摘要:
The present invention provides a die holder with one or more pre-located recessed areas or voids into which cutting dies can be quickly and easily inserted and secured. The die holder mounts quickly to the cylinder, and can be quickly removed for alternative operations. The die holder can be made according to the operator needs for different types, sizes and positions of dies. Unused voids can be filled with ‘blank’ blocks to achieve a consistent or uniform surface height for the full 360 degree area of the die cylinder. The present invention further provides a removable scrap control apparatus that is not attached permanently to the die cylinder on which it is used, which permits the use of a multiple blade die or a plurality of single blade dies on the same die cylinder without requiring permanent holes, slots or other means to accommodate the scrap control apparatus on the die cylinder or anvil cylinder.
摘要:
A field service device (280) for facilitating a processing system replacement in a vibratory flowmeter is provided. The field service device (280) includes a field service device processor (282) configured to interface with one or more vibratory flowmeter processing systems and a storage system (285) configured to store pre-replacement operationally-derived values (252a), post-replacement operationally-derived values (252b), and one or more scaling factors (266). The field service device processor (282) is configured to obtain pre-replacement operationally-derived values (252a), obtain post-replacement operationally-derived values (252b) after an old processing system has been replaced with a replacement processing system, generate the one or more scaling factors (266) as a ratio of one or more pre-replacement operationally-derived values (252a) to one or more post-replacement operationally-derived values (252b), and download the one or more scaling factors (266).
摘要:
An electrical interconnect provides a path between cryogenic or cryocooled circuitry and ambient temperatures. As a system, a cryocable 10 is combined with a trough-line contact or transition 20. In the preferred embodiment, the cryocable 10 comprises a conductor 11 disposed adjacent an insulator 12 which is in turn disposed adjacent another conductor 13. The components are sized so as to balance heat load through the cryocable 10 with the insertion loss. In the most preferred embodiment, a coaxial cryocable 10 has a center conductor 11 surrounded by a dielectric 12 (e.g. Teflon.TM.) surrounded by an outer conductor 13 which has a thickness between about 6 and 20 microns. The heat load is preferably less than one Watt, and most preferably less than one tenth of a Watt, with an insertion loss less than one decibel. In another aspect of the invention, a trough-line contact or transition 20 is provided in which the center conductor 11 is partially enveloped by dielectric 12 to form a relatively flat portion 28. The preferred overall geometry of the preferred embodiment of the cable is generally cylindrical, although other geometries are possible (e.g. stripline, microstrip, coplanar or slotline geometries).
摘要:
A field service device (280) for facilitating a processing system replacement in a vibratory flowmeter is provided. The field service device (280) includes a field service device processor (282) configured to interface with one or more vibratory flowmeter processing systems and a storage system (285) configured to store pre-replacement operationally-derived values (252a), post-replacement operationally-derived values (252b), and one or more scaling factors (266). The field service device processor (282) is configured to obtain pre-replacement operationally-derived values (252a), obtain post-replacement operationally-derived values (252b) after an old processing system has been replaced with a replacement processing system, generate the one or more scaling factors (266) as a ratio of one or more pre-replacement operationally-derived values (252a) to one or more post-replacement operationally-derived values (252b), and download the one or more scaling factors (266).