EP4056769A1 - Système de robinet étanche - Google Patents

Système de robinet étanche Download PDF

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Publication number
EP4056769A1
EP4056769A1 EP21162284.0A EP21162284A EP4056769A1 EP 4056769 A1 EP4056769 A1 EP 4056769A1 EP 21162284 A EP21162284 A EP 21162284A EP 4056769 A1 EP4056769 A1 EP 4056769A1
Authority
EP
European Patent Office
Prior art keywords
pipe
leak
tubing
connection box
wall
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP21162284.0A
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German (de)
English (en)
Inventor
Claus Rosager Nielsen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to EP21162284.0A priority Critical patent/EP4056769A1/fr
Publication of EP4056769A1 publication Critical patent/EP4056769A1/fr
Pending legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B9/00Methods or installations for drawing-off water
    • E03B9/02Hydrants; Arrangements of valves therein; Keys for hydrants
    • E03B9/025Taps specially designed for outdoor use, e.g. wall hydrants, sill cocks
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/02Plumbing installations for fresh water
    • E03C1/021Devices for positioning or connecting of water supply lines

Definitions

  • the present invention relates to a leak-safe water tap system to be arranged through a wall of a building, comprising a connection box being configured to connect a water supply with a first pipe, the first pipe having a first end being configured to be fluidly connected with the water supply in the connection box and a second end being configured to be connected with a tap, the first pipe having an extension extending between the first end and the second end, a part of the extension of the first pipe is arranged within the wall, the first pipe having an outer diameter.
  • Water tap systems to be arranged extending through a wall is well known. However, when leakage occurs in these known systems it may have severe consequences in that the water may leak into the wall and thereby damage the wall and other building constructions.
  • the water tap When the water tap is arranged outside it is furthermore exposed to the environments. In very cold climate the water in the pipes may freeze to ice and thereby damage connections and sealings in the tap system. When the temperatures rise again the ice in the pipes will melt having the consequence that the pipes may start to leak and thereby a water damage of the wall may occur.
  • a leak-safe water tap system to be arranged through a wall of a building, comprising:
  • first end of the first pipe may be sealingly connected with the water supply via the connection box itself or a connection part arranged within the connection box or an interface part.
  • the water supply may comprise a first tubing having a first tube end connected with the connection box and a second tube end connected with the water supply.
  • connection part may have a first connection having a first tread configured to be connected with a pipe tread arranged at the first end of the first pipe and a second connection configured to be connected with the first tube end of the first tubing.
  • connection part may be removable arranged in the connection box.
  • connection box may be configured to be arranged within the wall.
  • the leak-safe water tap system may further comprise a second tubing, the second tubing has an inner tube diameter being larger than an outer tube diameter of the first tubing, the second tubing has a first tubing end being in a leak-tight manner connected with the connection box, the second tubing having a tubing extension extending from the first tubing end towards a second tubing end, wherein the second tubing circumferences the first tubing at least along a tubing part of the first tubing arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • first tube end of the first tubing may be sealingly connected with the first pipe via the connection box itself or a connection part arranged within the connection box or an interface part.
  • connection box may comprise a hatch, the hatch being releasable connected with the connection box.
  • the hatch may be accessible and openable from outside or inside the wall.
  • the hatch may provide access to an inside of the connection box.
  • a releasable positioning lid may be arranged between the hatch and the connection part within the connection box for positioning the connection part and to function as an isolation element in relation to the outside for minimizing a thermal bridge through the system.
  • the second pipe and/or the second tubing may be configured to function as a guide channel for the first pipe or the first tubing, respectively.
  • connection box may be made of a polymeric material.
  • first pipe end of the second pipe may be welded to the connection box.
  • a sealing such as an O-ring, may be arranged between a member of the connection box and an inner face of the second pipe or a surface of the second pipe.
  • first pipe, the second pipe, the first tubing or the second tubing may be made of a rigid material such as metal or composite.
  • first pipe, the second pipe, the first tubing or the second tubing may be made of a polymeric material.
  • connection part may be made of a rigid material such as metal.
  • first pipe may be configured to be inserted into the second pipe from the second pipe end and connected with the connection box.
  • connection box may be square-shaped having a height of between 60 mm to 100 mm and a width of between 40 mm to 70 mm.
  • the inner diameter of the second pipe may be between 25 mm to 40 mm.
  • the outer diameter of the first pipe may be between 20 mm to 35 mm.
  • a plate member may be arranged on an exterior face of the wall opposite the second pipe end of the second pipe, the plate member has an aperture in which the first pipe extends through, and the plate member has a leaking groove extending from the aperture and downwards so that leaked water in the second pipe may flow out of the second pipe and into the leaking groove defined by the plate member and the exterior wall.
  • the invention also relates to a building having a wall wherein a leak-safe water tap system according to any of the preceding claims is arranged.
  • Fig. 1 shows a first embodiment of a leak-safe water tap system 100 to be arranged through a wall 1 of a building.
  • the leak-safe water tap system 100 comprises a connection box 2 being configured to connect a water supply with a first pipe 3.
  • the leak-safe water tap system 100 is in Fig. 1 shown from the outside arranged through the wall 1.
  • the embodiment of Fig. 1 shows a part of the leak-safe water tap system 100 arranged outside the wall 1, namely the tap 4.
  • the rest of the system 100 is in this embodiment arranged inside the wall 1.
  • the leak-safe water tap system 100 is shown in a cross-sectional view.
  • the first pipe 3 having a first end 5 being configured to be fluidly connected with the water supply via the connection box 2 and a second end 6 being configured to be connected with a tap 4, the first pipe 3 having an extension 7 extending between the first end 5 and the second end 6.
  • a part 8 of the extension 7 of the first pipe 3 is arranged within the wall (not shown in Fig. 2 ), and the first pipe 3 having an outer diameter Do.
  • the leak-safe water tap system 100 comprises a second pipe 9, the second pipe 9 has an inner diameter Di being larger than the outer diameter Do of the first pipe 3 as seen in Fig. 2a .
  • the second pipe 9 has a first pipe end 10 being in a leak-tight manner connected with the connection box 2, the second pipe 9 having a pipe extension 12 extending from the first pipe end 10 towards a second pipe end 11, wherein the second pipe 9 circumferences the first pipe 3 at least along the part 8 of the extension 7 arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • the first embodiment comprises the first pipe 3 having the tap 4 at the second end 6.
  • the first end 5 of the first pipe 3 has a thread section 13 being configured to be screwed into a corresponding thread arranged in connection with the connection box 2.
  • the system 100 also comprises the second pipe 9 which at the first pipe end 10 being in a leak-tight manner connected with the connection box 2.
  • a connection element 14 is arranged, the connection element 14 assist the second pipe 9 to be leak-tight connected with the connection box 2.
  • the connection box 2 has a connection member 15 which corresponds to the connection element 14 whereby they interact.
  • connection element 14 and the connection member 15 may be welded together, or they may be glued together, or they may both comprise corresponding threads so that they may be screwed together.
  • a plate member 17 is arranged at the second pipe end 11 .
  • the plate member 17 is screwed by means of screws 19 or bolts onto the exterior of the wall and the second end 6 of the first pipe is extending through an aperture 18 in the plate member 17.
  • a locking screw 20 may be screwed through an opening in a flange surrounding the aperture 18 so that it abuts the outside of the first pipe 3 and thereby maintain the first pipe 3 in position after it has been connected with the connection box 2.
  • the plate member 17 is made of metal, however, it may also be made of a polymeric material, a composite or any combinations thereof.
  • the second pipe 9 is in the present embodiment a corrugated pipe made of a polymeric material.
  • the second pipe may be made of metal, a composite or any combinations thereof.
  • the second pipe 9 may also be a plain pipe.
  • the present embodiment comprises a connection part 21 which may be securely fasten to the inside of the connection box, for instance by means of screws or bolts 22. Also, the connection part is removable arranged in the connection box 2.
  • the connection part 21 has an internal thread being arranged so the first end 5 of the first pipe 3 may be screwed into engagement of the internal first thread so that the first pipe 3 is fluidly connected with the connection part 21.
  • the connection part 21 also has a second connection 23 configured to be connected with a water supply (not shown). In the present embodiment, the connection part 21 fluidly connect the water supply with the first pipe.
  • the second connection 23 may be a threaded connection or it may be snap-click connection 24 as shown in Fig. 3 .
  • connection box 2 is configured to be incorporated into a wall so that the pipes and tubes are hidden by the wall. It is important that the connection box 2 is positioned correctly wherefore in the present embodiment it is screwed into the wall by means of four screws 25.
  • the connection box 2 may be made of a polymeric material, metal, a composite or any combination thereof.
  • connection box 2 ensures that the first pipe 3 is sealingly connected with the water supply 26. This may be provided via the connection box itself, via a connection part arranged in connection with the connection box or via an interface part also being in connection with the connection box 2.
  • the water supply 26 may comprise a first tubing 27 having a first tube end 28 connected with the connection box 2 and a second tube end 29 connected with the water supply 26.
  • the system 100 also comprises a second tubing 30, the second tubing 30 has an inner tube diameter being larger than an outer tube diameter of the first tubing 27 like in same manner as shown in Fig. 2a in relation to the first pipe and second pipe.
  • the second tubing 30 has a first tubing end 31 being in a leak-tight manner connected with the connection box 2, the second tubing 30 having a tubing extension extending from the first tubing end towards a second tubing end 32, wherein the second tubing 30 circumferences the first tubing 27 at least along a tubing part of the first tubing 27 arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • the second pipe 9 and/or the second tubing 30 is/are configured to function as a guide channel for the first pipe 3 or the first tubing 27, respectively.
  • Figs. 6a to 6e show a sequence of how to mount the first embodiment of the system 100.
  • the connection box 2 and the second pipe 9 is provided in the wall (not shown).
  • the connection box 2 is positioned and is fasten to the wall by means of the screws 25.
  • a passage through the wall may be provided in various ways, for instance by drilling the passage so that the second pipe may be placed in the passage.
  • the lengths of the first pipe and the second pipe depend on the thickness of the wall in which it shall be mounted.
  • the first tubing 27 is being fluidly connected with the connection box 2.
  • the plate member 17 is arranged opposite the second pipe end 11 and is fasten to the exterior of the wall by means of screws 19.
  • the first pipe 3 with the tap 4 is ready to be inserted into the second pipe 9.
  • the first pipe 3 has been screwed into engagement with the connection part 21 so that the first tubing 27 is fluidly connected with the first pipe 3 via the connection box 2.
  • the first tubing is connected with a water supply and the first pipe 3 is connected with the tap 4 so that water may flow out of the tap 4 when it is being opened.
  • a second embodiment of a leak-safe water tap system 100 to be arranged through a wall of a building The system 100 is shown in perspective views in Figs. 7a and 7b .
  • the design of the system 100 of the second embodiment corresponds substantially to the first embodiment, however some differences are present which will be further described below.
  • connection box 2 comprises a hatch 33, which will be further described below.
  • Fig. 8 shows the second embodiment of the leak-safe water tap system 100 to be arranged through a wall 1 of a building.
  • the leak-safe water tap system 100 comprises a connection box 2 being configured to connect a water supply with a first pipe 3.
  • the leak-safe water tap system 100 is in Fig. 8 shown from the outside arranged through the wall 1.
  • the embodiment of Fig. 8 shows a part of the leak-safe water tap system 100 arranged outside the wall 1, namely the tap 4.
  • the rest of the system 100 is in this embodiment arranged inside the wall 1 except the hatch 33, which will be further described below.
  • Fig. 9 the leak-safe water tap system 100 is shown in a cross-sectional view.
  • the first pipe 3 having a first end 5 being configured to be fluidly connected with the water supply via the connection box 2 and a second end 6 being configured to be connected with a tap 4, the first pipe 3 having an extension 7 extending between the first end 5 and the second end 6.
  • a part 8 of the extension 7 of the first pipe 3 is arranged within the wall (not shown in Fig. 9 ).
  • the leak-safe water tap system 100 comprises a second pipe 9, the second pipe 9 has an inner diameter Di being larger than the outer diameter Do of the first pipe 3 as seen in Fig. 2a .
  • the second pipe 9 has a first pipe end 10 being in a leak-tight manner connected with the connection box 2, the second pipe 9 having a pipe extension 12 extending from the first pipe end 10 towards a second pipe end 11, wherein the second pipe 9 circumferences the first pipe 3 at least along the part 8 of the extension 7 arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • Fig. 10 an exploded view of the second embodiment of the leak-safe water tap system 100 is shown.
  • the second embodiment comprises the first pipe 3 having the tap 4 at the second end 6.
  • the first end 5 of the first pipe 3 has a thread section 13 being configured to be screwed into a corresponding thread arranged in connection with the connection box 2.
  • the system 100 also comprises the second pipe 9 which at the first pipe end 10 being in a leak-tight manner connected with the connection box 2.
  • a plate member 17 is arranged at the second pipe end 11.
  • the plate member 17 is screwed by means of screws 19 or bolts onto the exterior of the wall and the second end 6 of the first pipe is extending through an aperture 18 in the plate member 17.
  • a locking screw 20 may be screwed through an opening in a flange surrounding the aperture 18 so that it abuts the outside of the first pipe 3 and thereby maintain the first pipe 3 in position after is has been connected with the connection box 2.
  • the plate member 17 is made of metal, however, it may also be made of a polymeric material, a composite or any combinations thereof.
  • a ring element 34 is arranged at the second pipe end 11 of the second pipe 9.
  • the second pipe 9 is in the present embodiment a corrugated pipe made of a polymeric material.
  • the second pipe 9 may be made of metal, a composite or any combinations thereof.
  • the second pipe 9 may also be a plain pipe.
  • the second pipe 9 is in the present embodiment sealingly connected with the connection box 2 by means of a pipe snap-click connection 35.
  • the second pipe may be welded to the connection box 2 or it may be connected as described in connection with the first embodiment.
  • the present embodiment comprises a connection part 21 which may be maintained inside of the connection box 2. Also, the connection part 21 is removable arranged in the connection box 2 as will be further described below.
  • the connection part 21 has an internal thread being arranged so the first end 5 of the first pipe 3 may be screwed into engagement of the internal first thread so that the first pipe 3 is fluidly connected with the connection part 21.
  • the connection part 21 also has a second connection 23 configured to the connected with a water supply (not shown). In the present embodiment, the connection part 21 fluidly connects the water supply with the first pipe.
  • the second connection 23 may be a threaded connection or it may be a snap-click connection 24 as shown in Fig. 10 .
  • the connection part is made of a rigid material such as metal.
  • connection box 2 is configured to be incorporated into a wall so that the pipes and tubes are hidden by the wall. It is important that the connection box 2 is positioned correctly wherefore in the present embodiment it is screwed into the wall by means of four screws 25.
  • the connection box 2 may be made of a polymeric material, metal, a composite or any combination thereof.
  • connection box also comprises a protruding part 36 arranged opposite where the second pipe is connected with the connection box 2.
  • the connection part 21 may be arranged inside the connection box 2 via the protruding part 36.
  • a positioning lid 37 may subsequently be inserted into the protruding part 36 and be securely fasten to the connection box 2 by means of the screws 38.
  • the positioning lid 37 may comprise a projecting pin 39 which function as a positioning element for the connection part 21.
  • the positioning lid 37 further function as an isolation element in relation to the outside for minimizing a thermal bridge through the system 100.
  • a collar 40 is connected with the protruding part 36 and is arranged on the wall.
  • the collar 40 is configured to receive the removable hatch 33 so that the interior of the connection box 2 is shielded off.
  • the present embodiment enables that the interior of the connection box 2 may be accessed through the collar 40 when the hatch 33 has been removed. Hereby is obtained that the components of the system 100 may be replaced through the collar 40.
  • the collar 40 and hatch 33 may have a design similar to other installations arranged on a wall, such as wall sockets for power or similar. In another embodiment the collar and hatch may be arranged inside the wall.
  • connection box 2 ensures that the first pipe 3 is sealingly connected with the water supply 26. This may be provided via the connection box 2 itself, via a connection part 21 arranged in connection with the connection box or via an interface part also being in connection with the connection box 2.
  • the water supply 26 may comprise a first tubing 27 having a first tube end 28 connected with the connection box 2 and a second tube end 29 connected with the water supply 26.
  • the system 100 also comprises a second tubing 30, the second tubing 30 has an inner tube diameter being larger than an outer tube diameter of the first tubing 27 like in same manner as shown in Fig. 2a in relation to the first pipe and second pipe.
  • the second tubing 30 has a first tubing end 31 being in a leak-tight manner connected with the connection box 2, the second tubing 30 having a tubing extension extending from the first tubing end 31 towards a second tubing end 32, wherein the second tubing 30 circumferences the first tubing 27 at least along a tubing part of the first tubing 27 arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • the second pipe 9 and/or the second tubing 30 is/are configured to function as a guide channel for the first pipe 3 or the first tubing 27, respectively.
  • the second tubing 30 may be used as a guide channel for the first tubing by removing the hatch whereby the connection part 21 may be removed together with the first tubing.
  • Figs. 12a to 12e show a sequence of how to mount the second embodiment of the system 100.
  • the connection box 2 and the second pipe 9 is provided in the wall (not shown).
  • the connection box 2 is positioned and is fasten within the wall by means of the screws 25.
  • a passage through the wall may be provided in various ways, for instance by drilling the passage so that the second pipe may be placed in the passage.
  • the lengths of the first pipe and the second pipe depend on the thickness of the wall in which it shall be mounted.
  • the connection box 2 is arranged at a predetermined distance from the wall so that protruding part 36 is aligned with the interior of the wall.
  • the first tubing 27 is being fluidly connected with the connection box 2. Furthermore, the collar 40 and the hatch 33 is arranged in connection with the protruding part 36. In addition, the ring element 34 has been arranged at the second pipe end 11 of the second pipe 9.
  • the plate member 17 is arranged opposite the second pipe end 11 and is fasten to the exterior of the wall by means of screws 19, as seen in Figs. 12c and 12d .
  • Fig. 12d the first pipe 3 with the tap 4 is ready to be inserted into the second pipe 9.
  • the first pipe 3 has been screwed into engagement with the connection part 21 so that the first tubing 27 is fluidly connected with the first pipe 3 via the connection box 2.
  • the first tubing is connected with a water supply and the first pipe 3 is connected with the tap 4 so that water may flow out of the tap 4 when it is being opened.
  • Figs. 13a to 13c show a sequence of how to dismount the second embodiment of the system 100. If the first tubing is leaking of some reason it may be relevant to replace this first tubing.
  • the present invention according to the second embodiment ensures this possibility. This may be performed by unscrewing the first pipe 3 and remove it from the second pipe 9 as seen in Fig. 13a .
  • the hatch 33 is removed so that the interior of the connection box 2 is accessible.
  • the screws 38 are unscrewed so that the positioning lid 37 may be removed and whereby the connection part 21 is removable from the connection box 2.
  • connection part 21 is connected with the first tubing 27 whereby the first tubing may be pulled out of the second tubing 30.
  • the first tubing 27 has been released from the water supply in the opposite end in relation to the connection part 21.
  • the first tubing is made of a flexible material, such as a polymeric material.
  • Fig. 13c the first tubing is being pulled further out of the second tubing via the collar 40.
  • a new first tubing may be guided in the second tubing 30 and be connected with the water supply and subsequently arranged in fluidly connection with the connection part 21 which then is arranged in the connection box 2 as described above.
  • This second embodiment is a flexible system which both provide the possibility of changing a first tubing while providing a leak-safe water tap system.
  • Fig. 14 a third embodiment of a leak-safe water tap system 100 to be arranged through a wall of a building.
  • the system 100 is shown in a perspective view.
  • the design of the system 100 of the third embodiment corresponds substantially to the above-mentioned embodiments, however some differences are present which will be further described below.
  • connection box 2 One of the differences of the third embodiment of the system 100 compared to the other embodiments is the connection box 2 in that the connection box 2 has another design and function.
  • Fig. 15 shows the third embodiment of the leak-safe water tap system 100 to be arranged through a wall 1 of a building.
  • the leak-safe water tap system 100 comprises a connection box 2 being configured to connect a water supply with a first pipe 3.
  • the leak-safe water tap system 100 is in Fig. 15 shown from the outside arranged through the wall 1.
  • the embodiment of Fig. 15 shows a part of the leak-safe water tap system 100 arranged outside the wall 1, namely the tap 4.
  • the rest of the system 100 is in this embodiment arranged inside the wall 1.
  • Fig. 16 the leak-safe water tap system 100 is shown in a cross-sectional view.
  • the first pipe 3 having a first end 5 being configured to be fluidly connected with the water supply via the connection box 2 and a second end 6 being configured to be connected with a tap 4, the first pipe 3 having an extension 7 extending between the first end 5 and the second end 6.
  • a part 8 of the extension 7 of the first pipe 3 is arranged within the wall (not shown in Fig. 16 ).
  • the leak-safe water tap system 100 comprises a second pipe 9, the second pipe 9 has an inner diameter Di being larger than the outer diameter Do of the first pipe 3 as seen in Fig. 2a .
  • the second pipe 9 has a first pipe end 10 being in a leak-tight manner connected with the connection box 2, the second pipe 9 having a pipe extension 12 extending from the first pipe end 10 towards a second pipe end 11, wherein the second pipe 9 circumferences the first pipe 3 at least along the part 8 of the extension 7 arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • Fig. 17 an exploded view of the third embodiment of the leak-safe water tap system 100 is shown.
  • the third embodiment comprises the first pipe 3 having the tap 4 at the second end 6.
  • the first end 5 of the first pipe 3 has a thread section 13 being configured to be screwed into a corresponding thread arranged in connection with the connection box 2.
  • the system 100 also comprises the second pipe 9 which at the first pipe end 10 being in a leak-tight manner connected with the connection box 2.
  • a plate member 17 is arranged at the second pipe end 11 .
  • the plate member 17 is screwed by means of screws 19 or bolts onto the exterior of the wall and the second end 6 of the first pipe is extending through an aperture 18 in the plate member 17.
  • a locking screw 20 may be screwed through an opening in a flange surrounding the aperture 18 so that it abuts the outside of the first pipe 3 and thereby maintain the first pipe 3 in position after is has been connected with the connection box 2.
  • the plate member 17 is made of metal, however, it may also be made of a polymeric material, a composite or any combinations thereof.
  • the second pipe 9 is in the present embodiment a corrugated pipe made of a polymeric material.
  • the second pipe may be made of metal, a composite or any combinations thereof.
  • the second pipe 9 may also be a plain pipe.
  • the second pipe 9 is in the present embodiment sealingly connected with the connection box 2 by means of a pipe snap-click connection 35.
  • the second pipe may be welded to the connection box 2 or it may be connected as described in connection with the first embodiment.
  • the first pipe 3 is configured to be inserted into the second pipe 9 and connected with the connection box 2 inside the second pipe 9.
  • the present embodiment comprises a connection part 21 which may be securely maintained inside of the connection box 2 or a projecting part thereof. Also, the connection part 21 is removable arranged in the connection box 2.
  • the connection part 21 has an internal thread being arranged so the first end 5 of the first pipe 3 may be screwed into engagement of the internal first thread so that the first pipe 3 is fluidly connected with the connection part 21.
  • the connection part 21 also has a second connection 23 configured to the connected with a water supply (not shown). In the present embodiment the connection part 21 fluidly connect the water supply with the first pipe.
  • the second connection 23 may be a threaded connection or it may be a snap-click connection 24 as shown in Fig. 17 .
  • the connection part is made of a rigid material such as metal.
  • connection box 2 is configured to be incorporated into a wall so that the pipes and tubes are hidden by the wall. It is important that the connection box 2 is positioned correctly wherefore in the present embodiment it is screwed into the wall by means of four screws 25.
  • the connection box 2 may be made of a polymeric material, metal, a composite or any combination thereof.
  • This embodiment may for instance be built in a light wall during the construction of the wall.
  • the connection box 2 comprises a first groove 41 being configured to guide first tubing (not shown) and a second groove 42 being curved compared to the first groove 41 as also seen in Fig. 17 .
  • the second groove is configured to hold the first tubing and a locking part 43 may be arranged across the second groove 42 for maintaining the first tubing when it is being arranged therein.
  • Fig. 18 the leak-safe water tap system 100 is shown in a perspective view.
  • the first tubing 27 is arranged inside the second tubing 30 is maintained in the second groove 42 and locked by the locking part 43. This is also shown in the side view of the leak-safe water tap system 100 shown in Fig. 19 .
  • connection box 2 ensures that the first pipe 3 is sealingly connected with the water supply 26. This may be provided via the connection box 2 itself, via a connection part 21 arranged in connection with the connection box 2 or via an interface part also being in connection with the connection box 2.
  • the water supply 26 may comprise a first tubing 27 having a first tube end connected with the connection box 2 via the connection part 21 and a second tube end connected with the water supply 26.
  • the system 100 also comprises a second tubing 30, the second tubing 30 has an inner tube diameter being larger than an outer tube diameter of the first tubing 27 like in same manner as shown in Fig. 2a in relation to the first pipe and second pipe.
  • the second tubing 30 has a first tubing end being in a leak-tight manner connected with the connection box 2, the second tubing 30 having a tubing extension extending from the first tubing end 31 towards a second tubing end, wherein the second tubing 30 circumferences the first tubing 27 at least along a tubing part of the first tubing 27 arranged within the wall for ensuring that any leak of water will not leak into the wall.
  • the second pipe 9 and/or the second tubing 30 is/are configured to function as a guide channel for the first pipe 3 or the first tubing 27, respectively.
  • Figs. 20a to 20f show a sequence of how to mount the third embodiment of the system 100.
  • the connection box 2 and the second pipe 9 is provided in the wall (not shown).
  • the connection box 2 is positioned and is fasten to the wall by means of the screws.
  • the lengths of the first pipe and the second pipe depend on the thickness of the wall in which it shall be mounted.
  • the first tubing 27 extending inside the second tubing 30 having a first tubing end 31 and a second tubing end 32 is arranged in relation to the connection box 2 so that the first tube end 28 may be introduced into the first groove 41 in a straight line in relation to a longitudinal extension 44 of the second pipe 9.
  • Fig. 20b the first tubing 27 and the second tubing 30 are moved into fluidly connection with the connection part 21 and the connection box 2.
  • the first tubing 27 and the second tubing 30 are together moved into the second groove 42 in the connection box 2 so that is guided to a substantially perpendicular direction compared to the longitudinal extension 44 of the second pipe 9 as seen in Fig. 20c .
  • the plate member 17 is arranged opposite the second pipe end 11 and is fasten to the exterior of the wall by means of screws 19, as seen in Figs. 20d and 20e .
  • the first pipe 3 with the tap 4 is ready to be inserted into the second pipe 9.
  • the first pipe 3 has been screwed into engagement with the connection part 21 so that the first tubing 27 is fluidly connected with the first pipe 3 via the connection box 2.
  • the first tubing 27 is connected with a water supply and the first pipe 3 is connected with the tap 4 so that water may flow out of the tap 4 when it is being opened.
  • Figs. 21a to 21b show a sequence of how to dismount the third embodiment of the system 100. If the first tubing 27 is leaking of some reason it may be relevant to replace this first tubing 27.
  • the present invention according to the third embodiment ensures this possibility. This may be performed by unscrewing the locking screw 20 so that the first pipe 3 is freely movable. By pulling the tap 4 with a force higher than the force for maintaining the snap-click connection 24 in position it is possible to pull the first pipe 3, the connection part 21 and the first tubing 27 out through the second pipe 9 as shown in Fig. 21b . Obviously, the first tubing 27 has been released from the water supply in the opposite end in relation to the connection part 21. Also, the first tubing 27 is made of a flexible material, such as a polymeric material.
  • first tubing 27 When the first tubing 27 has been completely removed a new first tubing may be guided in through the opposite direction meaning that the first tubing may be introduced via the second pipe 9 and therefrom into the second tubing 30.
  • the first tubing 27 is connected with the connection part 21 which is arranged in the snap-click connection in the connection box 2. Again, the first pipe 3 is connected with the connection part 21.
  • This third embodiment is a flexible system which both provide the possibility of changing a first tubing 27 while providing a leak-safe water tap system 100.
  • first pipe, the second pipe, the first tubing or the second tubing may be made of a rigid material such as metal or composite, or the first pipe, the second pipe, the first tubing or the second tubing may be made of a polymeric material.
  • at least the first tubing is made of a flexible material such as a polymeric material.
  • connection part is made of a rigid material such as metal especially when it has an internal thread.
  • connection box may be substantially square-shaped and may have a height of between 60 mm to 100 mm and a width of between 40 mm to 70 mm.
  • the inner diameter of the second pipe may be between 25 mm to 40 mm.
  • the outer diameter of the first pipe may be between 20 mm to 35 mm.
  • the second pipe may have an aperture near the second pipe end 11 and outside the wall for allowing potential leaked water to escape out of the second pipe without entering into the wall.
  • the plate member may have a leaking groove extending from the aperture and downwards so that leaked water in the second pipe may flow out of the second pipe and into the leaking groove defined by the plate member and the exterior wall.
  • the second pipe is sealed off at the first pipe end 10 in relation to the connection box 2 so that any leaked water from the first pipe only will leak into the second pipe and therefrom flow towards the second pipe end 11.
  • the present invention also relates to a building having a wall wherein a leak-safe water tap system as described above is arranged.

Landscapes

  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Domestic Plumbing Installations (AREA)
EP21162284.0A 2021-03-12 2021-03-12 Système de robinet étanche Pending EP4056769A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP21162284.0A EP4056769A1 (fr) 2021-03-12 2021-03-12 Système de robinet étanche

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP21162284.0A EP4056769A1 (fr) 2021-03-12 2021-03-12 Système de robinet étanche

Publications (1)

Publication Number Publication Date
EP4056769A1 true EP4056769A1 (fr) 2022-09-14

Family

ID=74873561

Family Applications (1)

Application Number Title Priority Date Filing Date
EP21162284.0A Pending EP4056769A1 (fr) 2021-03-12 2021-03-12 Système de robinet étanche

Country Status (1)

Country Link
EP (1) EP4056769A1 (fr)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1606478A (en) * 1926-02-11 1926-11-09 John F Mckamey Sill cock
WO1992011484A1 (fr) * 1990-12-21 1992-07-09 Depex Ab Dispositif pour canalisations de fluides
US5603347A (en) * 1995-06-05 1997-02-18 Eaton; Rodger D. Sillcock rupture control assembly

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1606478A (en) * 1926-02-11 1926-11-09 John F Mckamey Sill cock
WO1992011484A1 (fr) * 1990-12-21 1992-07-09 Depex Ab Dispositif pour canalisations de fluides
US5603347A (en) * 1995-06-05 1997-02-18 Eaton; Rodger D. Sillcock rupture control assembly

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