An insulated glass unit (IGU) assembly station can include an assembly table, a conveyor assembly, and a projection component. The assembly table can have a table surface configured to receive first and second transparent window components, the table surface being positioned at an incline relative t
An insulated glass unit (IGU) assembly station can include an assembly table, a conveyor assembly, and a projection component. The assembly table can have a table surface configured to receive first and second transparent window components, the table surface being positioned at an incline relative to a vertical position. The conveyor assembly can be configured to translate the first and second transparent window components along a translation pathway from a first end of the table surface to a second end of the table surface, the translation pathway being substantially parallel to the table surface. The projection component can be adjacent to the assembly table and can be configured to engage the first transparent window component to translate at least a bottom portion of the first transparent window component between an initial position and a first assembly position offset from the translation pathway.
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1. An insulated glass unit (IGU) assembly station comprising: an assembly table defining a planar table surface that is configured to receive first and second transparent window components, the table surface being positioned at an incline relative to a vertical direction that is perpendicular to a g
1. An insulated glass unit (IGU) assembly station comprising: an assembly table defining a planar table surface that is configured to receive first and second transparent window components, the table surface being positioned at an incline relative to a vertical direction that is perpendicular to a ground surface; a conveyor assembly arranged approximately parallel to the ground surface and configured to (i) contact bottom edges of the first and second transparent window components and (ii) translate the first and second transparent window components along a translation pathway from a first end of the table surface to a second end of the table surface, the translation pathway being substantially parallel to the table surface; and a projection component adjacent to the assembly table and configured to engage the first transparent window component to translate at least a bottom portion of the first transparent window component between an initial position and a first assembly position offset from the translation pathway,wherein the projection component movably translates back and forth substantially perpendicular to the table surface movably offsetting the conveyor assembly. 2. The IGU assembly station of claim 1, wherein the projection component has a receiving surface between first and second edges, the receiving surface being configured to receive a bottom edge of the first transparent window component, wherein the projection component further includes an extension surface configured to merge with the translation pathway upon extension of the projection component to the first assembly position. 3. The IGU assembly station of claim 2, further comprising a press bar extending substantially across the table surface and translatable both substantially parallel to the table surface and substantially perpendicular to the table surface, the press bar being configured to both push a front surface of the first transparent window component and support a back surface of the first transparent window component. 4. The IGU assembly station of claim 3, wherein the conveyor assembly is configured to translate the second transparent window component to a second assembly position where the second transparent window component is substantially parallel to the table surface and behind the first transparent window component after the first transparent window component is extended to the first assembly position, wherein the second transparent window component has a spacer frame attached thereto. 5. The IGU assembly station of claim 4, wherein in response to the conveyor assembly translating the second transparent window component to the second assembly position, the press bar is configured to push against the front surface of the first transparent window component to connect at least a top portion of the first transparent window component to at least a top portion of the spacer frame to form a partially-mated IGU. 6. The IGU assembly station of claim 5, wherein the partially-mated IGU includes a gap between the bottom portion of the first transparent window component and a bottom portion of the spacer frame for receiving gas to form a gas-filled IGU. 7. The IGU assembly station of claim 4, wherein the assembly table has a groove through the table surface, wherein the press bar includes a finger extending from the press bar towards the table surface, wherein the finger is configured to be received by the groove at the initial position of the first transparent window component, and wherein the finger is configured to engage a top edge of the first transparent window component and to support the back surface of the first transparent window component when the first transparent window component is offset from the table surface at the first assembly position. 8. The IGU assembly station of claim 7, wherein in response to the conveyor assembly translating the second transparent window component to the second assembly position, the finger is configured to disengage the top edge of the first transparent window component and the press bar is configured to push against the front surface of the first transparent window component to connect at least a top portion of the first transparent window component to at least a top portion of the spacer frame to form a partially-mated IGU. 9. The IGU assembly station of claim 8, wherein the partially-mated IGU includes a gap between the bottom portion of the first transparent window component and a bottom portion of the spacer frame for receiving gas to form a gas-filled IGU. 10. The IGU assembly station of claim 3, wherein the conveyor assembly is configured to translate the second transparent window component and a third transparent window component to a second assembly position where the second and third transparent window components are substantially parallel to the table surface and behind the first transparent window component after the first transparent window component is extended to the first assembly position, wherein the second and third transparent window components have one or more spacer frames attached thereto. 11. The IGU assembly station of claim 10, wherein in response to the conveyor assembly translating the second and third transparent window components to the second assembly position, the press bar is configured to push against the front surface of the first transparent window component to connect at least a top portion of the first transparent window component to at least a top portion of one of the one or more spacer frames to obtain a partially-mated IGU. 12. The IGU assembly station of claim 11, wherein the partially-mated IGU includes a gap between the bottom portion of the first transparent window component and a bottom portion of the one of the one or more spacer frames for receiving gas to form a gas-filled IGU. 13. The IGU assembly station of claim 10, wherein the assembly table has a groove through the table surface, wherein the press bar includes a finger extending from the press bar towards the table surface, wherein the finger is configured to be received by the groove at the initial position of the first transparent window component, and wherein the finger is configured to engage a top edge of the first transparent window component and to support the back surface of the first transparent window component when the first transparent window component is offset from the table surface at the first assembly position. 14. The IGU assembly station of claim 13, wherein in response to the conveyor assembly translating the second and third transparent window components to the second assembly position, the finger is configured to disengage the top edge of the first transparent window component and the press bar is configured to push against the front surface of the first transparent window component to connect at least a top portion of the first transparent window component to at least a top portion of one of the one or more spacer frames to obtain a partially-mated IGU. 15. The IGU assembly station of claim 14, wherein the partially-mated IGU includes a gap between the bottom portion of the first transparent window component and a bottom portion of the one of the one or more spacer frames for receiving gas to form a gas-filled IGU. 16. The IGU assembly station of claim 1, further comprising a press bar translatable both substantially parallel to the table surface and substantially perpendicular to the table surface, the press bar being configured to both push a front surface of the first transparent window component and support a back surface of the first transparent window component. 17. The IGU assembly station of claim 1, wherein the table surface defines a groove therethrough and the press bar further includes a finger extending from the press bar towards the table surface, wherein the finger is configured to be received by the groove at the initial position of the first transparent window component and to both (i) engage a top edge of the first transparent window component and (ii) support the back surface of the first transparent window component when the first transparent window component is offset from the table surface at the first assembly position. 18. An assembly system for an insulated glass unit (IGU), the system comprising: an assembly table defining a planar table surface arranged at an incline with respect to a ground surface and configured to at least partially support first and second transparent window components;a conveyor assembly configured to translate the first and second transparent window panes along a translation pathway that is approximately parallel to the table surface; anda slide roller arranged in the translation pathway and defining a recessed receiving surface configured to receives a bottom edge of the first and second transparent window panes,wherein the slide roller is extendable and retractable in an offset direction approximately perpendicular to the table surface and the translation pathway to translate at least a bottom portion of one of the first and second transparent window panes in the offset direction to a position offset from the translation pathway. 19. The system of claim 18, further comprising a press bar configured to contact both front and back surfaces of the first transparent window pane and to translate at least an upper portion of the first transparent window pane in the offset direction to another offset position. 20. The system of claim 19, wherein: the first and second transparent window panes are sequentially translated along the translation pathway and the second transparent window pane includes a spacer frame attached about its perimeter;the conveyor assembly is configured to translate the second transparent window component with the spacer frame attached thereto to a position between the table surface and the first transparent window component; andthe press bar is further configured to press the front surface of the first transparent window pane and the slide roller is configured to retract to its initial, nonoffset position such that the first transparent window pane contacts the spacer frame.
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이 특허에 인용된 특허 (35)
Wallis Bernard J. (2115 Dacosta Dearborn MI 48128), Apparatus for controlling height of corrugations formed in a continuous length of strip stock.
Lisec Pater (Bahnhofstrasse 34 A-3363 Amstetten-Hausmening ATX), Apparatus for the production of spacer frames for insulating glass panes from hollow profile strips.
Zhu Yuntian T. ; Lowe Terry C. ; Jiang Honggang ; Huang Jianyu, Method for producing ultrafine-grained materials using repetitive corrugation and straightening.
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