Process and energy director for welding and joint produced thereby
First Claim
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1. A process for joining first and second pieces together, the second piece having first and second sides, the process comprising:
- providing on the first piece an energy director comprising first and second ridges running substantially parallel to each other, and a groove running between the first and second ridges, wherein the first ridge has a first side adjacent the groove and a second side opposite the groove, wherein the first ridge'"'"'s first side is steeper than the first ridge'"'"'s second side;
placing the energy director against the first side of the second piece;
placing an energy horn against the second side of the second piece opposite the energy director; and
applying energy to the horn so as to thermoplastically weld the two pieces together.
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Abstract
A process and an energy director are provided for thermoplastically welding a rigid thermoplastic, such as acrylic, and a flexible thermoplastic, such a polyvinyl chloride (PVC) doped with plasticizers. The rigid piece includes an energy director where the joint is to be located. The energy director includes first and second ridges running the length of the joint and a groove running between the first and second ridges. The energy director is placed against one side of the flexible piece, and an energy horn against the other side opposite the energy director. The two pieces are then welded together using standard thermoplastic welding technology. The shape of the energy director promotes the melting and flow of both pieces as they are being welded together.
78 Citations
23 Claims
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1. A process for joining first and second pieces together, the second piece having first and second sides, the process comprising:
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providing on the first piece an energy director comprising first and second ridges running substantially parallel to each other, and a groove running between the first and second ridges, wherein the first ridge has a first side adjacent the groove and a second side opposite the groove, wherein the first ridge'"'"'s first side is steeper than the first ridge'"'"'s second side; placing the energy director against the first side of the second piece; placing an energy horn against the second side of the second piece opposite the energy director; and applying energy to the horn so as to thermoplastically weld the two pieces together. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A process for joining first and second pieces together, the second piece having first and second sides, the process comprising:
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providing on the first piece and energy director comprising first and second ridges running substantially parallel to each other, and a groove running between the first and second ridges, wherein the energy director is located at the end of a wall, the wall having a side, and wherein the second ridge has aside opposite the groove that slopes all the way down to the side of the wall, wherein the energy director further includes a ledge adjacent the side of the first ridge opposite the groove, wherein the side of the second ridge opposite the groove slopes down to a point below the ledge; placing the energy director against the first side of the second piece; placing an energy horn against the second side of the second piece opposite the energy director; and applying energy to the horn so as to thermoplastically weld the two pieces together. - View Dependent Claims (14, 15, 16, 17, 18)
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19. An energy director for use on a surface which is to be thermoplastically welded to a second piece of thermoplastic material, the surface having a length, the energy director comprising:
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a first ridge running the length of the surface; a second ridge running the length of the surface and substantially parallel to the first ridge; a groove running the length of the surface between the first and second ridges, wherein the energy director is made of thermoplastic material, wherein both the first and second ridges have a first side adjacent the groove and a second side opposite the groove the first side of both ridges directly face each other across the groove, wherein the first ridge'"'"'s first side is steeper than the first ridge'"'"'s second side, wherein the second ridge'"'"'s first side is steeper than the second ridge'"'"'s second side, and wherein the ridges and the groove are shaped so as to promote the flow of the thermoplastic material toward the groove during thermoplastic welding.
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20. A joint connecting a thermoplastic flexible membrane, having first and second surfaces, the first and second surfaces being parallel to each other, and a thermoplastic rigid material, formed from the process of:
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providing on the rigid material an energy director comprising first and second ridges running substantially parallel to each other, and a groove running between the first and second ridges, wherein the first ridge has a first side adjacent the groove and a second side opposite the groove, wherein the first ridge'"'"'s first side is steeper than the first ridge'"'"'s second side, placing an energy horn against the first surface of the membrane; placing the energy director against the second surface of the membrane opposite the energy horn; and applying energy to the horn so as to thermoplastically weld the membrane and the rigid material together, wherein, in the welded joint, the rigid material has first and second protrusions corresponding to the first and second ridges, with the groove between said first and second protrusions running along the length of the joint, and wherein, in the welded joint, the first surface of the flexible membrane faces away from the rigid material and being unsupported, and the second surface of the flexible membrane faces towards the rigid material and has a protrusion extending into the rigid material'"'"'s groove.
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21. A joint connecting a thermoplastic flexible membrane and a thermoplastic rigid material,
wherein the rigid material has a rigid base, first and second protrusions extending from said rigid base, and a groove between said first and second protrusions running along the length of the joint, and wherein the flexible membrane has first and second surfaces, the first surface facing away from the rigid material and being unsupported, the second surface facing towards the rigid base and having a protrusion extending into the rigid material'"'"'s groove, the flexible membrane and the rigid material having been thermoplastically welded together, and wherein a portion of the rigid material'"'"'s first protrusion overlaps some of the flexible membrane'"'"'s protrusion in the rigid material'"'"'s groove so that a portion of the flexible membrane is between the first protrusion and the rigid base and a portion of the first protrusion is between the flexible membrane'"'"'s protrusion and the membrane'"'"'s first surface.
Specification
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Current AssigneeDeka Products Limited Partnership
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Original AssigneeDeka Products Limited Partnership
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InventorsDurand, Kevin A., Vincent, Douglas E.
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Primary Examiner(s)SELLS, JAMES D
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Application NumberUS09/075,031Time in Patent Office585 DaysField of Search156/73.1, 156/580.1, 156/580.2, 264/442, 264/443, 264/445, 403/265, 403/270US Class Current156/73.1CPC Class CodesB29C 65/08 using ultrasonic vibrations...B29C 66/1122 Single lap to lap joints, i...B29C 66/242 said joint lines being clos...B29C 66/30223 said melt initiators being ...B29C 66/30325 making use of cavities belo...B29C 66/53461 joining substantially flat ...B29C 66/71 characterised by the compos...B29C 66/712 the composition of one of t...B29C 66/73921 characterised by the materi...B29C 66/8322 Joining or pressing tools r...B29C 66/9513 characterised by specific v...B29C 66/9516 by controlling their vibrat...B29K 2027/06 PVC, i.e. polyvinylchlorideB29K 2033/08 Polymers of acrylic acid es...B29K 2055/02 ABS polymers, i.e. acryloni...B29K 2069/00 Use of PC, i.e. polycarbona...B29K 2075/00 Use of PU, i.e. polyureas o...Y10T 403/477 Fusion bond, e.g., weld, etc.
