초록 ▼

A filter filters fluid flowing along an axial flow direction and includes a plurality of concentric cylindrical pleated filter elements having a common axis. A plurality of annular radial gaps between filter elements provide additional flow axially through the filter, providing equalized flow and re

A filter filters fluid flowing along an axial flow direction and includes a plurality of concentric cylindrical pleated filter elements having a common axis. A plurality of annular radial gaps between filter elements provide additional flow axially through the filter, providing equalized flow and reducing restriction. In further embodiments, a central filter element is concentrically surrounded by a cylindrical pleated outer filter element and provides additional flow axially therethrough.

대표청구항 ▼

A filter filters fluid flowing along an axial flow direction and includes a plurality of concentric cylindrical pleated filter elements having a common axis. A plurality of annular radial gaps between filter elements provide additional flow axially through the filter, providing equalized flow and re

A filter filters fluid flowing along an axial flow direction and includes a plurality of concentric cylindrical pleated filter elements having a common axis. A plurality of annular radial gaps between filter elements provide additional flow axially through the filter, providing equalized flow and reducing restriction. In further embodiments, a central filter element is concentrically surrounded by a cylindrical pleated outer filter element and provides additional flow axially therethrough. tor system according to claim 1, wherein first terminals each comprise a blade for displacing an insulation of an insulated wire to be contacted. rom a substrate comprising contacting said substrate with a stripping solution for a time sufficient to remove said photoresist from said substrate, wherein said stripping solution consists essentially of: (a) from about 2% to about 45% by weight of one or more dibasic esters having the general formula: R1CO2--(CH2)n--CO2R2 where R1and R2are alkyl groups of 1-4 carbons and n=1-5; (b) from about 1% to about 40% by weight of tetrahydrofurfuryl alcohol or a water soluble alcohol, glycol, glycol ether, or mixtures thereof having the general formula: R--(CHOH)n--R' where R and R' are selected from the group consisting of a hydrogen atom, an alkyl group of 1 to 7 carbon atoms, and an alkoxyl group of 1 to 4 carbon atoms, n=1-3; (c) from about 2% to about 35% by weight of an organic solvent selected from the group consisting of dimethyl sulfoxide, n-hydroxethyl-pyrrolidinone, n-methyl pyrrolidinone, sulfolane, and mixtures thereof; and (d) from about 5% to about 60% by weight deionized water; and (e) from about 5% to about 60% by weight of an amine selected from the group consisting of monoethanolamine, monoisopropanolamine, aminoethylethanolamine, diglycolamine, and mixtures thereof. lling to obtain a wheel profile that approximates a finished wheel, and a final wheel treatment process. The rolling is conducted from either side of the wheel block, which may comprise any granular microstructure. Rolling temperature-strain rate conditions correspond to the microstructure. For a coarse-grain microstructure, the rim includes a shoulder with a thickness greater than that of the finished wheel, and thickness differences transform the microstructure into a recrystallized and/or polygonized microstructure. For a fine-grain microstructure, the rim includes a shoulder or flange with a thickness close to a thickness of a finished wheel. For mixed microstructures, the rim includes a shoulder and has a thickness greater or equal to a finished wheel. iving a second optoclectronic module and a second connector mounting space; a second electrical connector received in the second connector mounting space and having second fastening ribs adapted for mating with corresponding receiving slots defined in inner walls of the side beams of the second frame; wherein the first and second guide rails further include a first and second metallic cover, each forming a hook, and the first and second electrical connectors each includes an ear portion adapted to engage with the hook of the corresponding metallic cover. ing hole, the second connector including an angled connector hood angled with respect to a connector axis of connection between the first and second connectors, the method comprising the steps of: providing a retainer including: a base, the base defining a hole; a post extending from the base; a tapered ledge disposed on the post, the ledge being tapered in a direction away from the base so that the ledge has a first ramped surface at an angle relative to and facing away from the base, and a second retaining surface facing the base; securing the retainer to the first mounting tab of the first connector with a fastener through the hole in the base of the retainer and through the mounting hole in the first tab of the first connector; connecting the second connector to the first connector such that the first tab of the second connector is captured between the second retaining surface of the ledge of the retainer and the base of the retainer, wherein the angled connector hood blocks access to the mounting hole of the first tab; securing the second tab of the second connector to the second tab of the first connector with a fastener inserted through the hole of the second tab of the second connector and through the hole of the second tab of the first connector. 6. The method of claim 5 wherein the step of securing the retainer to the first mounting tab includes the step of securing a mounting bracket between the first mounting tab of the first connector and the retainer. 7. The method of claim 6 wherein the step of securing the retainer further includes the step of positioning a linear cleat of the retainer in a window of the mounting bracket having a linear edge sized to mate with the linear cleat. 8. A cable connector assembly comprising: a connector having a first end defining a receptacle sized for receiving a mating connector, the connector defining first and second connector holes which are spaced apart and separated by the receptacle; a mounting bracket defining a bracket window receiving the first end of the connector, the mounting bracket defining first and second bracket holes sized and spaced to overlap the first and second connector holes in the connector respectively; a retainer including: a base defining a retainer hole; a post extending from the base; a ledge disposed on the post, the ledge having a first ramp surface at an angle relative to and facing away from the base, the ledge having a second surface facing the base to retain the corresponding mating connector; wherein the retainer is oriented relative to the mounting bracket and connector such that the retainer hole overlaps the first bracket hole and the first connector hole; wherein the retainer further comprises a cleat extending from the base in a direction opposite the post; and wherein the cleat is a linear strip along an edge of the base; and further wherein the cleat extends into the window of the mounting bracket along a linear side of the window to prevent the retainer from rotating relative to the mounting bracket; and a fastener disposed through the retainer hole, through the first bracket hole, and into the first connector hole, thereby securing the retainer to the mounting bracket from a first side of the mounting bracket and securing the connector to the mounting bracket from a second side of the mounting bracket opposite the first side. 9. A cable connector assembly comprising: a connector having a first end defining a receptacle sized for receiving a mating connector, the connector defining first and second connector holes which are spaced apart and separated by the receptacle; a mounting bracket defining a bracket window receiving the first end of the connector, the mounting bracket defining first and second bracket holes sized and spaced to overlap the first and second connector holes in the connector respectively; a retainer including: a base defining a retainer hole; a post extending from the base; a ledg e disposed on the post, the ledge having a first ramp surface at an angle relative to and facing away from the base, the ledge having a second surface facing the base to retain the corresponding mating connector; wherein the retainer is oriented relative to the mounting bracket and connector such that the retainer hole overlaps the first bracket hole and the first connector hole; and a fastener disposed through the retainer hole, through the first bracket hole, and into the first connector hole, thereby securing the retainer to the mounting bracket from a first side of the mounting bracket and securing the connector to the mounting bracket from a second side of the mounting bracket opposite the first side; a mating connector having a first end defining a mating portion received by the receptacle of the connector, the mating connector including a first mounting tab and a second mounting tab separated from the first mounting tab by the mating portion, the mounting tabs defining first and second mounting holes respectively wherein the mounting holes are spaced to overlap the bracket holes and the connector holes when the mating portion is received by the receptacle; and wherein the first mounting tab is retained by the ledge of the retainer so that the mating connector remains in conductive contact with the connector; and a retaining fastener passing through the second mounting hole, and through the second bracket hole, and in alignment with the second connector hole; wherein the retainer further comprises a cleat extending from the base in a direction opposite the post; and wherein the cleat is a linear strip along an edge of the base; and further wherein the cleat extends into the window of the mounting bracket along a linear side of the window to prevent the retainer from rotating relative to the mounting bracket. 10. A cable connector assembly comprising: a connector having a first end defining a receptacle sized for receiving a mating connector, the connector defining first and second connector holes which are spaced apart and separated by the receptacle; a mounting bracket defining a bracket window receiving the first end of the connector, the mounting bracket defining first and second bracket holes sized and spaced to overlap the first and second connector holes in the connector respectively; a retainer including: a base defining a retainer hole; a post extending from the base; a ledge disposed on the post, the ledge having a first ramp surface at an angle relative to and facing away from the base, the ledge having a second surface facing the base to retain the corresponding mating connector; wherein the retainer is oriented relative to the mounting bracket and connector such that the retainer hole overlaps the first bracket hole and the first connector hole; wherein the base of the retainer includes a first end and a second end opposite the first end, and further wherein the tapered ledge is positioned above the first end of the base, and further wherein the post extends from the second end of the base at an angle relative to the base, the angle being an angle other than 90 degrees; and a fastener disposed through the retainer hole, through the first bracket hole, and into the first connector hole, thereby securing the retainer to the mounting bracket from a first side of the mounting bracket and securing the connector to the mounting bracket from a second side of the mounting bracket opposite the first side. 11. A method for retaining a first connector to a second connector, each connector having first and second mounting tabs, each mounting tab defining a mounting hole, the method comprising the steps of: providing a retainer including: a base, the base defining a hole; a post extending from the base; a tapered ledge disposed on the post, the ledge being tapered in a direction away from the base so that the ledge has a first ramped surface at an angle relative to and facing away from the ba se, and a second retaining surface facing the base; securing the retainer to the first mounting tab of the first connector with a fastener through the hole in the base of the retainer and through the mounting hole in the first tab of the first connector, and further including securing a mounting bracket between the first mounting tab of the first connector and the retainer, wherein the step of securing the retainer further includes the step of positioning a linear cleat of the retainer in a window of the mounting bracket having a linear edge sized to mate with the linear cleat; connecting the second connector to the first connector such that the first tab of the second connector is captured between the second retaining surface of the ledge of the retainer and the base of the retainer; securing the second tab of the second connector to the second tab of the first connector with a fastener inserted through the hole of the second tab of the second connector and through the hole of the second tab of the first connector. 12. A cable connector assembly comprising: a connector having a first end defining a receptacle sized for receiving a mating connector, the connector defining first and second connector holes which are spaced apart and separated by the receptacle; a mounting bracket defining a bracket window receiving the first end of the connector, the mounting bracket defining first and second bracket holes sized and spaced to overlap the first and second connector holes in the connector respectively; a retainer including: a base defining a retainer hole; a post extending from the base; a ledge disposed on the post, the ledge having a first ramp surface at an angle relative to and facing away from the base, the ledge having a second surface facing the base to retain the corresponding mating connector; a cleat extending from the base in a direction opposite the post; wherein the retainer is oriented relative to the mounting bracket and connector such that the retainer hole overlaps the first bracket hole and the first connector hole; wherein the cleat extends into the window of the mounting bracket along a side of the window to prevent the retainer from rotating relative to the mounting bracket; and a fastener disposed through the retainer hole, through the first bracket hole, and into the first connector hole, thereby securing the retainer to the mounting bracket from a first side of the mounting bracket and securing the connector to the mounting bracket from a second side of the mounting bracket opposite the first side. 13. The cable connector assembly of claim 12 further comprising: a mating connector having a first end defining a mating portion received by the receptacle of the connector, the mating connector including a first mounting tab and a second mounting tab separated from the first mounting tab by the mating portion, the mounting tabs defining first and second mounting holes respectively wherein the mounting holes are spaced to overlap the bracket holes and the connector holes when the mating portion is received by the receptacle; and wherein the first mounting tab is retained by the ledge of the retainer so that the mating connector remains in conductive contact with the connector; and a retaining fastener passing through the second mounting hole, and through the second bracket hole, and in alignment with the second connector hole. 14. The cable connector assembly of claim 12 wherein the post of the retainer extends at an angle from the base, the angle being an angle other than 90 degrees. 15. The cable connector assembly of claim 12 wherein the base of the retainer includes a firs end and a second end opposite the first end, and further wherein the tapered ledge is positioned above the first end of the base, and further wherein the post extends from the second end of the base at an angle relative to the base, the angle being an angle other than 90 degrees.