U.S. patent application number 14/457079 was filed with the patent office on 2014-11-27 for apparatus for joining pipe sections.
The applicant listed for this patent is John M. Boatner, JR.. Invention is credited to John M. Boatner, JR..
Application Number | 20140346723 14/457079 |
Document ID | / |
Family ID | 44504756 |
Filed Date | 2014-11-27 |
United States Patent
Application |
20140346723 |
Kind Code |
A1 |
Boatner, JR.; John M. |
November 27, 2014 |
Apparatus for Joining Pipe Sections
Abstract
The present invention relates to a method and apparatus to be
used when welding two abutting sections of pipe or tubing, and also
to purge blocks for establishing a localized inert atmosphere
inside two abutting pipe sections in the region of a desired weld
joint. The present invention comprises an inflatable bladder with
elongated engaging members that can be removable positioned within
the ends of two abutting pipe sections in order to center the two
abutting sections of pipe and create the purge block.
Inventors: |
Boatner, JR.; John M.;
(Zachary, LA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Boatner, JR.; John M. |
Zachary |
LA |
US |
|
|
Family ID: |
44504756 |
Appl. No.: |
14/457079 |
Filed: |
August 11, 2014 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12660510 |
Mar 1, 2010 |
8835808 |
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14457079 |
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Current U.S.
Class: |
269/20 |
Current CPC
Class: |
B23K 2101/06 20180801;
B23K 9/0354 20130101; B23K 9/167 20130101; B23K 31/02 20130101;
B23K 37/0531 20130101; B23K 9/0286 20130101; Y10T 29/49998
20150115 |
Class at
Publication: |
269/20 |
International
Class: |
B23K 37/053 20060101
B23K037/053 |
Claims
1. A pipe joining apparatus comprising: a. An inflatable bladder;
and b. At least one elongated engaging member securely attached and
circumferentially displaced about said inflatable bladder such that
said elongated engaging member is positioned between the inside
walls of abutting pipe sections sought to be joined and said
bladder, and further engages the inside walls of said abutting pipe
sections.
2. The pipe joining apparatus of claim 1, wherein said inflatable
bladder further comprises: a. A rearward balloon type portion, a
forward balloon type portion, and a middle portion; b. Said middle
portion containing at least one aperture; and c. A means for
introducing an inert gas into said inflatable bladder.
3. The pipe joining apparatus of claim 3, wherein said elongated
engaging member is securely attached to the middle portion of the
inflatable bladder.
4. The pipe joining apparatus of claim 4, wherein said inflatable
bladder further comprises a high temperature resistant material.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of application Ser. No.
12/660,510 filed on Mar. 1, 2010.
FEDERALLY SPONSORED RESEARCH
[0002] Not applicable
SEQUENCE LISTING OR PROGRAM
[0003] Not applicable
FIELD OF INVENTION
[0004] The present invention relates to a method and apparatus for
joining sections of pipe. More specifically, this invention relates
to a method and device used to secure, position, and join sections
of pipe through purge block welding.
BACKGROUND OF INVENTION
[0005] The present invention relates to a method and apparatus to
be used when welding two abutting sections of pipe or tubing, and
also to purge blocks for establishing a localized inert atmosphere
inside two abutting pipe sections in the region of a desired weld
joint.
[0006] Modern plants for the processing, refinement, and production
of oil, petrochemicals, natural gases and other like materials
often take place in a manufacturing facility that employs the use
of a network of piping. The piping network is a significant
component of the facility. To produce this network, a great many
sections of piping or tubing are assembled. This assembly is
commonly carried out by welding sections of pipe or tubing to each
other, to pipe fittings, and to other components of the
network.
[0007] Due to the nature of the materials oftentimes being
transported through this network of piping, the purity of the welds
and the possibility of corrosion sites are concerns that must be
addressed. Weld sites are often known to be corrosion sensitive
points. Therefore, consistency and efficiency in conducting welds
is an extremely important concern in establishing the network of
piping referenced above.
[0008] A generally well known method of joining two abutting pieces
of pipe or tubing in light of these concerns is tungsten inert gas
(TIG) welding. In TIG welding to goal is to establish an inert
atmosphere inside two abutting pipe or tubing sections in the
region of the desired weld, as well as an inert atmosphere on the
outside of the pipe sections in the region of the desired weld
joint.
[0009] The general practice in this form of welding has been to
fill both pipes or tubing sections, which can be very long, with a
protective gas such as argon. Typically, a continuous flow of argon
gas is provided throughout the welding operation in order to
establish the inert atmosphere near the region of the desired weld.
A result of this practice is the consumption of large amounts of
argon gas, which in turn causes high costs. Further, this general
practice does not address the need and concern for centering the
two adjoining pipe sections and keeping them stationary through the
welding process. Pipe ends must be centered and aligned in order to
effect a good weld and seal. Normally, separate mechanical devices
have been used to align and center the pipes.
[0010] A known alternative to the above-referenced technique
involved the use of purge blocks, dams or plugs, which establish a
localized inert atmosphere at the interior surface of a desired
weld joint. The basic premise to this particular technique has been
to plug both ends of the pipes or tubes to be joined. Embodiments
of the plugs have included both separate and interconnected
inflatable plugs or seals. Notwithstanding, the use of these prior
art plugs have failed to account for the alignment of two abutting
sections of pipe or tubing, including the centering of pipe ends
and keeping them stationary.
[0011] The present invention departs from prior art techniques by
presenting a new pipe joining method and apparatus that employs an
inflatable bladder that both creates a purge block and further
positions and centers two abutting sections of pipe or tubing for
use in conventional TIG welding.
SUMMARY OF THE INVENTION
[0012] The present invention provides a method and apparatus for an
improved purge block for use in establishing a localized inert
atmosphere inside two abutting pipe sections in the region of a
desired weld, as well positioning, aligning, and centering the two
abutting pipe sections sought to be joined.
[0013] The present invention comprises an inflatable bladder that
can be removable positioned within the ends of two abutting pipe
sections. The inflatable bladder is comprised of suitable flexible
fireproof elastomeric material and a plurality of engaging
members.
[0014] In one embodiment, the inflatable bladder comprises three
sections, a rearward balloon-type portion having a passageway
therethrough to allow for the introduction of inert gas, a thicker
middle portion having a plurality of apertures circumferentially
displaced around the middle portion, and a forward balloon-type
portion. The middle portion of inflatable bladder is comprised of a
plurality of elongated engaging members securely attached and
circumferentially displaced about the middle portion of the
inflatable bladder. The present invention departs from prior art
inventions by positioning the elongated engaging members in such a
manner where the elongated engaging members are situated between
the inside walls of the pipe sections sought to be joined and the
inflatable bladder, whereby the elongated engaging members engage
and grip the inside walls of the pipe sections sought to be joined.
Each elongated engaging member may be further equipped with spacing
teeth securely attached to each elongated engaging member.
[0015] In operation, the inflatable bladder is manually inserted
inside two abutting pipe sections, with the spacing teeth serving
as a spacing guide between the two abutting pipe section ends.
Inert gas is then introduced into the inflatable bladder via the
passageway of the rearward balloon-type portion, thereby causing
the bladder to inflate, which in turns causes the elongated
engaging member to engage with the inside walls of the two abutting
pipe sections. As a result, the two abutting pipe sections are
aligned, centered, and locked into position.
[0016] Inert gas is continued to be introduced into the inflatable
bladder which causes the rearward balloon-type portion and forward
balloon-type portion of the inflatable bladder to inflate and
create a purge block with a defined chamber having the inside walls
of the two abutting pipe sections forming a sidewall and the
rearward balloon-type portion and forward balloon-type portion each
as an endwall. A constant flow of inert gas is introduced into the
defined chamber via the plurality of apertures circumferentially
displaced around the middle portion of the inflatable bladder
[0017] Joining of the two sections of pipe may then be accomplished
via normal TIG welding procedures. Flow in inert gas is then
discontinued allowing the bladder to deflate and the elongated
engaging members to disengage. The inflatable bladder may then be
manually removed.
BRIEF DESCRIPTION OF DRAWINGS
[0018] FIG. 1 is a side view of the bladder.
[0019] FIG. 2 is a longitudinal cross-sectional view of the
bladder.
[0020] FIG. 3 is a side view of the bladder positioned within the
ends of two abutting pipe sections.
[0021] FIG. 4 is a side view of an inflated bladder.
[0022] FIG. 5 is a side view of an inflated bladder positioned
within the ends of two abutting pipe sections.
DRAWINGS
Reference Numerals
[0023] 10 Bladder [0024] 15 Forward balloon-type portion [0025] 16
Rearward balloon-type portion [0026] 17 Middle portion [0027] 20
Elongated engaging member [0028] 25 Spacing teeth [0029] 30
Aperture [0030] 35, 36 Pipe [0031] 40 Pipe inside wall [0032] 50
Opening [0033] 55 Means for introducing inert gas
DETAILED DESCRIPTION OF THE INVENTION
[0034] Referring to FIGS. 1 and 2, one embodiment of the claimed
invention is shown. The claimed invention comprises an inflatable
bladder 10. The bladder 10 is comprised of a fireproof elastomeric
material and elongated engaging members 20. The bladder 10 further
comprises three portions, a rearward balloon-type portion 16, a
thicker middle portion 17, and a forward balloon-type portion 15.
Circumferentially disposed about the middle portion 17 is a
plurality of elongated engaging members 20. Each elongated engaging
member 20 is securely attached to the middle portion 17 and is
equipped with a spacing tooth 25 securely attached thereto. FIG. 3
is a second embodiment of the claimed invention. In this
embodiment, the bladder 10 is shown positioned within the ends of
two abutting sections of pipe 35, 36. The rearward balloon-type
portion 16 is equipped with a passageway 50 to allow for a means 55
of introduction of inert gas into the bladder 10.
[0035] In operation, the bladder 10 is manually positioned inside
and between the ends of two abutting sections of pipe 35, 36. As
shown in FIG. 3, each spacing tooth 25 serves as a guide in spacing
the ends of the two abutting sections of pipe 35,36 the appropriate
distance to allow for optimal TIG welding. Next, inert gas is
introduced to the bladder 10 via the passageway 50, causing the
bladder 10 to inflate. FIG. 5 shows the inflated bladder 10. As
shown, the bladder 10 inflates, with the elongated engaging members
20 positioned between the inside walls 40 of the two abutting
sections of pipe 35,36 and the bladder 10. The elongated engaging
members 20 engage and grip the internal walls 40 of each abutting
sections of pipe 35, 36. As a result, the two sections of pipe
35,36 are aligned, centered, and locked into place without any
additional measuring or manipulation.
[0036] Inert gas is continued to be introduced into the bladder 10,
thereby causing the rearward balloon-type portion 16 and forward
balloon-type portion 15 to inflate, thereby creating a purge block.
Simultaneously, inert gas is introduced into the purge block via
the plurality of apertures 30 disposed about the middle portion 17
of the bladder. Next, the two sections of pipe 35,36 may be welded
by conventional TIG welding methods. Once welding is complete, the
introduction of inert gas is discontinued, thereby causing the
bladder 10 to deflate and the elongated engaging members 20 to
disengage. The bladder 10 may then be removed manually.
* * * * *