Apparatus and Method for Conducting Hot Work
In the specification and drawings, an apparatus for conducting hot work is described and shown with an enclosure; a hot work apparatus operable within the enclosure; and a detector located exterior of the enclosure, the detector being in detecting communication with the interior of the enclosure, such that the detector detects the presence of a condition within the enclosure. A method of conducting hot work is also described and shown.
This application is a continuation of U.S. application Ser. No. 17/240,614 filed on Apr. 26, 2021, which is a continuation of U.S. application Ser. No. 14/579,780 (now U.S. Pat. No. 10,989,477) filed on Dec. 22, 2014, which is a continuation of U.S. application Ser. No. 12/412,197 (now U.S. Pat. No. 8,947,249) filed on Mar. 26, 2009, each of which are incorporated by reference herein.
II. BACKGROUND A. Technical FieldAn embodiment described herein is an apparatus and method for conducting hot work.
B. Background ArtAn embodiment of an apparatus and method for conducting hot work is described in U.S. Pat. No. 6,783,054 to Pregeant, Jr. et al., U.S. Pat. No. 7,397,361 to Paulsen, U.S. Pat. No. 7,091,848 to Albarado, and U.S. Pat. No. 7,193,501 to Albarado, et al., each of which are hereby incorporated by reference.
III. BRIEF SUMMARYAn embodiment can be an apparatus for conducting hot work comprising: an enclosure; a hot work apparatus operable within the enclosure; and a detector located exterior of the enclosure, the detector being in detecting communication with the interior of the enclosure, such that the detector detects the presence of a condition within the enclosure.
An embodiment can be an apparatus wherein the hot work apparatus is shut down in response to the detector detecting the presence of a predetermined condition within the enclosure.
An embodiment can be an apparatus further comprising a housing located adjacent to the enclosure, the interior of the housing being fluidly connected to the interior of the enclosure, the detector being fluidly connected to the interior of the housing.
An embodiment can be an apparatus further comprising a gap between the housing and the enclosure.
An embodiment can be an apparatus wherein the housing is not in contact with the enclosure.
An embodiment can be an apparatus wherein the housing is portable.
An embodiment can be an apparatus further comprising a stand attached to the housing.
An embodiment can be an apparatus further comprising a damper attached to the housing.
An embodiment can be an apparatus wherein the detector comprises a first combustible gas detector.
An embodiment can be an apparatus further comprising: an oxygen detector fluidly connected to the interior of the housing; and a pressure detector fluidly connected to the interior of the housing.
An embodiment can be an apparatus wherein at least one of the first combustible gas detector, the oxygen detector and the pressure detector is located exterior of the housing.
An embodiment can be an apparatus further comprising: a blower assembly in fluid communication with the interior of the enclosure; a second combustible gas detector located so as to detect the presence of a combustible gas in or near to an air intake of the blower assembly; a manual shutdown switch located within the enclosure; and a controller in communication with the first combustible gas detector, the second combustible gas detector, the oxygen detector, the pressure detector and the manual shutdown switch, the controller being in communication with the hot work apparatus and capable of controlling the operation of the hot work apparatus in response to a signal received from at least one of the first combustible gas detector, the second combustible gas detector, the oxygen detector, the pressure detector and the manual shutdown switch.
An embodiment can be an apparatus wherein the hot work apparatus comprises a welding apparatus.
An embodiment can be an apparatus further comprising an aperture extending from the interior of the enclosure to the exterior of the enclosure, the detector being fluidly connected to the interior of the enclosure through the aperture.
An embodiment can be an apparatus further comprising a conduit between the aperture and the detector.
An embodiment can be an apparatus further comprising a blower assembly in fluid communication with the interior of the enclosure.
An embodiment can be an apparatus further comprising a positive pressure atmosphere within the enclosure.
An embodiment can be an apparatus further comprising a second detector for detecting a condition exterior the enclosure.
An embodiment can be an apparatus wherein the detector comprises a combustible gas detector.
An embodiment can be an apparatus wherein the combustible gas detector is fluidly connected to the interior of the enclosure.
An embodiment can be an apparatus wherein the combustible gas detector is in light communication with the interior of the enclosure.
An embodiment can be an apparatus wherein the combustible gas detector is in infrared light communication with the interior of the enclosure.
An embodiment can be an apparatus wherein the combustible gas detector is in light communication with air transferred from the interior of the enclosure to the exterior of the enclosure.
An embodiment can be an apparatus wherein the combustible gas detector is in infrared light communication with air transferred from the interior of the enclosure to the exterior of the enclosure.
An embodiment can be an apparatus for conducting hot work comprising: an enclosure; a blower assembly in fluid communication with the interior of the enclosure; and a means for detecting the presence of combustible gas that is within the enclosure by sampling air that is not within the enclosure.
An embodiment can be an apparatus wherein the air that is not within the enclosure has been transferred from the interior of the enclosure.
An embodiment can be an apparatus further comprising a welding apparatus operable within the enclosure.
An embodiment can be an apparatus further comprising a positive pressure atmosphere within the enclosure.
An embodiment can be an apparatus wherein the means for detecting the presence of combustible gas that is within the enclosure by sampling air that is not within the enclosure comprises a combustible gas detector located exterior of the enclosure.
An embodiment can be an apparatus for conducting hot work comprising: an enclosure; a first combustible gas detector for detecting combustible gas within the enclosure; an oxygen detector for detecting oxygen within the enclosure; and a pressure detector for detecting pressure within the enclosure, at least one of the first combustible gas detector, the oxygen detector and the pressure detector being located exterior of the enclosure.
An embodiment can be an apparatus further comprising: a blower assembly in fluid communication with the interior of the enclosure; a second combustible gas detector located so as to detect the presence of a combustible gas in or near to an air intake of the blower assembly; a welding apparatus operable with the enclosure, the operation of the welding apparatus being controllable in response to a signal generated by at least one of the first combustible gas detector, the second combustible gas detector, the oxygen detector and the pressure detector.
An embodiment can be an apparatus for conducting hot work comprising: an enclosure; a welding apparatus operable at least partially within the enclosure; a blower assembly in fluid communication with the interior of the enclosure; a manual shutdown switch in communication with the welding apparatus; an oxygen detector fluidly connected to the interior of the enclosure and in communication with the welding apparatus; a pressure detector fluidly connected to the interior of the enclosure and in communication with the welding apparatus; and a combustible gas detector located exterior of the enclosure, the combustible gas detector being fluidly connected to the interior of the enclosure such that the combustible gas detector detects the presence of a combustible gas within the enclosure, the combustible gas detector being in communication with the welding apparatus.
An embodiment can be an apparatus wherein the welding apparatus is shut down in response to a signal generated by at least one of the oxygen detector, the pressure detector and the combustible gas detector.
An embodiment can be a method of terminating hot work within an enclosure comprising: conducting hot work within an enclosure; transferring air from the interior of the enclosure to the exterior of the enclosure; sampling the air transferred from the interior of the enclosure for the presence of combustible gas; and terminating the hot work within the enclosure in response to detection of a level of combustible gas in the air transferred from the interior of the enclosure to the exterior of the enclosure.
An embodiment can be a method further comprising producing a positive pressure atmosphere within the enclosure.
An embodiment can be a method wherein producing a positive pressure atmosphere within the enclosure further comprises transferring air from the exterior of the enclosure to the interior of the enclosure.
An embodiment can be a method wherein terminating hot work within the enclosure in response to detection of a level of combustible gas in the air transferred from the interior of the enclosure further comprises terminating hot work within the enclosure in response to detection of a level of combustible gas above a predefined level.
An embodiment can be a method wherein the predefined level is at most 25% of the lower explosive limit of the combustible gas.
An embodiment can be a method further comprising forming the enclosure at a location where hot work is to be conducted on a production platform that drills for flammable materials.
An embodiment can be a method further comprising: conducting drilling operations for flammable materials on the production platform; and terminating drilling operations in response to detection of a level of combustible gas in the air transferred from the interior of the enclosure.
An embodiment can be a method further comprising sampling the air transferred from the interior of the enclosure for the presence of a level of oxygen.
An embodiment can be a method wherein the conducting hot work within an enclosure further comprises conducting welding within the enclosure.
An embodiment can be a method of detecting a combustible gas entering an enclosure by detecting a pressure drop in the atmosphere within the enclosure comprising: transferring air from the exterior of the enclosure to the interior of the enclosure; detecting a level of combustible gas in or near to a source of the air transferred from the exterior of the enclosure to the interior of the enclosure; stopping the transferring of air from the exterior of the enclosure to the interior of the enclosure in response to the detecting a level of combustible gas; and detecting a pressure drop in the atmosphere within the enclosure so as to detect a combustible gas entering the enclosure.
An embodiment can be a method further comprising conducting hot work in the enclosure.
An embodiment can be a method further comprising terminating the hot work in the enclosure in response to the detecting a pressure drop in the atmosphere within the enclosure.
An embodiment can be a method further comprising transmitting a signal to a controller in response to the detecting a pressure drop in the atmosphere within the enclosure.
An embodiment can be a method further comprising transmitting a signal from a controller to a power source of the hot work.
An embodiment can be a method wherein terminating the hot work further comprises terminating the hot work in response to a signal from the controller.
An embodiment can be an apparatus for conducting hot work comprising: an enclosure; a hot work apparatus operable within the enclosure; a blower assembly in fluid communication with the interior of the enclosure; and a detector located so as to detect the presence of a condition in or near to an air intake of the blower assembly, the detector being in communication with the blower assembly, the detector being isolated from the hot work apparatus.
An embodiment can be an apparatus further comprising a first controller, the first controller being in communication with the hot work apparatus, the first controller being isolated from the blower assembly.
An embodiment can be an apparatus further comprising a pressure detector fluidly connected to the interior of the enclosure, the pressure detector being in communication with the hot work apparatus.
An embodiment can be an apparatus wherein the pressure detector is isolated from the blower assembly.
An embodiment can be an apparatus further comprising a second controller, the second controller being in communication with the blower assembly, the second controller being in communication with the detector.
An embodiment can be an apparatus further comprising: a first controller, the first controller being in communication with the hot work apparatus, the first controller being isolated from the blower assembly; and a pressure detector fluidly connected to the interior of the enclosure, the pressure detector being in communication with the first controller.
An embodiment can be an apparatus wherein the detector comprises a combustible gas detector located so as to detect the presence of a level of combustible gas in or near to an air intake of the blower assembly.
An embodiment can be an apparatus further comprising: an oxygen detector located so as to detect the presence of a level of oxygen in or near to an air intake of the blower assembly, the oxygen detector being in communication with the blower assembly, the oxygen detector being isolated from the hot work apparatus; and a carbon monoxide detector located so as to detect the presence of a level of carbon monoxide in or near to an air intake of the blower assembly, the carbon monoxide detector being in communication with the blower assembly, the carbon monoxide detector being isolated from the hot work apparatus.
The above summary is not intended to describe each illustrated embodiment or every possible implementation. The figures and the detailed description which follow exemplify these embodiments.
As shown in the accompanying drawings, an embodiment is an apparatus and method for conducting hot work. As shown in
In an embodiment, the enclosure 10 can be formed adjacent to flammable materials, such as hydrocarbons contained in tanks, pipes or other structures. Hot work can be conducted within the enclosure so that the hot work is isolated from the flammable materials. Hot work is work that produces a source of ignition, such as arcs, sparks or flames. The hot work can be conducted within the enclosure 10 by apparatus such as an arc welder, mig welder, tig welder, cutting torch, grinder, analyzing equipment, spectrometer and/or other apparatuses which can produce a source of ignition.
The sides of the enclosure 10 can have openings that allow objects, such as pipes, decking, cables or other objects to pass through the sides of the enclosure 10. The openings can be formed by cutting the opening into a side of the enclosure 10 when the enclosure 10 is being formed, or by forming the sides of the enclosure around such objects. Any remaining gaps between the sides of the enclosure 10 and the object can be sealed with a material such as fire resistant caulk or metal tape.
In an embodiment, a positive pressure atmosphere is within the enclosure 10. The positive pressure atmosphere can be produced within the enclosure 10 by transferring air from the exterior of the enclosure 10 to the interior 14 of the enclosure 10. In the embodiments depicted in
Referring to the embodiment depicted in
Referring to the embodiment depicted in
In an embodiment the positive pressure atmosphere within the enclosure 10 causes air to be transferred from the interior 14 of the enclosure 10 to the exterior of the enclosure 10 and into the interior 42 of the housing 38, and then from the interior 42 of the housing 38 to the exterior of the housing 38. In an embodiment, an air moving device, such as a fan, can be positioned at a location such as in or adjacent to outlet aperture 34, housing inlet aperture 40, conduit 58 (discussed below) and/or damper 54. The air moving device can cause air to be transferred from the interior 14 of the enclosure 10 to the exterior of the enclosure 10 and into the interior 42 of the housing 38, and then from the interior 42 of the housing 38 to the exterior of the housing 38.
Referring to the embodiments depicted in
Referring to the embodiments depicted in
In the embodiments depicted in
Referring to the embodiments depicted in
Referring to
Referring still to the embodiments depicted in
Referring still to the embodiments depicted in
In an embodiment, one or more detectors can be located so as to detect the presence of a condition in or near to the air intake 30 of the blower 26. In the embodiments depicted in
Referring to the embodiments depicted in
One or more of detectors 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 86, 96 and 98 can be in communication, such as wired or wireless communication, with a hot work apparatus 12, such as a power source of the hot work apparatus. In response to one or more of detectors 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 86, 96 and 98 detecting the presence of a condition, the detector can generate a signal that is transmitted to the hot work apparatus so as to terminate the hot work and/or cause the hot work apparatus to shut down. For example, the detectors can generate a signal in response to detecting the presence of a predetermined condition, such as a predefined level of oxygen, combustible gas, carbon monoxide, hydrogen sulfide, pressure and/or other conditions. In an embodiment a predefined level of oxygen can be a trace amount of oxygen that is at or near the detection capabilities of the detector. In another embodiment, the predefined level of oxygen can be a level of oxygen below 19.5% and/or above 23.5%.
As an additional example, detectors 62, 68 and 74 can generate a signal that is capable of terminating hot work within the enclosure in response to detecting the presence of a predetermined condition, such as a predefined level of combustible gas in the air transferred from the interior 14 of the enclosure 10 to the exterior of the enclosure 10. In an embodiment, the predefined level of combustible gas can be a trace amount of combustible gas that is at or near the detection capabilities of the detector. In another embodiment, the predefined level of combustible gas can be a percentage of the lower explosive limit of the combustible gas. The predefined level can be percentages such as 5%, 10%, 15%, 20% or 25% of the lower explosive limit of the combustible gas. The lower explosive limit (also known as the lower flammable limit) is the leanest percentage of combustible gas mixed with air that is explosive. Examples of possible lower explosive limits of some gases are provided in the following chart:
In an embodiment, a detector generates a signal in response to the detector detecting a level of combustible gas of at most 25% of the lower explosive limit of the combustible gas. For example, referring to the chart above it can be seen that methane has a lower explosive limit of 5%. 25% of the lower explosive limit of methane would be 1.25% methane mixed in air. In this embodiment, the detector would not generate a signal that caused the hot work within the enclosure to terminate until the detector detected a concentration of methane in air of 1.25%.
As opposed to, or in addition to, being in communication with the hot work apparatus 12, one or more of detectors 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 86, 96 and 98, such as combustible gas detector 86, carbon monoxide detector 96 and oxygen detector 98, can be in communication with the blower assembly 25. For example, as shown in
One or more of detectors 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 86, 96 and 98 can be in communication, such as wired or wireless communication, with a controller 88. As shown in the embodiment depicted in
As shown in
An alarm 94 such as a visual and/or audio alarm, can also be in communication with the detectors, the controller 88 and/or the second controller 100, and can be triggered in response to a signal received from the detectors, the controller 88 and/or the second controller 100.
Oxygen and/or carbon monoxide detectors 64, 70, and 76 can be in communication with the hot work apparatus 12, the blower assembly 25, the controller 88, the second controller 100 and/or the alarm 94. Additionally, pressure detectors 66, 72, and 78 and/or any other detectors can be in communication with the hot work apparatus 12, the blower assembly 25, the controller 88, the second controller 100 and/or the alarm 94.
An interior manual shut down switch 90 and/or an exterior manual shutdown switch 92 can be connected to the hot work apparatus 12, the blower assembly 25, the controller 88, the second controller 100 and/or the alarm 94. The interior manual shut down switch 90 and/or the exterior manual shutdown switch 92 can be devices such as a switch, button, lever, knob, toggle or any other device that, when triggered, can shut down the hot work apparatus 12, activate the alarm 94 and/or shut down the blower assembly 25. The interior manual shut down switch 90 and/or an exterior manual shutdown switch 92 can be triggered by a user, such as one or more persons designated as a firewatch, who is within the enclosure 10 and/or exterior of the enclosure 10. One or more additional manual shut down switches can be located within the interior of the enclosure 10 and/or exterior to the enclosure 10.
As used herein, the detectors, controller 88, second controller 100, interior manual shut down switch 90 and/or exterior manual shut down switch 92 are in communication with the hot work apparatus 12, the blower assembly 25 and/or the alarm 94 if a signal generated by the detectors, controller 88, second controller 100, interior manual shut down switch 90 and/or exterior manual shut down switch 92 results in terminating the hot work, stopping the transfer of air from the exterior of the enclosure 10 to the interior 14 of the enclosure 10 and/or activates the alarm 94.
In an embodiment, the housing inlet aperture 40 of two or more housings 38 can be placed adjacent to apertures in the sides of the enclosure 10 at various locations. For example, the housing inlet aperture 40 of a first housing 38 can be placed adjacent to an aperture near the ceiling 16 of the enclosure 10, so as to detect combustible gases for example that are lighter than air. The housing inlet aperture 40 of a second housing 38 can be placed adjacent to an aperture near the floor 18 of the enclosure 10, so as to detect combustible gases for example that are heavier than air.
Referring to the embodiments depicted in
In an embodiment, the enclosure 10 can also have an entry way, such as a door, that can allow a person to enter and exit the enclosure 10. The entry way can include an air lock that can allow a person to enter and exit the enclosure 10 with little or no pressure drop in the positive pressure atmosphere within the enclosure 10. The air lock can be a separate chamber from the enclosure 10 and can have a conduit interconnecting the interior 14 of the enclosure 10 and the interior of the air lock. The conduit can have a valve that can be opened or closed to allow the pressure differential between the interior 14 of the enclosure 10 and the interior of the air lock to be equalized. In an embodiment, blower assembly 25 can be in fluid communication with the interior of the air lock, such as by a second duct, and can create a positive pressure atmosphere within the air lock. In an embodiment, a second blower assembly can be in fluid communication with the interior of the air lock, and can create a positive pressure atmosphere within the air lock. When a person enters the air lock from the exterior of enclosure 10 and closes an exterior door of the air lock, a short period of time will elapse while the pressure in the air lock increases to a pressure level equal to or greater than the pressure level inside of the enclosure 10. Once this condition occurs, the person can then open the door to enclosure and enter enclosure 10 without causing a pressure drop within enclosure 10, thereby causing a spurious shut down of hot work within the enclosure 10. Likewise, a person exiting enclosure 10 can enter the air lock and close the door to the enclosure 10 before opening the exterior door of the air lock to exit the air lock, thereby preventing a spurious shutdown of hot work operations. In an embodiment, pressure detectors can detect the level of pressure within the air lock and can allow for the pressure differential between the interior of the air lock and the interior 14 of the enclosure 10 to be determined and/or displayed to a person entering or exiting the enclosure 10.
In operation of an embodiment, enclosure 10 can be formed at a location where hot work will be conducted within the enclosure 10. Blower assembly 25 can be activated to transfer air from the exterior of the enclosure 10 to the interior 14 of the enclosure 10 and produce a positive pressure atmosphere within the enclosure 10. Once a positive pressure atmosphere is produced within the enclosure 10, hot work can be conducted within the enclosure 10. The positive pressure atmosphere within the enclosure can cause air to be transferred from the interior 14 of the enclosure 10 to the exterior of the enclosure, and into the interior 42 of housing 38. The air transferred from the interior 14 of the enclosure 10 to the interior 42 of the housing 38 can then be sampled by detectors 62, 64, 66, 68, 70 and/or 72 for the presence of a condition, such as a level of combustible gas, oxygen and/or pressure. The positive pressure atmosphere within the housing 38 can then cause the air to be transferred from the interior 42 of the housing 38 to the exterior of the housing 38 through damper 54. If detectors 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 86, 96 and/or 98 detects the presence of a condition, one or more of the detectors can generate a signal which results in hot work within the enclosure 10 and/or the transfer of air from the exterior of the enclosure 10 to the interior 14 of the enclosure being automatically terminated. A person can then view a display screen of the controller 88 to determine the cause of the automatic shut down. Once the cause of the automatic shut down has been determined and remedied, the above process can be repeated.
In an embodiment, a first person, such as a firewatch, can be outside of the enclosure 10 and can have fire-fighting equipment, a radio and a combustible gas detector. The first person can monitor the enclosure and/or other components described herein for at least half an hour prior to, during and at least half an hour after hot work is conducted within the enclosure 10. The first person can also terminate the hot work within the enclosure 10 by activating the exterior manual shut down switch 92. In an embodiment, the hot work can be conducted on a production platform, and the first person can be in close proximity to an emergency shut down station of the production platform. The first person can activate the emergency shut down station, which can terminate operations on the production platform as well as terminate the hot work within the enclosure 10. A second person, such as a firewatch, can be inside of the enclosure 10 and can monitor the level of combustible gas, the level of oxygen and/or other gases within the enclosure 10. The second person can terminate the hot work within the enclosure 10 by activating the interior manual shut down switch 90. Lights and a radio can be located within the enclosure 10 and can have an independent power source that allows the lights and radio to function even if power to the enclosure 10 is shut down. A fire extinguisher, such as a 30 pound (13.61 kilogram) fire extinguisher, can also be located within the enclosure 10. Prior to conducting hot work within the enclosure 10, the detectors can be calibrated and/or drills can be conducted to determine whether the methods and apparatuses described herein are functioning properly.
Referring to
An embodiment is a method of detecting a condition such as a combustible gas entering the enclosure 10 by detecting a pressure drop in the atmosphere within the enclosure 10. Referring now to
The embodiments shown in the drawings and described above are exemplary of numerous embodiments that may be made within the scope of the appended claims. It is contemplated that numerous other configurations may be used, and the material of each component may be selected from numerous materials other than those specifically disclosed. In short, it is the applicant's intention that the scope of the patent issuing herefrom will be limited only by the scope of the appended claims.
Claims
1. An apparatus for conducting hot work comprising:
- a. an enclosure;
- b. a hot work apparatus operable within said enclosure; and
- c. a detector located exterior of said enclosure, said detector being in detecting communication with an interior of said enclosure, such that said detector detects the presence of a condition within said enclosure.
2. The apparatus of claim 1 wherein said hot work apparatus is shut down in response to said detector detecting the presence of a predetermined condition within said enclosure.
3. The apparatus of claim 1 further comprising a housing located adjacent to said enclosure, the interior of said housing being fluidly connected to the interior of said enclosure, said detector being fluidly connected to the interior of said housing.
4. The apparatus of claim 3 further comprising a gap between said housing and said enclosure.
5. The apparatus of claim 3 wherein said housing is not in contact with said enclosure.
6. The apparatus of claim 3 wherein said housing is portable.
7. The apparatus of claim 3 further comprising a stand attached to said housing.
8. The apparatus of claim 3 further comprising a damper attached to said housing.
9. The apparatus of claim 3 wherein said detector comprises a first combustible gas detector.
10. The apparatus of claim 9 further comprising:
- a. an oxygen detector fluidly connected to the interior of said housing; and
- b. a pressure detector fluidly connected to the interior of said housing.
11. The apparatus of claim 10 wherein at least one of said first combustible gas detector, said oxygen detector and said pressure detector is located exterior of said housing.
12. The apparatus of claim 11 further comprising:
- a. a blower assembly in fluid communication with the interior of said enclosure;
- b. a second combustible gas detector located so as to detect the presence of a combustible gas in or near to an air intake of said blower assembly;
- c. a manual shutdown switch located within said enclosure; and
- d. a controller in communication with said first combustible gas detector, said second combustible gas detector, said oxygen detector, said pressure detector and said manual shutdown switch, said controller being in communication with said hot work apparatus and capable of controlling the operation of said hot work apparatus in response to a signal received from at least one of said first combustible gas detector, said second combustible gas detector, said oxygen detector, said pressure detector and said manual shutdown switch.
13. The apparatus of claim 1 wherein said hot work apparatus comprises a welding apparatus.
14. The apparatus of claim 1 further comprising an aperture extending from the interior of said enclosure to an exterior of said enclosure, said detector being fluidly connected to the interior of said enclosure through said aperture.
15. The apparatus of claim 14 further comprising a conduit between said aperture and said detector.
16. The apparatus of claim 1 further comprising a blower assembly in fluid communication with the interior of said enclosure.
17. The apparatus of claim 1 further comprising a positive pressure atmosphere within said enclosure.
18. The apparatus of claim 1 further comprising a second detector for detecting a condition exterior said enclosure.
19. The apparatus of claim 1 wherein said detector comprises a combustible gas detector.
20. The apparatus of claim 19 wherein said combustible gas detector is fluidly connected to the interior of said enclosure.
21. The apparatus of claim 19 wherein said combustible gas detector is in light communication with the interior of said enclosure.
22. The apparatus of claim 19 wherein said combustible gas detector is in infrared light communication with the interior of said enclosure.
23. The apparatus of claim 19 wherein said combustible gas detector is in light communication with air transferred from the interior of said enclosure to an exterior of said enclosure.
24. The apparatus of claim 19 wherein said combustible gas detector is in infrared light communication with air transferred from the interior of said enclosure to an exterior of said enclosure.
25. An apparatus for conducting hot work comprising:
- a. an enclosure;
- b. a blower assembly in fluid communication with an interior of said enclosure; and
- c. a means for detecting the presence of combustible gas that is within said enclosure by sampling air that is not within said enclosure.
26. The apparatus of claim 25 wherein said air that is not within said enclosure has been transferred from the interior of said enclosure.
27. The apparatus of claim 26 further comprising a welding apparatus operable within said enclosure.
28. The apparatus of claim 27 further comprising a positive pressure atmosphere within said enclosure.
29. The apparatus of claim 27 wherein said means for detecting the presence of combustible gas that is within said enclosure by sampling air that is not within said enclosure comprises a combustible gas detector located exterior of said enclosure.
30. An apparatus for conducting hot work comprising:
- a. an enclosure;
- b. a first combustible gas detector for detecting combustible gas within said enclosure;
- c. an oxygen detector for detecting oxygen within said enclosure; and
- d. a pressure detector for detecting pressure within said enclosure, at least one of said first combustible gas detector, said oxygen detector and said pressure detector being located exterior of said enclosure.
31. The apparatus of claim 30 further comprising:
- a. a blower assembly in fluid communication with an interior of said enclosure;
- b. a second combustible gas detector located so as to detect the presence of a combustible gas in or near to an air intake of said blower assembly;
- c. a welding apparatus operable within said enclosure, the operation of said welding apparatus being controllable in response to a signal generated by at least one of said first combustible gas detector, said second combustible gas detector, said oxygen detector and said pressure detector.
Type: Application
Filed: Sep 18, 2023
Publication Date: Jan 4, 2024
Inventors: David Allen Dore (Erath, LA), Robert C. Tucker (Baton Rouge, LA), Chad A. Grand (Baton Rouge, LA)
Application Number: 18/369,320