Source: https://patents.google.com/patent/US20080006006A1/en
Timestamp: 2018-09-23 03:49:31
Document Index: 218588102

Matched Legal Cases: ['art 09', 'art 09', 'art 05', 'art 02', 'art 07', 'art 05', 'art 03']

US20080006006A1 - System for the Placement of Modular Fill Material Forming Co-Joined Assemblies - Google Patents
System for the Placement of Modular Fill Material Forming Co-Joined Assemblies Download PDF
US20080006006A1
US20080006006A1 US11572203 US57220305A US2008006006A1 US 20080006006 A1 US20080006006 A1 US 20080006006A1 US 11572203 US11572203 US 11572203 US 57220305 A US57220305 A US 57220305A US 2008006006 A1 US2008006006 A1 US 2008006006A1
US11572203
US8181418B2 (en )
Bradley Barnet
Donald Dworkes
ThermoFormed Block Corp
E04G21/142—Means in or on the elements for connecting same to handling apparatus
E04G21/167—Tools or apparatus specially adapted for working-up plates, panels or slab shaped building elements
E04G21/26—Strutting means for wall parts; Supports or the like, e.g. for holding in position prefabricated walls
E04B2002/8688—Scaffoldings or removable supports therefor
When compared to traditional building methods, such as wood framing, the use of insulating concrete forms offers many attractive advantages. Building structures made out of concrete typically are more durable and long-lasting than their non-concrete counterparts. This can be an important consideration in areas prone to natural events such as hurricanes or earthquakes. Concrete building structures also may require a reduced time and cost for maintenance than building structures made using other types of building methods. In the case of insulating concrete forms, the insulating properties of the form add further benefits such as increased energy efficiency and noise reduction within the interior of the building structure. Further, the popularity of this kind of building method may only increase as advances are made in the state of the art. For example, concrete and insulating forms may no longer be required as other methods of insulation may be developed.
FIG. 3 shows a perspective view of a modular fill material forming cojoined assembly attached to an aerial conveyance device.
Referring now primarily to FIG. 2, in some embodiments of the invention, at least two fill material forms may be joined to create a modular fill material forming co-joined assembly (10). In some applications, a modular fill material forming co-joined assembly (10) may be joined at a remote location. A remote location may be a location that is distant from a ground location and a placement location, perhaps even a factory site. A factory site may be a site at which forming panels and fill material forms are fabricated.
A modular fill material forming co-joined assembly (10) joined at a remote location further may be transported from a remote location to a ground location. A ground location may be a location at a building structure site of a modular fill material forming co-joined assembly (10) prior to lifting a modular fill material forming co-joined assembly (10) and transporting a modular fill material forming co-joined assembly (10) to a placement location. A building structure site may be a site at which a building structure is constructed. Under some circumstances, a modular fill material forming co-joined assembly (10) also may be joined at a ground location, perhaps at the building structure site.
In certain embodiments of the invention, a brace attachment element (23) may be affixed to a modular fill material forming co-joined assembly (10) in a continuously repositionable location. A continuously repositionable location may be a location the position of which may be moved and perhaps secured in any incremental position without requiring movement in discrete quantities. It may be that an exposed rail (24) may be joined to a modular fill material forming co-joined assembly (10), and a brace attachment element (23) may be configured for a slide engagement of exposed rail (24). Such a brace attachment element (23) may be established as a slide engagement brace attachment element. An opening may be established on brace attachment element (23), through which a locking element (26) may be placed. A locking element (26) placed through an opening may act to lock brace attachment element (23) in a particular position to exposed rail (24). A locking element (26) may be a screw. A locking element (26) that is a screw may be a self-tapping screw. Under some circumstances, a brace attachment element (23) may be locked in place by a self-tapping screw that is embedded in exposed rail (24). A self-tapping screw may even penetrate through an exposed rail (24) and a first forming panel (1), embedding itself in a second forming panel (2).
In some applications, a brace (27) may be attached to brace attachment element (23). A brace (27) may be a kicker (29). Under some circumstances, a brace (27) may be attached to brace attachment element (23) through a pivot point (28). A brace (27) also may be anchored to an anchor location. In some embodiments of the invention it may be that subsequent to anchoring brace (27) at an anchor location, brace attachment element (23) may be continuously repositioned to a desired location established on a modular fill material forming co-joined assembly (10) and locked down at a desired location using locking element (26). A desired location may be a location at which a modular fill material forming co-joined assembly (10) may be in a plumb position. It also may be that a brace (27) anchored to an anchor location and attached to brace attachment element (23) locked at a desired location may support a modular fill material forming co-joined assembly (10).
KIND CODE (if PUB'N DATE PATENTEE OR FILING DATE
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establishing at least two fill material forms, each said fill material form having at least a first forming panel and at least a second forming panel arranged in substantially opposed parallel orientation, a space formed between said at least first forming panel and said at least second forming panel, and at least one connection element joined to said first forming panel and said second forming panel;
affixing a brace attachment element joined to said modular fill material forming co-joined assembly in a continuously repositionable location;
joining a brace to said brace attachment element;
supporting said modular concrete forming structure with said brace;
23. A modular fill material forming co-joined assembly placement system, comprising:
a fill material form having at least one connection element joined to at least said first forming panel and at least said second forming panel;
a brace attachment element affixed in a continuously repositionable location joined to said modular fill material forming co-joined assembly;
a brace attached to said brace attachment element;
24. A modular fill material forming co-joined assembly placement system as described in claim 23, further comprising an aerial conveyance device having at least one lift attachment element.
25. A modular fill material forming co-joined assembly placement system as described in claim 24, wherein said aerial conveyance device comprises an aerial conveyance device selected from the group consisting of a crane, elevator, lift, pulley, aircraft, or lifting system.
26. A modular fill material forming co-joined assembly placement system as described in claim 24, wherein said lift attachment element comprises a lift attachment element selected from the group consisting of a hook, clasp, ring, tong, frictional surface, weld, tie, strap, mechanical fastener, or connector.
27. A modular fill material forming co-joined assembly placement system as described in claim 23, wherein said connection element comprises a rigid tie.
28. A modular fill material forming co-joined assembly placement system as described in claim 23, wherein said connection element comprises a flexible tie.
29. A modular fill material forming co-joined assembly placement system as described in claim 27, wherein said flexible tie comprises a flexible tie adapted to permit at least one said fill material form to be collapsed.
30. A modular fill material forming co-joined assembly placement system as described in claim 23, wherein said lift securement element comprises a lift securement element selected from the group consisting of a hook, clasp, ring, frictional surface, weld, tie, strap, mechanical fastener, or connector.
31. A modular fill material forming co-joined assembly placement system as described in claim 23, wherein said lift securement element comprises a reinforcement member placed within at least one said space.
32. A modular fill material forming co-joined assembly placement system as described in claim 23, further comprising at least one reinforcement member placed within said space.
33. A modular fill material forming co-joined assembly placement system as described in claim 32, wherein said at least one reinforcement member comprises a steel reinforcement bar.
34. A modular fill material forming co-joined assembly placement system as described in claim 23, further comprising a securement integrity system established on said modular fill material forming co-joined assembly.
35. A modular fill material forming co-joined assembly placement system as described in claim 23, further comprising at least one exposed rail joined to said modular fill material forming co-joined assembly.
36. A modular fill material forming co-joined assembly placement system as described in claim 35, wherein said brace attachment element comprises a slide engagement brace attachment element joined to said exposed rail.
37. A modular fill material forming co-joined assembly placement system as described in claim 23, wherein said brace attachment element is adapted for rapid deployment.
38. A modular fill material forming co-joined assembly placement system as described in claim 37, wherein said rapid deployment comprises a period of time selected from the group consisting of about 90 seconds, about 2 minutes, about 3 minutes, about 5 minutes, or about 10 minutes.
39. A modular fill material forming co-joined assembly placement system as described in claim 23, further comprising a fill material poured within at least said space of said fill material form.
40. A method of placing modular fill material forming co-joined assemblies, comprising the steps of:
placing said modular fill material forming co-joined assembly oriented in said placement orientation in said placement location while said at least one lift attachment element of said aerial conveyance device is connected to said at least one lift securement element of said modular fill material forming co-joined assembly; and
disconnecting said at least one lift attachment element of said aerial conveyance device from said at least one lift securement element of said modular fill material forming co-joined assembly.
41-96. (canceled)
97. A modular fill material forming co-joined assembly placement system, comprising:
at least one lift securement element established on said modular fill material forming co-joined assembly adapted to be positioned to correlate with said axis of lift for said centroid of said modular fill material forming co-joined assembly.
98-137. (canceled)
138. A method of placing modular fill material forming co-joined assemblies as described in claim 40, further comprising the step of affixing a brace attachment element joined to said modular fill material forming co-joined assembly in a continuously repositionable location.
139-151. (canceled)
152. A modular fill material forming co-joined assembly placement system as described in claim 97, further comprising a brace attachment element affixed in a continuously repositionable location joined to said modular fill material forming co-joined assembly.
153-165. (canceled)
166. A method of placing modular fill material forming co-joined assemblies as described in claim 40, further comprising the steps of:
joining at least one enclosure connection element to said outer enclosure forming panel and said inner enclosure forming panel.
167-199. (canceled)
200. A modular fill material forming co-joined assembly placement system as described in claim 97, further comprising:
at least one enclosure connection element joined to said outer enclosure forming panel and said inner enclosure forming panel;
201-221. (canceled)
222. A method of placing modular fill material forming co-joined assemblies as described in claim 40, further comprising the step of pouring a fill material into at least one said space after said step of placing said modular fill material forming co-joined assembly.
223. A method of placing modular fill material forming co-joined assemblies as described in claim 222, wherein said fill material comprises concrete.
224. A method of placing modular fill material forming co-joined assemblies as described in claim 222, further comprising creating a hardened form made of substantially said fill material.
225. A method of placing modular fill material forming co-joined assemblies as described in claim 224, wherein said hardened form is a wall.
226. A method of placing modular fill material forming co-joined assemblies as described in claim 224, further comprising creating a building structure having at least one said hardened form as a component.
227. A method of placing modular fill material forming co-joined assemblies as described in claim 224, further comprising removing said modular fill forming structure from said hardened form.
228. A modular fill material forming co-joined assembly placement system as described in claim 97, further comprising a fill material poured within at least said space of said fill material form.
229. A modular fill material forming co-joined assembly placement system as described in claim 228, wherein said fill material comprises concrete.
230. A modular fill material forming co-joined assembly placement system as described in claim 228, further comprising a hardened form made of substantially said fill material.
231. A modular fill material forming co-joined assembly placement system as described in claim 230, wherein said hardened form is a wall formed by said modular fill material forming co-joined assembly.
232. A modular fill material forming co-joined assembly placement system as described in claim 230, further comprising a building structure having at least one said hardened form as a component.
US11572203 2004-07-15 2005-07-15 System for the placement of modular fill material forming co-joined assemblies Active 2029-01-15 US8181418B2 (en)
US10/893,593 2004-07-15
US10893593 US20040226259A1 (en) 2004-07-15 2004-07-15 System for the placement of modular fill material forming co-joined assemblies
PCT/US2005/025315 WO2006020143A3 (en) 2004-07-15 2005-07-15 System for the placement of modular fill material forming co-joined assemblies
US11572203 US8181418B2 (en) 2004-07-15 2005-07-15 System for the placement of modular fill material forming co-joined assemblies
US20080006006A1 true true US20080006006A1 (en) 2008-01-10
US8181418B2 US8181418B2 (en) 2012-05-22
ID=33419051
US10893593 Abandoned US20040226259A1 (en) 2004-07-15 2004-07-15 System for the placement of modular fill material forming co-joined assemblies
US11572203 Active 2029-01-15 US8181418B2 (en) 2004-07-15 2005-07-15 System for the placement of modular fill material forming co-joined assemblies
US13473402 Expired - Fee Related US8522506B2 (en) 2004-07-15 2012-05-16 System for the placement of modular fill material forming co-joined assemblies
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EP (1) EP1794386A2 (en)
JP (1) JP2008506869A (en)
CN (1) CN101072920B (en)
CA (1) CA2576968A1 (en)
WO (1) WO2006020143A3 (en)
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Owner name: THERMOFORMED BLOCK CORP., COLORADO
Free format text: NUNC PRO TUNC ASSIGNMENT;ASSIGNORS:BARNET, ROBERT T.;BARNET, BRADLEY J.;SIGNING DATES FROM 20050713TO 20050714;REEL/FRAME:026658/0826