Pipefitters, welders, and construction workers often have to install pipe flanges to pipes. Typically the worker has to use three or four hex head bolts to bolt the flanges together, and then use a set of flange pins to “two-hole align” the flange to the pipe, or to align the pipe and flange together with respect to their surroundings. However, most flange pin sets on the market today are not long enough for this purpose. Those that are long enough are typically only light-duty items whose threads or surfaces may easily strip or deform during use as such. This makes the installation job more difficult, and the results less reliable. In addition, single and double flanges typically each require their own separate sets of flange pins.
A flange alignment pin is disclosed. In an example, the flange alignment pin may be implemented by pipefitters or welders to install pipe flanges to pipe. In an example, the tool may be implemented with so-called “two-hole” flange pins (or alignment pins). In an example, the flange pins may be tapered to allow the pins to find true center of the flange hole.
Before continuing, it is noted that as used herein, the terms “includes” and “including” mean, but is not limited to, “includes” or “including” and “includes at least” or “including at least.” The term “based on” means “based on” and “based at least in part on.”
It is also noted that the examples described herein are provided for purposes of illustration, and are not intended to be limiting. Other devices and/or device configurations may be utilized to carry out the operations described herein.
In an example, the flange alignment pin 1 includes double lead threads on the threaded portion 3 of the shaft 2. The double lead threads facilitate faster threading of the nut onto the shaft 2. In an example, the wrench flats 5 of the flange alignment pin 1 are machined in the form of an integral hex nut behind the tapered centering shoulder 4.
The wrench flats 5 enable the flange alignment pin 1 to be tightened. For example, the flange alignment pin 1 may be tightened with a pair of wrenches. One wrench may be provided on the flange alignment pin 1, and another wrench may be provided on the nut being screwed into the flange alignment pin 1.
In an example, the flange alignment pin has a sufficient length to provide the end-user (e.g., a pipefitter, welder, or construction worker) the ability to employ one set of flange pins to check the alignment of both single and double flanges.
It is noted that the components may be provided in a variety of lengths and sizes.
In an example, the pin nut 10 has an unthreaded slip portion 13 machined inside to allow the pin nut 10 to reach the shaft threads 3 more quickly and with easier alignment. As such, the pin nut 10 may decrease time spent by the user screwing and unscrewing the flange pins.
The pin nut 10 may also include its own tapered centering shoulder 11 which, like the tapered centering shoulder 4 of the flange alignment pin 1, permits the pin nut 10 to be centered more easily in a flange hole.
In addition, the example pin nut 10 may include wrench flats 12 (e.g., hex nut flats) machined in behind the tapered centering shoulder 4. The wrench flats 12 enable the end of a wrench to tighten the pin nut 10.
In an example, the flange alignment pin may also include a machined level feature. The level feature may help to hold a standard leveling tool in position while the flange pins are being installed. The level feature may be provided for any of a variety of leveling tools, including but not limited to, a float level, spirit level, or bubble level, an “artificial horizon”, an electronic level or inclinometer, and a leveling app or inclinometer app (e.g., executing on a smartphone).
Also visible in
The threaded portion 3 and unthreaded portion 8 of the shaft 2 of the flange alignment pin 1 are also shown in
The threaded portion 3 and unthreaded portion 8 of the shaft 2, the tapered centering shoulder 4, wrench flats 5, level feature 6, and pin head 7 of the flange alignment pin 1 are also shown in
A wrench 102 on the wrench flats 5 (not visible) of the flange alignment pin 1 holds the flange alignment pin 1 in place, while a second wrench 102 on the wrench flats 12 (not visible) of the pin nut 10 is operated to tighten the pin nut 10. The wrench 102 may be operated by an installer 103. In an example, the length and threading of the flange alignment pin 1 is selected such that the same set of pins 1 may be used to align both single and double flanges.
In an example, the leveling tool is a three-axis bubble level or spirit level, which may be used to evaluate the alignment of the pipe and flange in three dimensions. Other instruments may serve the same or a similar purpose, including digital levels or inclinometers based on accelerometers, magnetometers, gyroscopes (including solid-state gyroscopes). Other possible leveling instruments include, but are not limited to: a plumb bob, ball and stick, artificial horizon, or a level app running on a smartphone.
The operations shown and described herein are provided to illustrate example implementations. It is noted that the operations are not limited to the ordering shown. Still other operations may also be implemented. For example, the flange alignment pins may be made in a variety of lengths, diameters, and threadings, and with wrench flats of different shapes and sizes. In addition, accessories may be provided, including but not limited to a tapered flange bolt, holding pouch, and custom wrench for the flange alignment pins. The integral level feature may be employed to help secure a level tool to the flange alignment pins during installation, but may also help secure other instruments, including thermometers, hygrometers, clocks, timers sound meters, vibration meters, light meters, or any other instruments that may be useful during the flange installation process.
It is noted that the examples shown and described are provided for purposes of illustration and are not intended to be limiting. Still other examples are also contemplated.
This application claims the priority benefit of U.S. Provisional Patent Application No. 62/525,917 filed Jun. 28, 2017 for “Flange Alignment Pin” of Ron Harper, hereby incorporated by reference in its entirety as though fully set forth herein.
Number | Date | Country | |
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62525917 | Jun 2017 | US |