초록 ▼

A form for creating cavities within large concrete structures, wherein the formed is created by interconnecting a plurality of section members, the section members having flexible mold skeleton members retaining polymer-aggregate panel members, and wherein the form may be internally pressurized to i

A form for creating cavities within large concrete structures, wherein the formed is created by interconnecting a plurality of section members, the section members having flexible mold skeleton members retaining polymer-aggregate panel members, and wherein the form may be internally pressurized to increase its rigidity and weight-bearing capability. The mold skeleton members have annular and longitudinal flanges that are used as planing guides to form the external surface of the polymer-aggregate panel members. Preferably, spacer members are inserted between the annular and longitudinal flanges and the spacer members are used as planing guides. The adjacent section members are mechanically joined to each other, such that the form may be disassembled and re-used.

대표청구항 ▼

I claim: 1. A method of forming a cavity within a concrete structure comprising the steps of: providing a plurality of rigid section members each comprising a flexible mold skeleton member and a polymer-aggregate concrete panel member joined to said mold skeleton member, said concrete panel member

I claim: 1. A method of forming a cavity within a concrete structure comprising the steps of: providing a plurality of rigid section members each comprising a flexible mold skeleton member and a polymer-aggregate concrete panel member joined to said mold skeleton member, said concrete panel member imparting rigidity to said flexible mold skeleton; each of said section members created by forming a mold skeleton member comprising a tubular wall portion, a pair of annular flanges and a pair of longitudinal flanges, with said annular flanges and said longitudinal flanges extending internally and externally relative to said tubular wall portion; spraying polymer-aggregate concrete onto the exterior of said three-dimensional form to completely fill the space between the externally extending portions of said annular flanges and the externally extending portions of said longitudinal flanges, and planing said sprayed polymer-aggregate concrete using said annular flanges and said longitudinal flanges as planing guides to produce a said smooth-walled exterior surface on said section members; joining said section members to each other to create a three-dimensional tubular form having a smooth-walled tubular exterior surface; pouring concrete onto said exterior surface of said form and allowing said concrete to cure to form a concrete structure; disassembling and removing said section members such that a smooth-walled tubular cavity is present within said concrete structure. 2. The method of claim 1, wherein said step of joining said section members to each other is performed by providing mechanical fasteners and connecting adjacent said annular flanges and adjacent said longitudinal flanges on the interior side of said tubular wall portions with said mechanical fasteners. 3. The method of claim 1, further comprising the step of internally pressurizing said three-dimensional form to increase its rigidity. 4. The method of claim 2, further comprising the step of internally pressurizing said three-dimensional form to increase its rigidity. 5. The method of claim 1, further comprising the step of applying a glaze layer onto said smooth-walled exterior surface on said three-dimensional tubular form. 6. A method of forming a curvilinear, tubular, smooth-walled cavity within a concrete structure comprising the steps of: providing a plurality of section members each comprising a flexible mold skeleton member comprising a tubular wall portion, a pair of annular flanges and a pair of longitudinal flanges, with said annular flanges and said longitudinal flanges extending internally and externally to said tubular wall portion; joining said section members to each other to create a three-dimensional tubular form; applying polymer-aggregate concrete onto the exterior of said section members to completely fill the space between the externally extending portions of said annular flanges and the externally extending portions of said longitudinal flanges, planing said sprayed polymer-aggregate concrete using said annular flanges and said longitudinal flanges as planing guides to produce a smooth-walled, curvilinear exterior surface on said three-dimensional tubular form, and allowing said polymer-aggregate concrete to cure to rigidify said section members; pouring concrete onto said exterior surface of said tubular form and allowing said concrete to cure to form a concrete structure; disassembling and removing said section members whereby a curvilinear, tubular, smooth-walled cavity is present within said concrete structure. 7. The method of claim 6, wherein said step of joining said section members to each other is performed by providing mechanical fasteners and connecting adjacent said annular flanges and adjacent said longitudinal flanges on the interior side of said tubular wall portions with said mechanical fasteners. 8. The method of claim 7, further comprising the step of internally pressurizing said three-dimensional form to increase its rigidity. 9. The method of claim 6, further comprising the step of applying a glaze layer onto said smooth-walled exterior surface on said three-dimensional tubular form after said polymer-aggregate concrete has cured. 10. A method of forming a curvilinear, tubular, smooth-walled cavity within a concrete structure comprising the steps of: providing a plurality of section members each comprising a flexible mold skeleton member comprising a tubular wall portion, a pair of annular flanges and a pair of longitudinal flanges, with said annular flanges and said longitudinal flanges extending internally and externally to said tubular wall portion; inserting spacer members between said annular flanges and said longitudinal flanges of adjoining said section members, said spacer members extending externally beyond said annular flanges and said longitudinal flanges; joining said section members to each other to create a three-dimensional tubular form; applying polymer-aggregate concrete onto the exterior of said section members to completely fill the space between the externally extending portions of said annular flanges, the externally extending portions of said longitudinal flanges and said spacer members, planing said sprayed polymer-aggregate concrete using said spacer members as planing guides to produce a smooth-walled, curvilinear exterior surface on said three-dimensional tubular form, and allowing said polymer-aggregate concrete to cure to rigidify said section members; pouring concrete onto said exterior surface of said tubular form and allowing said concrete to cure to form a concrete structure; disassembling and removing said section members and said spacer members whereby a curvilinear, tubular, smooth-walled cavity is present within said concrete structure. 11. The method of claim 10, wherein said step of joining said section members to each other is performed by providing mechanical fasteners and connecting adjacent said annular flanges and adjacent said longitudinal flanges on the interior side of said tubular wall portions with said mechanical fasteners. 12. The method of claim 11, further comprising the step of internally pressurizing said three-dimensional form to increase its rigidity. 13. The method of claim 10, further comprising the step of internally pressurizing said three-dimensional form to increase its rigidity. 14. The method of claim 10, further comprising the step of applying a glaze layer onto said smooth-walled exterior surface on said three-dimensional tubular form after said polymer-aggregate concrete has cured.