Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.


  1. Advanced Patent Search
Publication numberUS3734670 A
Publication typeGrant
Publication dateMay 22, 1973
Filing dateMar 3, 1970
Priority dateMar 3, 1970
Publication numberUS 3734670 A, US 3734670A, US-A-3734670, US3734670 A, US3734670A
InventorsStickler C
Original AssigneeStickler C
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Portable mold for erecting concrete or plastic shelters
US 3734670 A
The invention relates to a portable mold for erecting a poured concrete or plastic structure for use as a shelter or storage building. An inside inflatable form is used to develop an internal countour and supply a compressive force against a poured cement mix sandwiched between the inflatable form and an outside rigid form of determined contour, such as a quonset hut. The inflatable inner form can be removed after exhausting the compressed air from its confined area and may be reused.
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

United States Patent 1 Stickler, Jr.

[ 51 May 22,1973

1541 PORTABLE MOLD FOR ERECTING CONCRETE OR PLASTIC SHELTERS [76] Inventor: Charles W. Stickler, Jr., RD. No. 4,

Mohnton, Pa. 19540 [22] Filed: Mar. 3, 1970 211 Appl. No.: 16,109

[52] US. Cl ..425/405 H, 249/65 [51] Int. Cl ..B28b 3/00, B28b 7/32 [58] Field of Search ..249/65, 112, 97,

249/108, 96; 25/127 R, 128 D, 131 SC, 131 SD, 131 Z, 124; 264/31-34, 69, 94; 18/5 P, DIG. 14; 52/2; 425/405 H [56] References Cited UNITED STATES PATENTS 3,592,436 7/1971 Chandler ..249/97 X 1,576,291 3/1926 Acker ..249/108 2,579,801 12/1951 Crom et a1 ..25/127 R 3,206,155 9/1965 Nottingham et al. ..25/124 X 1,964,386 6/1934 Nose ..249/65 X 3,128,503 4/1964 Hahn et a1. ..25/127 X 2,311,358 2/1943 Baily ..24/128 D UX 3,223,759 12/1965 Williamson ..l8/DlG. 14

2,892,239 6/1959 Neff ..25/DlG. 12

3,530,208 9/1970 Rausing l8/5 P X 1,600,353 9/1926 Nose ..249/65 X 3,057,368 10/1962 Seaman ..249/65 UX 2,052,818 9/1936 Freyssinet et a1. ..25/128 K UX 2,823,442 2/1958 Nulle et a1 ..25/128 R X Primary Examiner-Robert D. Baldwin Attorney-William J. Ruano [57] ABSTRACT The invention relates to a portable mold for erecting a poured concrete or plastic structure for use as a shelter or storage building. An inside inflatable form is used to develop an internal countour and supply a compressive force against a poured cement mix sandwiched between the inflatable form and an outside rigid form of determined contour, such as a quonset hut. The inflatable inner form can be removed after exhausting the compressed air from its confined area and may be reused.

5 Claims, 4 Drawing Figures PATENIED I973 3, 734.670

SHEET 1 or 2 Fig.3.


VXWM/f his ATTORNEY Q; L. J' INVENTOR PORTABLE MOLD FOR ERECTING CONCRETE OR PLASTIC SHELTERS This invention relates to a novel form for erecting a poured concrete or plastic structure for habitation, storage, or shelter.

An outstanding disadvantage of commonly used forms for erecting shelters or huts has been that they are relatively complicated in design and generally comprised of parts that are not readily portable. Moreover, they are not flexible to permit easy variations in sizes and contours, as well as ease for inserting windows and door openings. Most important, they are not susceptible to quick assembly and very rapid erection of the concrete structure at the site.

An object of the present invention is to provide a novel form for erection of dwellings or large enclosures, which form is devoid of the abovenamed disadvantages.

A more specific object of the invention is to provide a novel portable form embodying essentially an inflatable inner form member surrounded by a rigid outer form in spaced relationship therewith which defines the outside contour of the enclosure, and wherein a cement or plastic mix is introduced between said forms and thereafter the inner form is inflated so as to compress said mix and force it to assume the shape of the outer and inner surfaces of said forms.

Other objects and advantages will become more apparent from a study of the following description taken with the accompanying drawing wherein:

FIG. 1 is a top view of the form embodying the present invention;

FIG. 2 is a vertical, cross-sectional view thereof;

FIG. 3 is a partial end view thereof;

FIG. 4 shows a modification.

Referring more particularly to FIGS. 1, 2 and 3 of the drawing, a form is shown for erecting a poured concrete or plastic structure for habitation, storage or shelter. The form illustrated, and by way of example, is somewhat the shape of a quonset hut.

The invention provides for easily erected and disassembled forms to receive and compress semi-fluid structural material into calculated shapes of predetermined dimension. The outside form may be of any simple geometric shape composed of rigid panels 6 erected and clamped at 4 to foundation footers 1, also clamped at 12, 13 at the top flanges ll of the panels with spacers 15 barely separating the respective joined panels at the ridge line.

An inside wall rigid retaining form 18 provides for a pre-determined vertical height. The flange 19 of the rigid inside form is clamped at 20 to the foundation footer 1 with rigidity and extends for the full length of structure on two sides. The distance between outer form panels 6 and the inside wall retaining form 18 is architecturally calculated from structural requirements related to height and width of the completed structure. Outside panels 6 may be flanged or formed at their joining edge 7.

Reinforcement mesh 16 with spacers 17 common to the concrete process is spaced next to the outside form if structural design so requires it for strength. A protective water retaining polyethylene sheeting 21 may be placed between the reinforcement mesh 16 and the inflatable compressive form 24 that is moved into the rigid erected form. The inflatable form 24 is constructed of rubber or other elastic material so designed that when filled with a pre-determined quantity of air at a required pressure a definite contour will be attained. Shape may be designed by inside horizontal 28 and vertical 27 restrictors of webbing or other materials, and/or by vulcanized restrictive areas 26 in the body of the inflatable form in similar fashion to a bladder inflated in a football cover. A restrictive envelope may be employed to insure contour. The form would be rolled or folded into a manageable non-inflated mass for moving and storage. The inflatable form would be equipped with inflating nozzle connectors 25 and with an opening 29 to remove that condensed water which may form and accumulate inside the form.

The purpose of the inflatable form 24 is to have it assume a structural contour somewhat less in dimension than the outside rigid form 6. The distance from the fully inflated inside form 24 to the rigid form 6 would be greater near the foot and gradually decrease in thickness to the ridge 11 or top of the combination of confining forms as predesigned. Window and door shaping frames 22 may be placed as desired between the two forms. The floor area 3 need but be level on earth 2 or it may be constructed prior to placement of the inside forms.

The inflatable form 24 is partially filled with compressed dry air so that the shape and alignment is in correct relation to the rigid form 6. Once in alignment the form may be further inflated so that it has assumed nearly full contour and begins to stretch out the adjacent polyethylene sheeting 21. If sheeting is not used, a pre-shaped covering of fabric, plastic, or other protective and confining envelope may be employed to surround the inflatable form. An example is a leather covered football which has a preformed inflatable bladder and a leather cover.

Insofar as the exterior form 6 encloses a cubic volume of known amount and the inside inflatable form occupies, when fully inflated, a known cubic volume, then the difference would be that volume of space 30 to be filled with a selected material, such as cement and sand, concrete, plastic, or other structural material appropriate for architectural purposes.

End closures 9 may be pre-designed so that the panels may be clamped at 8 to the perimeters of erected outside longitudinal forms. The inflatable interior form 24 may then contour tightly against both end panels. If elected, one end closure 9 may be prepared by design to receive space allotment for cast-in-place concrete or other material. One or both ends 9 may be completed with pre-cast or pre-assembled end panels for erection upon removal of the inflatable form. Retaining end panels 9 may be reinforced with angles or other stiffening members 10 to resist the expanded inside form 24.

Semi-fluid cement, concrete, plastic or other structural material having the physical and/or chemical characteristics to solidify in reasonable time may be pumped into the void space 30 through valve openings 23 provided for the purpose. A sufficient volume is pumped into the confined space at each panel to conform to calculated requirement. The inflatable form 24 is then completely expanded to predetermined dimension by compressed dry air inflation. 'The expansion of the inside form will cause pressure to squeeze" and mold the semi-fluid material to exact dimension of the confining forms. The semi-fluid material would squeeze upward pushing air, which is displaced,

through the opening 14 provided by the flange 15 separation at the ridge line 11 of the joined outside forms. Semi-fluid material appearing at the ridge line 11 would indicate proper air displacement. In some mixes having less fluid flow characteristics, the use of a vibrator against the outside form may improve the density of the material by reducing air entrapment.

All rigid outside forms 6,9 may be removed when the semi-fluid injected material has hardened to structural strength. The outside form clamps 8, 12, 4 are removed first and the rigid forms 6 removed. At this time any imperfect solidified area may be patch-filled with appropriate materials and the outside contour brushed for texture of the appearance or painted as desired.

The inside form 24 may now be partially deflated to relieve compression against the structure sides and top and pulled from the inside area. To assist in this removal and to reduce frictional resistance, polyethylene sheeting placed on the floor 3 at the time of form assembly will simplify removable of the inflatable form. The outside components of the forms an the inflatable form may be moved to next erection site.

The inside wall rigid form 18 may now be removed and any necessary patch filling of the inside structure may be completed. The polyethylene film will have served its purpose and been removed. The end walls 9 may be erected and joined to the roof and side structure by clamps 8. End walls 9 may be of material, prefabricated or preformed, as the locale may require and complete with doors, windows, ventilators, etc. Electrical, plumbing, or other service requirements may be pre-designed into the components of the rigid forms.

Rigid forms may be coated on the inside with silicone, plastic, or such other material to reduce adhesive tendencies of the cured cement or other structural material. Rigid panels may be of any suitable material, preferably light in weight. Clamps may be of any design preferably to function without the need of bolts requiring tools. Flange holes should be slotted at 5 to make matching of pins and clamps 20, 4 simple in alignment. Spacers in the ridge flange 11 of the outside form 6 may be permanently mounted to insure air venting during the injection of the structural material.

Injection material may be of sand and cement, with or without additives of stone or chemical and/or plastic compositions; or any other formulas or compositions which may be injected or placed in the forms and stabilized by chemical or physical means.

Not to be excluded is the use of this mold system to place treated or untreated particles of sand or other solids which may then be injected with chemicals, stabilizers, plasticizers or hardening compounds of any kind.

FIG. 4 shows a modification of the invention. The most simple inflatable forms are the sphere and the cylinder for fabrication and handling with resultant lowest cost of manufacture.

Advantage of this possibility is taken by using an elongated cylinder. A footer 31 encircles the area upon which the structure is to be erected. The shape of the footer may be of dual-depth, as shown, to resist horizontal movement, such as from sea pressures, or may be flat for housing units. Anchoring pins 32 are cast in the footer 31 in U shape for anchoring the forms and 37.

An inflatable cylindrical form 34 of neoprene, rubber or other flexible material is placed on the midcenterline of the parallel footers 31. A shaping form 36 of light-weight material (possibly an inflatable member) is then placed along the length of form 34 and adjacent the row of pins 3221.

A shaping blanket or form 35 is placed over the in flatable form 34 and shaping form 36 and firmly fastened at the tie pins 3211.

Air pressure applied to the inflatable form 34 will cause the form to expand into the shape of a cylinder and exert pressure against shaping form 36 and against shaping blanket 35 to cause a desired geometrical shape to be formed. This will be the basis of the desired inside forming which will compress fluid cement mix (or other materials) in space against outer form 37.

The outer restricting form 37 may be erected lengthwise in convenient handling panels tied at the base to footer 31 and fastened temporarily at tie-pin 32b. Opposite panels are fastened by temporary clamps 38 at the top flange of each paired panel as shown. Air and excess fluid cement may escape at the top formed flange by design of the flange. Each panel may be provided with a valve or opening 39 to permit flow of fluid cement (or other material) to be injected in measured quantity between the inner inflatable form comprising 34, 35, 36 and the outer restrictive form 37.

In operation, the inside inflatable form 34, 35, 36 would be air inflated almost to full pressure and not quite to full pre-determined dimension. At each end of the assembled forms, a pressure resistant closing form would be firmly clamped or fastened to the outside restricting form to provide a totally enclosed vessel. A pre-determined quantity of fluid cement is injected through openings 39 into space 40 between inflatable form 34, 35, 36 and the outer restricting form 37. Windows (not shown) may be formed such as by use of elements 22 shown in FIG. 2.

Full determined air-pressure is now applied to the inflatable form 34, 35, 36 to compress the fluid cement into the space 40 of fixed geometric size between inner and outer dimensioned forms. Air may escape along the upper flange area of the outer forms and any excess cement will extrude at that escape also. During the compression operation, the cement mix may be vibrated by applying vibratory means against the outer form 37.

Upon completion of curing time, the outer forming panels and end closures may be removed for re-use at a new site. The inner inflatable form 34, 35, 36 deflated are also removed to a new site. Pre-formed end panels may then be fixed to the structure to provide full enclosure.

Additional provisions may include the following:

The area 33 of floor space between the footers may be hard packed sand or earth. An alternate may include a full cement slab as a floor.

In some areas the structure may be cast as a "groin" for placement without the need of footers. The footers would then be used merely for casting purpose and reused for additional structures and the groins moved and placed as required.

If the footers are to be an integral part of the structure, then reinforcement rods and a lock-in cast should be provided in the footer.

It is not intended to exclude the provision of an integral footer and structure casting including a cast floor.

Metal reinforcement may be set in place, or reinforcing fibers added to the cement mix at the time of mix preparation.

An inner free-floating metal shaping blanket 35 may be used instead of that described as a flexible (nylon or other similar material) shaping member. The inflatable member 34 would then pneumatically lift the metal blanket to form position.

It is possible to provide at least one end with this casting procedure by providing a compression area at the one end. A slip forming operation employing this method may be used for continuous casting of the structure.

A variety of cast-in-place geometrical forms may be utilized to provide for highway culverts and other structures common to the construction industry.

Thus it will be seen that I have provided an efficient and highly portable form for erecting dwellings or large enclosures at the site by expanding an inner partition pneumatically against a poured mix which is sandwiched between an inner form and an outer rigid form whereby the mix becomes uniformly distributed and compressed between the forms, and which forms are easily removed and used over and over again.

While I have illustrated and described several embodiments of my invention, it will be understood that these are by way of illustration only and that avarious changes and modifications may be made within the scope of the present invention and the following claims.

I claim:

1. A form for erecting building shells or enclosures, comprising an outer rigid curved form sub-divided into two curved complementary halves terminating in upwardly extending flanges which are in confronting relationship, said halves defining the outer wall, a base, means for detachably fastening said flanges together,

means for detachably fastening the bottom end portions of said halves to said base, a flexible inner form spaced inwardly from and surrounded by said outer form, means for anchoring the ends of said flexible inner form to said base, means for allowing introduction of cementious mix between said inner and outer forms, a cylindrical tube of inflatable material substantially surrounded by said inner form and in contact with substantially the top half thereof and means for introducing air under pressure inside said cylindrical tube so that it will inflate and compress said mix between said inner and outer forms.

2. A form as recited in claim 1 wherein there is a space of substantially triangular cross-section between the bottom half of said cylindrical tube and each end portion of said inner form, a shaping form substantially filling each of said spaces, whereby said shaping forms will press outwardly against said inner form upon inflation of said cylindrical tube.

3. A form as recited in claim 1 wherein said flanges are disposed in spaced confronting relationship when fastened together, whereby said cementious mix will overflow therebetween to define a medial rib.

4. A form as recited in claim 1 wherein said cylindrical tube is of elastic rubber material, wherein said base is in the form of a footer, and wherein said means for detachably fastening the bottom end portion of said halves to said base and said means for anchoring the ends of said flexible inner form to said base comprise a plurality of U-shaped elements embedded in said base and having upstanding legs which serve as the respective means.

5. A form as recited in claim 2 wherein said shaping form is inflatable.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1576291 *Sep 18, 1925Mar 9, 1926Acker Jay DMold form
US1600353 *Jul 20, 1923Sep 21, 1926Toichi NoseProcess of constructing culverts or pipes of concrete
US1964386 *Nov 12, 1931Jun 26, 1934Gun KamakuraApparatus for construction of concrete culverts
US2052818 *Aug 26, 1930Sep 1, 1936FreyssinetProcess for the manufacture of molded pieces or bodies from mortars or concrete
US2311358 *Nov 25, 1940Feb 16, 1943Baily Robert WilliamApparatus and method for molding concrete
US2579801 *Feb 10, 1949Dec 25, 1951Curzon DobellConcrete pipe mold
US2823442 *Jul 9, 1953Feb 18, 1958Evern Budd JCarton form
US2892239 *Jun 19, 1952Jun 30, 1959Wallace NeffImproved method of erecting shellform concrete structures
US3057368 *May 3, 1960Oct 9, 1962Seaman Norman RComposite air dome structure
US3128503 *Apr 21, 1961Apr 14, 1964Johns ManvilleApparatus for molding pipe insulation
US3206155 *Jun 1, 1964Sep 14, 1965M C Nottingham Co Of Temple CiForms for casting cement tanks
US3223759 *Mar 5, 1962Dec 14, 1965Iii Charles S WilliamsonMethod of fabricating structures
US3530208 *Feb 5, 1968Sep 22, 1970Tetra Pak AbMethod of molding a lined hollow body utilizing foamable polystyrene particles and an inflatable inner mold
US3592436 *Mar 28, 1968Jul 13, 1971Wilbert IncBurial vault mold with handle positioning means
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4046499 *Jan 14, 1976Sep 6, 1977Shinagawa Firebrick Co., Ltd.Dry rubber compression molding apparatus
US4179093 *Sep 1, 1978Dec 18, 1979Western William J TMoulding apparatus
US4746471 *Oct 15, 1986May 24, 1988Hale Loren EMethod of constructing a reinforced concrete structure
US5400999 *Dec 23, 1991Mar 28, 1995Pavie; HenryInflatable construction apparatus
US5564369 *Jun 22, 1994Oct 15, 1996Barber; Todd R.Reef ball
US5836265 *Oct 10, 1996Nov 17, 1998Barber; Todd RyanReef ball
US6840013 *Sep 11, 2002Jan 11, 2005Dome Technology, Inc.Building with foam cored ribs and method
US7721749Jun 17, 2005May 25, 2010Crawford Brewin Ltd.Prefabricated shelter
US7811495Oct 12, 2010University Of Maine System Board Of TrusteesComposite construction members and method of making
US8850750Jan 26, 2005Oct 7, 2014University Of Maine System Board Of TrusteesRapidly-deployable lightweight load resisting arch system
US9151577 *Jul 3, 2014Oct 6, 2015Rixford SmithPyramid-sphere bunker system
US20040045227 *Sep 11, 2002Mar 11, 2004Dome Technology, Inc.Building with foam cored ribs and method
US20050097830 *Dec 23, 2004May 12, 2005Dome Technology, Inc.Building with foam cored ribs and method
US20060174549 *Jan 26, 2005Aug 10, 2006Dagher Habib JRapidly-deployable lightweight load resisting arch system
US20060201091 *Mar 8, 2005Sep 14, 2006Con/Span Bridge Systems Ltd.Open bottom fiber reinforced precast concrete arch unit
US20070175577 *Dec 19, 2006Aug 2, 2007Dagher Habib JComposite construction members and method of making
US20070261341 *Jun 14, 2007Nov 15, 2007Contech Bridge Solutions, Inc.Open bottom fiber reinforced precast concrete arch unit
US20080017229 *Jun 17, 2005Jan 24, 2008Crawford Brewin LtdPrefabricated Shelter
US20150007758 *Jul 3, 2014Jan 8, 2015Rixford SmithPyramid-Sphere Bunker System
CN101200915BDec 20, 2007Apr 14, 2010上海交通大学Construction of movable instant-forming island work station
WO2007075999A2 *Dec 20, 2006Jul 5, 2007University Of Maine System Board Of TrusteesComposite construction members and method of making
WO2007075999A3 *Dec 20, 2006Dec 6, 2007Alexander L BakerComposite construction members and method of making
U.S. Classification425/405.1, 425/389, 249/65
International ClassificationB28B7/28, B28B7/32
Cooperative ClassificationB28B7/32
European ClassificationB28B7/32