초록 ▼

A test plug and method for isolating and testing a connection, such as a welded connection, which interconnects a wall of tank, vessel, or pipe to a branch pipe or nozzle. The test plug isolates the connection from the remainder of the tank, vessel or piping system and enables pressure/leak testing

A test plug and method for isolating and testing a connection, such as a welded connection, which interconnects a wall of tank, vessel, or pipe to a branch pipe or nozzle. The test plug isolates the connection from the remainder of the tank, vessel or piping system and enables pressure/leak testing of the connection without requiring pressurization of the entire tank or vessel or a large section of the piping system. Further, the test plug can be utilized during welding operations to isolate harmful materials, vapors or fumes existing within tanks, vessels or piping systems from the weld location and to permit the flow of an inert gas to safely flush any potentially harmful vapors or the like away from the welding area.

대표청구항 ▼

A test plug and method for isolating and testing a connection, such as a welded connection, which interconnects a wall of tank, vessel, or pipe to a branch pipe or nozzle. The test plug isolates the connection from the remainder of the tank, vessel or piping system and enables pressure/leak testing

A test plug and method for isolating and testing a connection, such as a welded connection, which interconnects a wall of tank, vessel, or pipe to a branch pipe or nozzle. The test plug isolates the connection from the remainder of the tank, vessel or piping system and enables pressure/leak testing of the connection without requiring pressurization of the entire tank or vessel or a large section of the piping system. Further, the test plug can be utilized during welding operations to isolate harmful materials, vapors or fumes existing within tanks, vessels or piping systems from the weld location and to permit the flow of an inert gas to safely flush any potentially harmful vapors or the like away from the welding area. 9551200, Clevenger et al., 072/060; US-3512239, 19700500, Rosenblad, 029/890.042; US-3837200, 19740900, Wolbert, 072/057; US-3920175, 19751100, Hamilton et al., 228/173.2; US-4181000, 19800100, Hamilton et al., 072/060; US-4301584, 19811100, Dillner et al., 029/889.71; US-4632296, 19861200, Mansbridge et al., 228/157; US-5449109, 19950900, Chuang et al., 228/157; US-5711059, 19980100, Schaefer, 029/423; US-5819572, 19981000, Krajewski, 072/042; US-5974847, 19991100, Saunders et al., 072/057; US-6047583, 20000400, Schroth, 072/060; US-6266986, 20010700, Morita et al., 072/058; US-6301765, 20011000, Arns et al., 029/421.1 aid detection data utilizing a data analyzing device to judge existence of defects on any one of a surface and an inside of said material to be worked; and in case where there is made a judgment that the defects exist on said material to be worked, stopping a feeding operation of the material to b worked to the press-forming device, removing respective portions having the defects from a downstream side and a upstream side of said defects of the material to be worked, and then feeding the material to be worked to the press-forming device, while detecting new defects after said defects in the feeding direction of the material to be worked utilizing said detection device. 3. A method for manufacturing a heat transfer member comprising the steps of: subjecting material to be worked, which is made of a metallic thin sheet, to a press forming utilizing upper and lower molds of a press-forming device to form said material to be worked into a shape having prescribed irregularities, thereby preparing a heat transfer member for a heat exchanger, wherein: an elongated material is used as said material to be worked; a press-forming device is provided with molds each having a length shorter than said elongated material to be worked; and said press forming is carried out by press-forming, while feeding said elongated material to be worked in a single feeding direction in parallel with a longitudinal direction of said elongated material to be worked, said elongated material to be worked on prescribed portions thereof, which have been previously set so as to be placed at prescribed intervals in the longitudinal direction of said elongated material to be worked, utilizing said press-forming device, thereby preparing the heat transfer member having a plurality of patterns of irregularities, which are arranged in the longitudinal direction of said elongated material to be worked; said method further comprising the steps of: putting, prior to the press forming of said material to be worked utilizing said press-forming device, a plurality of marks for defining prescribed positions of the material to be worked to which the press forming is to be applied, on a surface of the material to be worked at prescribed intervals in the longitudinal direction of the material to be worked, utilizing a marking device; and conducting the press forming on the prescribed positions of the material to be worked, which are defined by said marks, utilizing said press-forming device, when said marks of the material to be worked, which is fed in the single feeding direction, are detected by means of a mark detection device. 4. The method as claimed in claim 3, further comprising the steps of: putting the marks on the surface of the material to be worked in the feeding direction utilizing the marking device; performing an arithmetic operation of an imaginary central line connecting the marks as put; successively extending said imaginary central line to obtain an extended central line; and successively putting the marks on said extended central line at prescribed intervals in the longitudinal direction of the material to be worked. 5. The method as claimed in claim 3, further comprising the steps of: defining at least one set of imaginary central points and imaginary edge side points, which are placed on opposite sides of said imaginary central point by a prescribed distance, on the surface of said material to be worked; measuring an edge distance from any one of the imaginary central point and the imaginary edge side points to a side edge of said material to be worked, which are set successively in the feeding direction of said material to be worked; and putting the marks on the surface of the material to be worked in the feeding direction on a basis of an amount of variation of said edge distance thus measured, utilizing said marking device. 6. A method for manufacturing a heat transfer member comprising the steps of: subjecting mater ial to be worked, which is made of a metallic thin sheet, to a press forming utilizing upper and lower molds of a press-forming device to form said material to be worked into a shape having prescribed irregularities, thereby preparing a heat transfer member for a heat exchanger, wherein: an elongated material is used as said material to be worked; a press-forming device is provided with molds each having a length shorter than said elongated material to be worked; and said press forming is carried out by press-forming, while feeding said elongated material to be worked in a single feeding direction in parallel with a longitudinal direction of said elongated material to be worked, said elongated material to be worked on prescribed portions thereof, which have been previously set so as to be placed at prescribed intervals in the longitudinal direction of said elongated material to be worked, utilizing said press-forming device, thereby preparing the heat transfer member having a plurality of patterns of irregularities, which are arranged in the longitudinal direction of said elongated material to be worked; said method further comprising the steps of: forming flange portions on longitudinal extending opposite edge portions of the material to be worked so as to make a difference in level from a longitudinally extending central portion thereof, utilizing said press-forming device; and forming flat portions having a prescribed width on longitudinally extending opposite edge portions of the material to be worked so as to make a difference in level from a longitudinally extending central portion thereof, as well as forming any set of prescribed recess portions and prescribed projection portions on said flat portions at prescribed intervals in the longitudinal direction of the material to be worked, utilizing said press-forming device. 7. A method for manufacturing a heat transfer member comprising the steps of: subjecting material to be worked, which is made of a metallic thin sheet, to a press forming utilizing upper and lower molds of a press-forming device to form said material to be worked into a shape having prescribed irregularities, thereby preparing a heat transfer member for a heat exchanger, wherein: an elongated material is used as said material to be worked; a press-forming device is provide with molds each having a length shorter than said elongated material to be worked; and said press forming is carried out by press-forming, while feeding said elongated material to be worked in a single feeding direction in parallel with a longitudinal direction of said elongated material to be worked, said elongated material to be worked on prescribed portions thereof, which have been previously set so as to be placed at prescribed intervals in the longitudinal direction of said elongated material to be worked, utilizing said press-forming device, thereby preparing the heat transfer member having a plurality of patterns of irregularities, which are arranged in the longitudinal direction of said elongated material to be worked; said method further comprising the steps of: forming flange portions on longitudinally extending opposite edge portions of the material to be worked so as to make a difference in level from a longitudinally extending central portion thereof, utilizing said press-forming device; detecting, prior to the press forming of said material to be worked utilizing said press-forming device, any one of surface condition and internal structure of said material to be worked utilizing a detection device to obtain detection data; analyzing said detection data utilizing a data analyzing device to judge existence of defects on any one of a surface and an inside of said material to be worked; and in case where there is made a judgment that the defects exist on said material to be worked, stopping a feeding operation of the material to be worked to the press-forming device, removing respective portions hav