Weldable sightglass assembly

Details Weldable sightglass assembly Weldable sightglass assembly

2001-04-27

2002-03-19

Schuberg, Darren (Department: 2872)

Optical: systems and elements

Optical aperture or tube, or transparent closure

C359S436000, C359S440000, C220S663000, C116S276000, C073S325000, C073S330000, C073S334000

Reexamination Certificate

active

06359742

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention.
This invention relates to sightglass for viewing the interior of a vessel and, more particularly, to a sightglass assembly suitable for welding to the wall of a pressure vessel.
2. Prior Art.
In process reactors, including pressure vessels, used in various industrial processes, for example, in the production of chemicals, pharmaceuticals, and the like, it is known to use viewing means to allow the operators to view the interior of the vessel and the process being carried out. To allow operators to follow the progress of a reaction, to view color changes, and monitor phase changes, and levels of components and the like, such vessels are commonly equipped with viewing windows, attached to the vessel walls. A variety of such viewing windows or sightglasses for such purposes are set forth in the prior art.
U.S. Pat. No. 5,974,877 to Burgess, Jr. discloses a sight window assembly wherein interlocking elements hold a plastic viewing panel to the vessel wall. The plastic material of the viewing panel has a suitable coefficient of expansion so that the panel can be set in an opening in the vessel wall and then expanded by changing temperature conditions to fit tightly within the opening.
U.S. Pat. No. 5,611,241 to Henry et al. discloses a sightglass assembly that may be welded to a pressure vessel, such as a boiler, to provide a chamber in fluid communication with the vessel to permit the viewing of the vessel contents.
U.S. Pat. No. 4,809,862 to Canty discloses a safety viewing window for use in pressure vessels and the like comprising a glass disc fused to a metal frame. Viewing windows of this type and their use in various settings and with various other equipment are disclosed in other patents to canty, including U.S. Pat. Nos. 4,746,178; 4,965,601; 4,977,418; and 5,230,556.
It is known to mount a sightglass on a vessel wall by bolting or clamping to a nozzle or pad, which in turn, is welded to the vessel wall. Typically such an assembly utilizes a gasket between the sightglass and the nozzle or pad to provide a seal from the exterior environment and prevent pressure leaks from the vessel. Mountings of this type utilizing external bolts or clamps, are difficult to clean, and create recesses and crevasses where bacteria may collect and cause contamination. Within the reaction vessel, a sightglass and seal assembly of this type, mounted in this manner, does not provide an inner surface that is flush with the surface of the internal wall of the reactor and thus creates recesses and crevasses within the vessel where process components or portions of the reaction mixture may not mix readily with the total reaction medium. Furthermore, such crevasses and/or recesses provide sites where bacteria and the like may collect and stagnate, avoiding removal during the cleaning process and thus lead to contamination of the vessel. In some industries where cleanliness is extremely important, such as in the food industry, the pharmaceutical industry, the biotech industry and the like, there is a need to eliminate sites where bacteria can grow and contaminate a reaction or product. Such problems might be avoided if it were possible to weld a sightglass directly to a vessel wall so that the inner side of the glass forms a continuous and flush surface with the inner side of the vessel wall. However, since glass and metal cannot be directly welded, such an approach has heretofore been impractical. Sightglass windows such as the Fuseview® windows developed by Canty, as disclosed, for example, in U.S. Pat. No. 4,809,862 comprise a glass disc fused to a surrounding metal frame. However, attempts to weld the metal frame of such sightglasses directly to the wall of a pressure vessel have been unsuccessful due to cracking or shattering of the glass as a result of thermal stresses created during the welding process.
SUMMARY OF THE INVENTION
It is an object of this invention to provide an improved sightglass assembly which avoids the disadvantages noted above with respect to prior art sightglass assemblies.
A further object of this invention is to provide a sightglass assembly for use on enclosed vessels, such as pressure vessels, vacuum tanks and the like to allow the safe viewing of processes and reactions within the vessel.
It is a still further object to provide a sightglass assembly that can be easily and securely installed.
It is a still further object to provide a fused glass to metal sightglass that can be welded to a wall of a process vessel without introducing thermal stresses upon the glass due to the welding process.
It is a still further object to provide a sightglass for mounting in a tank wall that leaves no crevasses or shelves for bacterial or other material buildup due to gaskets, or other sealing devices normally employed in the mounting of windows or sightglasses. This feature is beneficial internally as well as externally as sites for such buildup are eliminated by not employing clamps, bolts, gaskets, flanges, and other such features for mounting of windows or sightglasses.
It is a further object to provide a window for a tank wall that is integral with the wall and therefore as easily cleaned as the other areas of the tank wall surface and can be easily inspected for cleanliness. Here again, this feature is beneficial internally as well as externally since the use of various prior art hardware, such as, clamps, bolts, flanges, etc. for the mounting of the window is eliminated.
The above and other objects are accomplished in accordance with the present invention which comprises a sightglass assembly adapted to be welded to a vessel wall. The sightglass assembly comprises a substantially clear window disc, an annular frame enclosing the window disc and being fused thereto, and a flange extending radially from the frame, the flange having an annular groove surrounding the frame and window disc.
Typically, the flange extending from the frame is substantially thinner than the entire thickness of the viewing portion and preferably extends from the frame at the inner side of the frame, that is, the side of the window and frame that will face the interior of the vessel when mounted. The actual thickness of the flange may vary but will typically be approximately equivalent to the thickness of the vessel wall on which it will be mounted.
In mounting the assembly to the wall of a process vessel, an opening of suitable size and shape is made in the wall and the outer perimeter of the flange is welded thereto, preferably in a butt weld to form an essentially flush surface on the side facing the interior of the vessel. As the perimeter of the flange is welded to the vessel wall, thermal expansion might create stress throughout the assembly. However, the groove will absorb the stresses without transmitting to the glass viewing portion of the assembly and thus protects the integrity of the entire unit.
The stress-absorbing groove is preferably rounded at the bottom of the groove and cut to encircle the frame and window disc. The groove is preferably cut into the flange on the side facing away from the interior of the vessel when mounted. The depth of the groove may vary, but it has been found preferable to cut the groove to a depth of approximately half the thickness of the flange.
The sightglass assembly may vary in size, depending on the size of the vessel in which it is installed and the size of the viewing area desired. Furthermore, it may be adapted for installation on vessels of various shapes, including, for example, flat walled vessels or cylindrical vessels. In the case of cylindrical vessels, the flange of the sightglass assembly may be moderately curved to conform to the radius of the cylindrical vessel in which it is to be installed.
The frame and flange may made from any suitable material including, for example, metals, such as low carbon steel, various stainless steels and the like, and plastics, such as polycarbonates or other. A preferred material, based on strength and corrosion resistance is Hastelloy metal. However, the primary

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