The invention relates, in general, to the techniques related to the design and operation of fluid systems, especially gas.
More precisely, the invention relates, in a first aspect, to a perforating device capable of perforating a fluid duct having a connector seat with a tapped barrel.
The use and laying of ducts for the distribution of gas implies the use of specific accessories, such as, for example, connector seats, also referred to as “connector sockets”, which permit a duct of a smaller diameter to be connected to a main duct.
These seats or “connector sockets” allow two operations to be carried out: firstly, the impervious welding of the smaller diameter duct onto the main duct, and secondly, the perforation of this main duct to supply the smaller diameter duct with gas.
Today, gas ducts are generally made of polyethylene, and may therefore be thermal welded, but must be fitted with automatically actuated valves that are sensitive to a differential pressure to avoid any untimely gas leaks in the event of an accidental rupture of the smaller diameter duct, downstream of the connector seat.
A device of the above-mentioned type is described in U.S. Pat. No. 3,692,044.
This known device, which has complex geometry, is large and is quite expensive, and furthermore has the disadvantage of not offering both vertical perforation and a vertical outlet barrel.
The present invention provides a perforating device that does not have at least one of the above described limits and which further enables a loaded duct to be fitted with an automatically actuated valve.
To this end, the device of the invention, generally includes a hollow cylindrical body, a cutting appartus, a fluid passage and a valve. The cylindrical body has a free internal volume, an axis, a first open end via which this body may be driven in rotation around its axis, a second end opposite the first, and a threaded external face such that the cylindraical body may be threadingly received or removed with respect to this barrel The cutting apparatus is held, at least in a first configuration of the device, by the second end of the cylindrical body and is suited for cutting the duct at a level of the barrel of the seat by screwing in the body.The fluid passage is defined, at least in a second configuration of the device, between the cutting appartus and the first end of the cylindrical body that communicates with the inside of the duct after the latter has been cut. The valve is sensitive to a differential pressure and capable of selectively sealing the internal volume of the cylindrical body so that there are no leaks.
In a first embodiment of the device, the first and second configurations are identical, wherein the cutting apparatus is formed on the front edge of the second end of the cylindrical body, the fluid passage comprises at least one lateral orifice which passes through the cylindrical body and is positioned between the first and second ends of this body, and the valve is fitted inside the free volume of the cylindrical body between the fluid passage and the first end of the body.
The lateral orifice may then be fitted closer to the second end of the cylindrical body than to the first end.
In a second embodiment of the invention, the device can comprise a reversible connection assembly and elastic solicitation assembly. The reversible connection assembly is operably coupled to the cutting apparatus at least in rotation to the second end of the cylindrical body in the first configuration of the device and frees the cutting apparatus, at least in translation, from the second end of the cylindrical body in the second configuration of the device. The fluid passage is formed in the second configuration of the device, between the second end of the cylindrical body and the cutting apparatus, of which one forms a seal and the other a seat for the valve.The elastic solicitation assembly is part of the valve and manipulates the cutting apparatus in a direction which moves it away from the second end of the cylindrical body.
In this case, the reversible connection assembly comprises at least one pair of complementary contoured parts, wherein each pair comprises first and second contoured parts of which one is part of the cylindrical body and the other is part of the cutting apparatus.
For example, the complementary contoured parts have convex and concave frontal contours which interpenetrate one another, or have a bayonet connection solicited in the locking direction by screwing the cylindrical body into the barrel.
The device of the invention can further comprise at least one annular seal carried by the cylindrical body and capable of imperviously sealing the barrel of the seat.
The tapped barrel can include, on the side opposite the duct, an internal annular lip which acts as a stop for the first end of the cylindrical body. The annular seal is interposed between this internal lip and the first end of the cylindrical body and is axially compressed for an unscrewed position of the cylindrical body inside the threaded barrel.
Furthermore, the threaded barrel can include, on the side of the duct, a base with a diameter that is greater than the diameter of the cutting apparatus, wherein the latter comprises a hole saw, for example.
The invention also is directed to a process for perforating a loaded fluid duct, including screwing a device as previously defined into the tapped barrel of the connector seat fitted to this duct until the cutting apparatus cuts the duct, and of unscrewing this device from the barrel until the cutting apparatus is cleared and is distant from the cut-out made in the duct.
Other characteristics and advantages of the invention will become clearer from the following description, which is provided by way of illustration and is in no way restrictive, in reference to the appended drawings, among which:
As previously mentioned, and as depicted in
According to the invention, this device comprises a hollow cylindrical body 3 with an axis X, a cutting apparatus 4, such as, for example a hole saw, a fluid passage 5, and a valve 6.
As depicted in
Cylindrical body 3 is open at at least one of these ends, wherein end 31 is fitted with suitable drive contours which permit cylindrical body 3 to be driven in rotation around its axis X.
Other end 32 of cylindrical body 3 is designed to be inserted first into tapped barrel 21 of connector seat 2, except in the embodiment of
Furthermore, the cylindrical body 3 has a screw thread on external face 33, so that it may be threadingly received and threadingly removed as required with respect to barrel 21 of seat 2 by rotating end 31.
Cutting apparatus 4, is adapted to cut duct 1 in line with barrel 21 by screwing in body 3, and is at least temporarily carried by end 32 of body 3.
Fluid passage 5, which communicates with the inside of duct 1 after the latter has been cut, is temporarily defined between cutting apparatus 4 and end 31 of cylindrical body 3.
Finally, valve 6 is sensitive to a differential pressure and suited to imperviously seal, if required, internal volume 30 of cylindrical body 3.
Valve 6 typically comprises a seal cover 61, a seal cover seat 62, a return spring 63 and an axis 64, which is mounted so that it slides in carrier 34.
In a first embodiment of the invention, illustrated in
Fluid passage 5 defines one or several lateral orifices 50 passing through cylindrical body 3 and positioned between ends 31 and 32 of this body 3, typically closer to end 32 of the latter than to drive end 31.
Valve 6 is fitted inside the free volume 30 of cylindrical body 3, between fluid passage 5 and drive end 31 of body 3.
In a second embodiment of the invention, illustrated in
Reversible connection assembly 7 operably couples cutting apparatus 4, at least in rotation, to the end of cylindrical body 3 in the first configuration of the device illustrated in
In the second configuration of the device, fluid passage 5 is thus formed between end 32 of cylindrical body 3 and cutting apparatus 4, wherein one of either end 32 or cutting apparatus 4 forms a seal cover 61 for valve 6, and the other forms a seat 62 for valve 6.
Even though it is part of valve 6, elastic solicitation assembly 63, which can comprise, for example, a helicoidal spring, includes the function of manipulating cutting apparatus 4 in a direction which moves them away from end 32 of cylindrical body 3 and therefore of defining fluid passage 5, at least in the absence of any differential pressure likely to close valve 6.
As shown in particular by
One of the contoured parts, for example 71, is part of cylindrical body 3, while the other is part of cutting apparatus 4.
Contoured part 71 may define a tab and contoured part 72 define a square groove, as illustrated in
In this case, this connection can be manipulated in the locking direction by screwingcylindrical body 3 into barrel 21, and in the release direction by unscrewingcylindrical body 3 from barrel 21.
As depicted in
One or more annular seals, such as 330 and 331, are provided, for example on cylindrical body 3 to seal barrel 21 of the seat imperviously.
In AN embodiment illustrated in
Annular seal 331 can, for example, be housed in a peripheral groove on the frontal profile of cylindrical body 3, but may also be housed in an internal groove on lip 210 of barrel 21.
Annular seal 331 may be effectively axially compressed by threadingly removing cylindrical body 3 from inside threaded barrel 21, and does not run the risk of being damaged by rubbing against the screw thread of barrel 21 and only suffers a moderate shear stress to reach its impervious position.
Furthermore, referring to
The use of the device in accordance with a first embodiment of the invention is illustrated in
This device is firstly introduced into tapped barrel 21.
Regardless of the embodiment, the device may be introduced before seat 2 is mounted onto duct 1, but may also be carried out afterwards, except for the embodiment depicted in
Once the screw thread of external face 33 of body 3 is engaged into the screw thread of barrel 1 and seat 2 is in place on duct 1, a rotational movement is applied to body 3, referring to
When the device comes into contact with duct 1, as illustrated in
The cut out, such as, for example, a disc, of this wall is conserved inside cutting apparatus 4, as depicted in
The device is then unscrewed from barrel 21 by reversing the direction of rotation, as depicted in
Unscrewing it permits the device to be freed from hole 10 cut into the wall, as depicted in
The pressurized fluid from the perforated duct then enters orifices 50 of passage 5 and, in the absence of counter-pressure applied to open end 31 of body 3, causes the closure of valve 6, thus sealing the assembly with respect to the fluid circulating in duct 1.
Once barrel 21 is connected to an impervious installation, applying a counter-pressure permits valve 6 to be opened and thus to connect this installation to duct 1.
The use of the device in accordance with a second embodiment of the invention is illustrated in
The device is first introduced into tapped barrel 21 in the same way as the device according to the first embodiment.
Using a suitable tool introduced into end 31 of body 3 and operating together with contoured parts 36, a rotational movement is applied to body 3, as depicted in
When the device comes into contact with duct 1, as depicted in
The cut out, such as a disc, of this wall is conserved inside cutting apparatus 4, as depicted in
The device is then unscrewed from barrel 21 by reversing the direction of rotation, as depicted in
Unscrewing the device permits the device to be freed from hole 10 cut into the wall, illustrated in
The pressurized fluid from the perforated duct then enters passage 5 created between cutting apparatus 4 and end 32 of body 3.
In the absence of counter-pressure applied to open end 31 of body 3, the pressurized fluid causes the closure of valve 6, thus sealing the assembly with respect to the fluid circulating in duct 1.
Once barrel 21 is connected to an impervious installation, applying a counter-pressure permits valve 6 to be opened and thus to connect this installation to duct 1.
Number | Date | Country | Kind |
---|---|---|---|
0512184 | Nov 2005 | FR | national |
0607361 | Aug 2006 | FR | national |
This application claims priority to PCT Application No. PCT/FR2006/002587 filed Nov. 24, 2006, French Application No. 0607361, filed Aug. 17, 2006, and French Application No. 0512184, filed Nov. 30, 2005, the disclosures of which are hereby incorporated by reference in their entireties.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR2006/002587 | 11/24/2006 | WO | 00 | 10/20/2009 |