Composite siding with improved interlaced end-grain corner configuration and false chinking joint
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04F-013/10
E04B-002/70
출원번호
US-0632909
(2012-10-01)
등록번호
US-9284736
(2016-03-15)
발명자
/ 주소
Preuss, Gunter
출원인 / 주소
Preuss, Gunter
대리인 / 주소
Santangelo Law Offices, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
34
초록▼
The invention relates to a composite siding system with interlaced end-grain corner configuration that more accurately simulates the appearance of solid or shaped wood log siding. The invention provides for a series of alternating horizontal siding elements which may be joined to a pre-constructed s
The invention relates to a composite siding system with interlaced end-grain corner configuration that more accurately simulates the appearance of solid or shaped wood log siding. The invention provides for a series of alternating horizontal siding elements which may be joined to a pre-constructed structure utilizing an improved interlaced end-grain corner configuration. The inventive technology specifically describes a composite siding panel system with an improved interlaced end-grain corner configuration having an internally securable fitted corner joint connection. Additionally, the invention describes a composite siding panel system with a false chinking joint as well as modifications to mitigate moisture expansion type joint damage.
대표청구항▼
1. A composite siding panel with improved interlaced end-grain corner configuration comprising: a plurality of siding panels having: an external panel surface configured to present a solid planar wood log siding;an internal panel surface configured to be joined to a pre-existing surface through a si
1. A composite siding panel with improved interlaced end-grain corner configuration comprising: a plurality of siding panels having: an external panel surface configured to present a solid planar wood log siding;an internal panel surface configured to be joined to a pre-existing surface through a siding panel stacking attachment; andat least one integral tapered interlaced joint element having no end-grain presentation;at least one terminal facade cap presenting an continuous end-grain surface perpendicularly secured to said tapered interlaced joint element forming a continuous interlaced joint surface wherein said integral tapered interlaced joint elements are physically interlaced one with another such that said continuous end-grain surface is alternatively presented when composite siding panels are stacked forming said interlaced end-grain corner joint configuration; andan integral fitted miter joint securing said terminal facade cap presenting an continuous end-grain surface perpendicularly to said tapered interlaced joint element;wherein said terminal façade caps each presenting said continuous end-grain surface are alternatingly stacked to create an outwardly extending interlaced end-grain corner joint configuration where said terminal façade caps completely extend past adjacent stacked external panel surfaces. 2. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said siding panel comprises a siding panel selected from the group consisting of: wood siding panel, plywood siding panel, plywood-wood hybrid siding panel, synthetic siding panel wood, and wood plastic composite. 3. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 2 wherein said wood plastic composite comprises a wood-plastic composite wherein the plastic portion of said composite is selected from the group consisting of: high-density polyethylene, low-density polyethylene, polyvinyl chloride (PVP), polypropylene (PP), acrylonitrile butadiene styrene (ABS), polystyrene (PS), polylactic acid (PLA), thermoplastic, and recycled thermoplastic. 4. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said tapered interlaced joint element comprises a tapered panel terminus. 5. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said tapered interlaced joint element comprises an interior edge guide. 6. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 and further comprising at least one internal corner joint fastener. 7. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 6 wherein said internal corner joint fastener comprises at least one slide fastener. 8. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 7 wherein said slide fastener comprises at least one recessed slide connector. 9. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said siding panel stacking attachment comprises at least one non-integral siding panel stacking attachment secured to a pre-existing surface. 10. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said siding panel stacking attachment comprises at least one surface attachment element. 11. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said siding panel stacking attachment comprises a grooved attachment. 12. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 1 wherein said integral fitted miter joint comprises at least one shaped integral protrusion and corresponding groove on said terminal façade cap and said tapered interlaced joint element. 13. A composite siding with a false chink joint comprising: at least one composite siding panel having: an external panel surface configured to present a solid planar wood log siding;an internal panel surface configured to be joined to a pre-existing surface;at least one integral tapered interlaced joint element having no end-grain presentation; andat least one lateral attachment channel;at least one terminal facade cap presenting an continuous end-grain surface perpendicularly secured to said tapered interlaced joint element forming a continuous interlaced joint surface wherein said integral tapered interlaced joint elements are physically interlaced one with another such that said continuous end-grain surface is alternatively presented when composite siding panels are stacked forming said interlaced end-grain corner joint configuration;a integral fitted miter joint securing said terminal facade cap presenting an continuous end-grain surface perpendicularly to said tapered interlaced joint element;at least one false chink joint insert having: at least one false chink joint insert attachment configured to be secured into said lateral attachment channel of said composite siding panel securing composite siding panels; anda false chinking joint surface externally presented between said joined composite siding panels; andat least one layer of elastomeric material affixed to the external surface of said false chinking joint surface externally presenting the appearance of a chink joint;wherein said terminal façade caps each presenting said continuous end-grain surface are alternatingly stacked to create an outwardly extending interlaced end-grain corner joint configuration where said terminal façade caps completely extend past adjacent stacked external panel surfaces. 14. A composite siding with a false chinking joint as described in claim 13 wherein said elastomeric material comprises elastomeric material selected from the group consisting of: epoxy, putty, caulk, insulating material, paint, elastomeric paint, elastomeric coating, rubber, saturated rubber, unsaturated rubber, thermoplastic, and elastomeric caulk. 15. A composite siding panel with improved interlaced end-grain corner configuration as described in claim 13 wherein said integral fitted miter joint comprises at least one shaped integral protrusion and corresponding groove on said terminal façade cap and said tapered interlaced joint element. 16. A pliant false chink joint comprising: at least one siding panel having at least one lateral attachment channel,at least one false chink joint insert having: a false chink joint insert attachment wherein said attachment is configured to be secured into said lateral attachment channel; anda false chink joint surface externally presented between joined composite siding panels;at least one layer of non-adhesive material affixed to the surface of the lateral edges of said false chink joint insert attachment; andat least one layer of elastomeric material affixed to the external surface of said false chinking joint surface wherein elastomeric material does not adhere to said non-adhesive material affixed to the surface of the lateral edges of said false chink joint insert attachment forming a partially detached elastomeric surface along the lateral edges of said false chink joint insert attachment corresponding with the placement of said non-adhesive material wherein said non-adhesive material is configured to become detached from said elastomeric material in response to expansion and/or contraction of said siding panel or said false chink joint insert attachment. 17. A pliant false chink joint as described in claim 16 wherein said elastomeric material comprises elastomeric material selected from the group consisting of: epoxy, putty, caulk, insulating material, paint, elastomeric paint, elastomeric coating, rubber, saturated rubber, unsaturated rubber, thermoplastic, and elastomeric caulk. 18. A pliant false chink joint as described in claim 16 wherein said non-adhesive material comprises non-adhesive material selected from the group consisting of: biaxially-oriented polyethylene terephthalate, polytetrafluoroethylene coating, polytetrafluoroethylene tape, tape, degradable coating, silicone, fluorocarbon coating, nylon, bio-degradable coating, water-degradable coating, plastic coating, and rubber. 19. A pliant false chink joint as described in claim 16 wherein said non-adhesive material comprises at least one non-adhesive biaxially-oriented polyethylene terephthalate strip.
Kroll Richard E. (West Warwick RI) Tamburrini Vincent (West Warwick RI) Hansen Frederick M. (Ontario CAX), Insulative wall cladding having insulation boards fitting together to form channels.
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