is at least partially pressed from the sealing seat due to an internal fluid pressure in the coupling body (3). . Pipe coupling system according to claim 7, wherein the borehole (22) extends axially from the annular groove to the outside of the pipe coupling system (1) -. Pipe coupling system according to claim 1 or 2, wherein the fluid is air.

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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PCT/IB2007/003889|WO2009068934A1|2007-11-28|2007-11-28|Tube coupling system for a pressurised fluid system|

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