DE2758528A1 - MOVABLE COOLER - Google Patents

Description

Portable cooler

The present invention relates to a mobile device for cooling the inner surfaces of Pipes.

Stress corrosion formation in areas affected by welding heat Zones of stainless steel piping in nuclear reactors has long been recognized as a significant problem. In the DE patent application P 27 46 733.0 became an effective one

Process for eliminating or largely reducing stress Proposed tendency to corrosion in a weld forced zone (a solidified by the weld area), which in a primary heat-affected zone of a butt-welded Stainless steel pipe connection ends. According to this method, a secondary or overlay weld is made on the outside of the pipe applied, which extends over the pipe joint and which on each side thereof the area over the axial ends of the primary Welding heat affected zone bridged on the inner surface of the pipe. Overlay welding is preferred while the inner surface of the pipe is cooled by water or other coolant.

80982 * 70958

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The object of the present invention is to provide a convenient cooling device for cooling the interior Pipe surface.

Within the scope of the invention it has been found that the inner surfaces of pipes can be effectively and easily traced the present invention, which includes a new, improved, mobile or movable cooling device, which is particularly suitable for cooling the inner surface of pipes during the application of overlay welds. In operation, the device typically ensures a highly turbulent flow of coolant in the areas of the overlay weld.

In general, the present mobile device for cooling the inner surface of a pipe is characterized according to the invention by an elongated, semi-rigid, tubular conduit which can be connected to a source of liquid coolant under high pressure and which can pass the coolant axially through it the tubular conduit fluidly connected first, semi-rigid, pressurized inflatable member, through a spaced therefrom second, pressurized inflatable member and through a tubular conduit section fluidly connected to the first and second inflatable members and having a plurality of holes has a radial outwardly taking place flow of the liquid coolant, wherein one of the inflatable members 1, a sealing engagement with substantially the entire inner periphery of part of the tube is d expandable, with the other inflatable member having miter spaced n members are provided which protrude radially outwardly from the outer surface of the limb and are disposed transversely or laterally of the longitudinal axis of the device, and wherein the other inflatable member is expandable to a condition in which the spaced apart protruding members one Touch part of the inner circumference of the tube and thereby form flow channels.

The invention is illustrated below using a drawing Embodiment explained in more detail, with corresponding parts in the figures denoted by similar reference numbers are. Show it:

80982? / 0958

FIG. 1 shows a fragmentary side view of a device according to the invention Cooling device which, in a partially emptied state, is advanced through a pipe to a point of use is,

Figure 2 - in a partially sectioned side view of the cooling device in an inflated condition and in a tube position for cooling a portion of the inner tube surface during an overlay weld,

FIG. 3 - a section along the line 3-3 from FIG. 2 and FIG. 4 - a section along the line 4-4 from FIG.

In the drawing and in particular in Figure 1, a mobile or movable cooling device 1o is shown, which in the Direction of arrow 12 is advanced along a winding path through a line or a pipe 14 which adjoins bends 16 and 18 which form an S-shaped conduit section. The pipe, which is a stainless steel pipe of the US type 3O4, 8 - 12% Ni, * can be for a boiling water operation in a nuclear reactor, contains a butt weld 2o, which with an overlay weld 22 (Figure 2) is to be provided in a welding process, which typically the temperature of the inner surface aes tube increased to 149 C (3oo F) or more. In the absence of effective cooling of the inner surface of the pipe, a Sensitization or sensitivity to stress corrosion.

The cooling device 1o includes an elongated, semi-rigid tubular conduit 24 which, at one end, has a coupling 26 is provided to supply the line with a source (not shown) of high pressure liquid coolant associate. This can be water preferably with a measuring resp.

2
overpressure of o.7o3 - 10.55 kg / cm (1o - 15o psi) or more and preferably at a temperature of 4-27 C (35 - 8o F). The elongated conduit 24 is connected near an opposite end to an inflatable member 28 which is in fluid communication with the elongated conduit through an orifice defined by a neck 3o on the inflatable member. The cooling device -18-20% Cr, max. 1% Si, max. 0.15% S, max. 2% Mu, max. 0.15% C

80982 ^ / 0958

device also includes a tubular line portion 34, which via a certain of a neck or neck 32 mouth with the inflatable member 2 8 is in fluid communication. A pressure inflatable or inflatable second member 36, the below ADstana from the first inflatable member 28 is disposed with one end of the tubular line section 28 via an opening determined by a neck or extension 38 in terms of flow tied together. The various connections described above can be made by any suitable fastening means such as mechanical clamping members, strong adhesives, and the like. Alternatively, the device or any part of the connecting elements thereof may be integrally formed.

The cooling device can be pushed or pulled through the tube while the inflatable limbs are deflated The operating state is located, as shown in FIG. 1, up to the axially central region of the tubular line section 34 of the device reaches a point to be cooled, for example the butt weld 2o bridging the pipe area, such as it is shown in FIG. The rigid structure of the elongate conduit 24 and the inflatable member 28 form one good balance or compromise between sufficient flexibility for the device to be moved along a tortuous path and sufficient strength or stiffness that the device does not loop itself. The tubular Line section 3 4 can also consist of a semi-rigid structure.

The device preferably further includes means which enable the presence of the device to be determined at a preselected location within a pipe. For non-magnetic tube operation, an effective sensing means includes one or more magnets on the device, as represented by magnets 40, 41 , 42 and 43 embedded in the inflatable member 28 at a circumference thereof perpendicular to axis AA. A compass or other magnetic sensing means may be located a predetermined distance from the butt weld 2o, for example at line 4-4 in FIG

80982? / 0958

2, be held near the outer surface of the tube. When the compass needle deflected to a direction perpendicular to the pipe this indicates the presence of the magnets in the plane of the needle. The device can do this be positioned exactly in the pipe *

After the device is positioned axially in the tube the coupling can be connected to a source of high pressure water or other liquid coolant will. The water or coolant can then flow through line 24 to the inflatable members 28 as well as 36 and to fill the connecting line section 34. As the flow continues, the high pressure liquid coolant expands 44 the inflatable members up to the inflated or inflated operating states shown in FIG. According to Referring to Figures 2 and 4, the inflatable member 28 becomes sealingly engaged with substantially the entire inner periphery a portion of the tube 14 is inflated so that the device is releasably secured to the tube.

The inflatable member 36 is provided with a plurality of spaced apart members which represented by lugs 46, 47, 48, 49, 5o and 51 (Figures 2 and 3) and those from the outer surface of the inflatable Link protruding radially outward. The approaches are arranged transversely or laterally to the longitudinal axis A-A of the cooling device, so that at least a portion of the boss is on the maximum surface peripheral area of the inflated limb perpendicular to the axis 36 lies. This is due to the high pressure liquid coolant contained therein to such an extent inflated that the spaced lugs touch a part of the inner circumference of the tube 14 and thus flow channels 52, 53, 54, 55, 56 and 57 beεtinmen.

The tubular pipe portion 34 is with a plurality provided by holes 58 which are guided through the annular wall of the line. The holes are preferably more uniform Way axially along and around the circumference of the line section, as shown in FIG. Rays from below High pressure liquid coolants are generally radial

80982? / 0958

guided out of the holes and form a highly turbulent coolant bath, typically substantially the interior one extending from the inflatable member 28 to the inflatable member 36 Zone of the pipe fills. Overlay welding can be performed while the flow of coolant into the bath is maintained 22 can be attached. The inner surface of the tube kept in contact with the turbulent cooling bath is effectively removed kept at a low temperature, the heat resulting from the welding process being dissipated by the coolant which flows off through the flow channels 52, 53, 54, 55, 56 and 57. The highly turbulent coolant bath essentially prevents that Formation of steam pockets adjoining the pipe wall to be cooled.

The inflatable members are expandable into substantially symmetrical configurations about the axis A-A of the device, as shown in Figures 2-4. Such a symmetry leads to the fact that the axis of the tubular line section 34 is positioned along the axis of the tube and results in more uniform cooling of the tube.

Upon completion of a cooling operation, the device can be disconnected from the source of liquid coolant, whereupon the liquid can drain and the device can empty so that it can be removed from the tube.

The various elements of the device can be made of any suitable materials. The inflatable ones For example, links can be made of a rubber-like material such as rubber. The holes 58 can be any have a suitable diameter, for example 1.27 mm (0.05 inches) or less to 2.54 mm (0.12 inches) or more, and preferably about 1.78 mm (0.17 inches). The radial thickness of the approaches can, for example about 0.8 mm to about 3.2 mm (about 1/32 of an inch to about 1 / b inch) and preferably about 1.6 mm (1/16 inch).

It should be noted that the foregoing detailed description is merely exemplary in nature and that Numerous modifications can be made within the scope of the present invention.

809827/0958

Claims (5)

Expectations 1.) Movable device for cooling the inner surface of a Rohrs, characterized by an elongated, semi-rigid, tubular conduit (24) which is connected to a source of under high Pressurized liquid coolant (44) can be connected and aie the coolant (44) can pass axially through a first semi-rigid pressure inflatable member (28) fluidly connected to the tubular conduit (24) a second pressure inflatable member (36) spaced therefrom and through a tubular conduit section (34) associated with the first and second inflatable members Members (28, 36) is fluidly connected and which has a plurality of holes (58) for an outward radial Flow of liquid coolant (44) with one of the inflatable members (28) sealingly engaged is expandable with substantially the entire inner circumference of a portion of the tube (16), the other being inflatable Member (36) is provided with spaced apart members (46, 47, 48, 49, 5o, 51) extending from the outer surface of the Member protrude radially outward and transversely or laterally from the longitudinal axis (A-A) of the device (1o) sina, and wherein the other inflatable member (36) is expandable to a condition in which the spaced apart protruding members (46, 47, 48, 49, 5o, 51) touch part of the inner circumference of the tube (16) and thereby form flow channels (52, 53, 54, 55, 56, 57). 2. Device according to claim 1, further characterized by means (4o, 41, 42, 43) for detecting the presence of the device (1o) at a preselected location within a pipe (16). 80982f / 09S8 ONKMNAL INSPECTED 275852b 3. Device according to claim 2, characterized in that the detection means (4o, 41, 42, 43) one on the device (1o) arranged magnets included. 4. Apparatus according to claim 1, characterized in that the first inflatable member (28) into sealing engagement with substantially the entire inner periphery of a portion of the Tube (16) is expandable. 5. Apparatus according to claim 1, characterized in that the first and second inflatable members (28,36) are up to axially symmetrical configurations are expandable. 80982f / 095S