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US2671697A - Portable shoring - Google Patents

Portable shoring
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Publication number
US2671697A
US2671697AUS146034AUS14603450AUS2671697AUS 2671697 AUS2671697 AUS 2671697AUS 146034 AUS146034 AUS 146034AUS 14603450 AUS14603450 AUS 14603450AUS 2671697 AUS2671697 AUS 2671697A
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Prior art keywords
shoring
legs
casters
posts
leg
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US146034A
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Thomas C North
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Universal Manufacturing Corp
Universal Manufacturing Co
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Universal Manufacturing Co
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Priority to US146034ApriorityCriticalpatent/US2671697A/en
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March 9, 1954 T. c. NORTHPORTABLE SHORING 2 Sheets-Sheet 1 Filed Feb. 24, 1950 IN VEN TOR.
b- WW I March 9, 1954 "r. c. NORTH 2,671,697
PORTABLE SHORING Filed Feb. 24, 1950 2 Sheets-Sheet 2 IN VEN TOR.
EZJf W Patented 9, 1954 PQRTABLE SHORING Thomas C. North, Zelienople, Pa., assignmto Universal Manufacturing Corp., Zelienople, Em, a corporation of Pennsylvania Application February 24, i956), Serial No. 146,034
l. Claim.
This invention relates to shoring for vertical loads in the building industry.
Such shoring is used as a temporary support for a floor or the like until the'floor is permanently supported in place by other means. Then the shoring is removed. For example, in pouring a concrete floor the forms are shored up by props and cross members until the concrete sets. Then the props are knocked out and the dismantled shoring is reassembled in a new location. A great amount of time and labor is required to erect and dismantle the shoring and to carry the pieces from one place to another. To save time on large jobs, a great deal of material is required so that new shoring can be built to avoid the delay that would be caused by taking down the old shoring, moving it and then reassembling it.
it is among the objects of this invention to provide shoring which is made from prefabricated sections that can be assembled in various sizes and disassembled quickly, which can be quickly moved from one location to another without dismantling, which is strong and durable and can be used indefinitely, and which is readily adjusted vertically.
In accordance with this invention, a plurality of vertical prefabricated frames are connected together by removable braces to hold the frames upright and in parallel relation. Each frame has a pair of parallel tubular legs rigidly connected at their upper ends by a horizontal cross member which is adapted to form a support for beams or other kinds of superstructure on which something is to rest. To make it possible to move the assembled frames and braces from one location to another without difliculty, casters are connected to each frame between its legs. The casters extend below the lower ends of the legs to support the frames. Slidably mounted in each leg and projecting from its lower end is a screwthreaded post, on the lower end of which there is a foot adapted to rest on the ground or other supporting surface. However, when the shoring is being moved from one location to another the posts are held far enough up in the legs to hold the feet above the bottoms of the casters so that they will not drag. Threaded on each post is a manually rotatable member that is adapted to bear against the lower end of the adjoining leg. When the shoring has been moved into the desired position, the posts are lowered in the legs until the feet rest on the ground, and the rotatable members are turned to raise the legs on the posts in order to jack up the frames so that their upper cross members will be disposed at the de-- 2 sired height. Each end frame can be formed from one or more panels. When two or more panels are used they are mounted on top of each other with their leg sections connected. Also, any desired number of end frames can be placed side by side.
The preferred embodiment of the invention is illustrated in the accompanying drawings, in which Fig. l is an end view of my portable shoring;
Fig. 2 is a side view thereof;
Fig. 3 shows a lower panel supported by its casters; and
Fig. 4 is an enlarged vertical section through the lower part of one of the legs of Fig. 3, showing the vertically adjustable post.
Referring to the drawings, any desired number of vertical end frames l are held in upright parallel position by means of removableinclined side braces 2. Each of the end frames shown is formed from two prefabricated panels A and B mounted on top of each other. For low work, only the lower panel need be used, while for higher work the two panels shown can be separated by an intermediate "panel. The lower panel A has a pair oftubular legs 3 at its opposite ends. These legs are connected by horizontal cross members 4. Secured to one side of the cross members between themain legs 3 is a pair of auxiliary vertical legs 6. Connected to the lower ends of the auxiliary legs are swivel mounted casters 1 which extend below the main legs for supporting the panel so that it can be rolled along the ground or other supporting surface. The ends of eachbrace 2 extend downward through sleeves 8 attached to the sides oflegs 3.
Each upper panel B likewise has a pair of legs I l which rest on top of the main legs of the lower panel. Plugs ii are mounted in the lower ends of the upper legs and project down into the upper ends of the lower legs to hold the superimposed legs in alignment with each other. The lower ends of upper legs H are connected by a horizontal cross member 83, while their upper ends are connected by another horizontal cross member M which rests on top of them and projects from the opposite ends of the panel. Slidably mounted in each end of this upper cross member is a horizontal extension member l6 which projects from it. The outer end of each extension member carries a sleeve ll to give it the same diameter as the upper cross member and to receive a similar extension member projecting from the top of another end frame beside it when it is desired to increase the width of the shoring.
The outer ends of the extension members are supported by inclined braces l8 rigidly connected to the upper panel legs. The upper ends of these braces are connected to the extension members byclamps 19 so that those members can be pulled out of cross member ll any desired distance. The upper cross members and the sleeves 11 carried by their extension members are adapted to support a superstructure. If aconcrete floor 2| is to be laid, for example, the superstructure may consist of wooden beams 22 extending lengthwise of the shoring and supportingplywood sheets 23, onto which the concrete can be poured.
In order to raise the superstructure to the desired height and to prevent the load that will be imposed on the shoring from being taken by the casters, screw-threadedposts 25 are slidably mounted in the lower ends of themain legs 3 of the lower panels. Each post has afoot 26 on its lower end to distribute the pressure over a greater-area. Threaded on each post is anut 21 provided with radially projectinghandles 28 by which it can be turned. In order to keep the feet from dragging on the ground when the shoring is being moved about on its casters, the nuts are turned on the posts to permit the posts to be raised up into the main legs until the feet are above the bottoms of the casters. For holding the feet in their elevated position, the top of each nut may be provided rigidly with an upwardly extendingsleeve 29 that loosely encircles the lower end of the adjoining leg. Threaded in the sleeve is aset screw 30 which can be tightened against the leg to hold the nut up against the lower end of the leg:
When the shoring has been rolled into position and it is desired to jack it up, theset screws 30 are loosened so that theposts 25 can drop until their feet strike the ground. Thenuts 21 then are run up the posts until they strike the lower ends ofleg 3. Further rotation of the nuts in the same direction causes them to slide the legs up the threaded posts and thereby lift the casters from the ground. The nuts are turned until the superstructure on top of the shoring is at the desired height. The casters therefore bear no weight while the superstructure is in working position. After the concrete which has been poured on top of the superstructure has hardened, the nuts are rotated in the opposite directionto permit thelegs 3 to slide down the posts until the casters again reach the ground and take the weight of the shoring. The nuts are rim down the posts until they reach the feet. Then the nuts are lifted to causesleeves 29 to encircle the lower ends of the legs, whereupon the set screws are tightened against the legs to hold the nuts, posts and feet in their elevated positions above the bottoms of the casters (Figs. 3 and 4) so that the shoring can be rolled to a new location and quickly elevated into position.
It takes only a few minutes to lower and raise this shoring, and it can quickly be rolled in any direction to a new location without being dismantled. The original assembly and the final disassembly of the shoring on any job likewise requires only a few minutes, because of its prefabricated end panels and easily connected braces. There is no waste of shoring material, as there is where wooden posts and cross members have to be nailed together and knocked apart. The height of the shoring is readily adjusted. Also, the length and width of the unit can be increased by simply adding more end frames and braces.
According to the provisions of the patent statutes, I have explained the principle of my invention and have illustrated and described what I now consider to represent its best embodiment. However, I desire to have it understood that, within the scope of the appended claim, the invention may be practiced otherwise than as specifically illustrated and described.
I claim:
An end panel for use in portable shoring, said panel comprising a pair of parallel tubular main legs rigidly connected by cross members, a pair of parallel vertical auxiliary legs secured to said cross members between the main legs, casters connected to the lower ends of the auxiliary legs and extending below the main legs to support the frame so that it can be rolled from one location to another, a screw threaded post slidably mounted in each main leg and projecting from its lower end, a foot mounted on the lower end of the post, a manually rotatable member threaded on each post and adapted to bear against the lower end of the adjoining leg, a collar secured to the top of said rotatable member and adapted to loosely encircle said adjoining leg and rotatable with the rotatable member, and a set screw threaded in the collar and adapted to be tightened against the encircled leg to hold the rotatable member up against the lower end of the leg so that the adjoining post and foot can be held above the bottom of the casters; rotation of said rotatable members, after said set screws have been loosened and the feet have dropped to the level of the bottom of the casters, causing the main legs to be raised on the posts to jack up the panel.
THOMAS C. NORTH.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 934,949 Trickey et a1 Sept. 21, 1909 942,592 Schneider Dec. 7, 1909 1,036,726 Salisbury Aug. 27, 1912 1,123,882 Jensen Jan. 5, 1915 1,252,093 Davidson Jan. 1, 1918 1,285,266 Lexterman Nov. 19, 1918 1,498,665 MacIvor June 24, 1924 1,719,528 Beckley et a1. July 2, 1929 1,757,106 Apple May 6, 1930 1,776,439 Kinninger Sept. 23, 1930 1,874,005 Gooder Aug. 30, 1932 2,126,811 Rambo et al Aug. 16, 1938 2,140,617 Castady Dec. 20, 1938 2,198,758 Brown Apr. 30, 1940 2,203,114 Uecker et a1 June 4, 1940 2,472,423 Hawes Jan. 7, 1949 2,481,885 Simpson Sept. 13, 1949 2,584,015 Hawes Jan. 29, 1952
US146034A1950-02-241950-02-24Portable shoringExpired - LifetimeUS2671697A (en)

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Cited By (23)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2742675A (en)*1952-09-301956-04-24Robertson FrankMobile wall unit
US2752641A (en)*1952-09-301956-07-03Robertson FrankMobile wall unit
US2805901A (en)*1954-05-281957-09-10Irl W HumphreyMetal scaffolding
US3003219A (en)*1959-05-231961-10-10Strabag Bau AgMethod and means for erecting elongated structures of concrete
US3034162A (en)*1955-11-071962-05-15Smith Charles Aquila VincentPortable structural units, particularly bridge units
US3037259A (en)*1960-12-271962-06-05David H DaveApparatus for the installation of reinforced concrete floors in multistoried buildings
US3681484A (en)*1970-08-261972-08-01Eugene T MckieMethod for surfacing poured material
US3744945A (en)*1971-11-301973-07-10C MetrailerApparatus for modular concrete constructions
US3827840A (en)*1971-02-121974-08-06L KistlerMobile concrete ceiling mold platform
US3845930A (en)*1971-11-301974-11-05C MetrailerTelescopic supports for adjustable roof and beam form
US3847341A (en)*1971-11-181974-11-12Gray Tech Ind IncCollapsible interior form for a monolithic structure
US3902289A (en)*1973-08-131975-09-02InterformAdjustable truss for concrete construction
US4003541A (en)*1974-05-201977-01-18Lanier John EPortable decking form
US5616349A (en)*1994-01-201997-04-01Sasaki; MitsuoMovable slab form unit
WO2010063056A1 (en)*2008-12-042010-06-10Wasyl RosatiA means of stripping concrete formwork from a concrete surface
US20100288909A1 (en)*2007-08-222010-11-18Wasyl RosatiMeans of stripping concrete formwork from a concrete surface
US20130015306A1 (en)*2011-07-112013-01-17Roderick Milton StewartPlaster ceiling support device
WO2014017980A1 (en)*2012-07-272014-01-30Sh Design & Build Pte LtdA lift truck operated stacking formwork table system and a method of operation thereof
US20140075878A1 (en)*2011-05-192014-03-20Nicholas James MarshallFrame support
CN105544968A (en)*2016-01-282016-05-04郑州三迪建筑科技有限公司Building method for floor of multi-layer steel structure building house
US9751209B2 (en)2011-07-132017-09-05Brooks Automation, Inc.Compact direct drive spindle
US20180073261A1 (en)*2016-09-092018-03-15Excel Project Management Ltd.Arch-support system
US11603674B1 (en)*2020-03-192023-03-14Peri Formwork Systems, Inc.Waler system

Citations (18)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US934949A (en)*1908-05-081909-09-21Elejustor LtdTruck or carriage for use in ship-building.
US942592A (en)*1908-08-061909-12-07Vergne B StevensFence-brace.
US1036726A (en)*1911-12-131912-08-27James W SalisburySupplemental adjustable stove-leg.
US1123882A (en)*1914-01-151915-01-05Alexander V JensenLoading-chute.
US1252093A (en)*1915-04-231918-01-01Hydraulic Pressed Steel CompanyConcrete-form.
US1285266A (en)*1916-04-121918-11-19Blaw Steel Construction CompanyTunnel mold-form.
US1498665A (en)*1920-08-191924-06-24Macivor William DonnellAdjustable shoring
US1719528A (en)*1926-05-061929-07-02BeckleySupport for concrete forms
US1757106A (en)*1928-06-141930-05-06Vincent G ApplePower washing machine
US1776439A (en)*1923-03-291930-09-23Arthur M KinningerAdjustable shore
US1874005A (en)*1929-03-081932-08-30Seth M GooderMethod of and apparatus for raising roofs
US2126811A (en)*1936-07-151938-08-16Safway Steel Scaffolds Co Of ACaster
US2140617A (en)*1937-06-151938-12-20Castady HarryAdjustable scaffold
US2198758A (en)*1939-12-291940-04-30Brown Equipment & Mfg CompanyTruck support
US2203114A (en)*1938-09-191940-06-04Reinhold A UeckerScaffold jack
US2472423A (en)*1945-10-021949-06-07Kwikform LtdScaffolding
US2481885A (en)*1946-02-251949-09-13Eugene H SimpsonScaffold
US2584015A (en)*1944-11-061952-01-29Kwikform LtdAdjustable fitting

Patent Citations (18)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US934949A (en)*1908-05-081909-09-21Elejustor LtdTruck or carriage for use in ship-building.
US942592A (en)*1908-08-061909-12-07Vergne B StevensFence-brace.
US1036726A (en)*1911-12-131912-08-27James W SalisburySupplemental adjustable stove-leg.
US1123882A (en)*1914-01-151915-01-05Alexander V JensenLoading-chute.
US1252093A (en)*1915-04-231918-01-01Hydraulic Pressed Steel CompanyConcrete-form.
US1285266A (en)*1916-04-121918-11-19Blaw Steel Construction CompanyTunnel mold-form.
US1498665A (en)*1920-08-191924-06-24Macivor William DonnellAdjustable shoring
US1776439A (en)*1923-03-291930-09-23Arthur M KinningerAdjustable shore
US1719528A (en)*1926-05-061929-07-02BeckleySupport for concrete forms
US1757106A (en)*1928-06-141930-05-06Vincent G ApplePower washing machine
US1874005A (en)*1929-03-081932-08-30Seth M GooderMethod of and apparatus for raising roofs
US2126811A (en)*1936-07-151938-08-16Safway Steel Scaffolds Co Of ACaster
US2140617A (en)*1937-06-151938-12-20Castady HarryAdjustable scaffold
US2203114A (en)*1938-09-191940-06-04Reinhold A UeckerScaffold jack
US2198758A (en)*1939-12-291940-04-30Brown Equipment & Mfg CompanyTruck support
US2584015A (en)*1944-11-061952-01-29Kwikform LtdAdjustable fitting
US2472423A (en)*1945-10-021949-06-07Kwikform LtdScaffolding
US2481885A (en)*1946-02-251949-09-13Eugene H SimpsonScaffold

Cited By (39)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2742675A (en)*1952-09-301956-04-24Robertson FrankMobile wall unit
US2752641A (en)*1952-09-301956-07-03Robertson FrankMobile wall unit
US2805901A (en)*1954-05-281957-09-10Irl W HumphreyMetal scaffolding
US3034162A (en)*1955-11-071962-05-15Smith Charles Aquila VincentPortable structural units, particularly bridge units
US3003219A (en)*1959-05-231961-10-10Strabag Bau AgMethod and means for erecting elongated structures of concrete
US3037259A (en)*1960-12-271962-06-05David H DaveApparatus for the installation of reinforced concrete floors in multistoried buildings
US3681484A (en)*1970-08-261972-08-01Eugene T MckieMethod for surfacing poured material
US3827840A (en)*1971-02-121974-08-06L KistlerMobile concrete ceiling mold platform
US3847341A (en)*1971-11-181974-11-12Gray Tech Ind IncCollapsible interior form for a monolithic structure
US3744945A (en)*1971-11-301973-07-10C MetrailerApparatus for modular concrete constructions
US3845930A (en)*1971-11-301974-11-05C MetrailerTelescopic supports for adjustable roof and beam form
US3902289A (en)*1973-08-131975-09-02InterformAdjustable truss for concrete construction
US4003541A (en)*1974-05-201977-01-18Lanier John EPortable decking form
US5616349A (en)*1994-01-201997-04-01Sasaki; MitsuoMovable slab form unit
US8651448B2 (en)*2007-08-222014-02-18Wasyl RosatiMeans of stripping concrete formwork from a concrete surface
US20100288909A1 (en)*2007-08-222010-11-18Wasyl RosatiMeans of stripping concrete formwork from a concrete surface
JP2012511110A (en)*2008-12-042012-05-17ヴァシーリ ロザーティ Means for removing concrete formwork from concrete surface
WO2010063056A1 (en)*2008-12-042010-06-10Wasyl RosatiA means of stripping concrete formwork from a concrete surface
CN102239302A (en)*2008-12-042011-11-09沃西尔·罗萨蒂 Method of stripping concrete forms from concrete surfaces
CN102239302B (en)*2008-12-042015-08-26沃西尔·罗萨蒂Method for stripping concrete formwork from concrete surface
EP2373855A4 (en)*2008-12-042014-01-15Wasyl Rosati MEANS FOR REMOVING A CONCRETE FORMWORK FROM A CONCRETE SURFACE
RU2505651C2 (en)*2008-12-042014-01-27Васил РОСАТИMethod for stripping of concrete pouring formwork from concrete surface
US20110316199A1 (en)*2008-12-042011-12-29Wasyl RosatiMeans of stripping concrete formwork from a concrete surface
AU2008364746B2 (en)*2008-12-042015-04-09Wasyl RosatiA means of stripping concrete formwork from a concrete surface
US8945442B2 (en)*2008-12-042015-02-03Wasyl RosatiConcrete formwork frame assembly and method of stripping concrete formwork from a concrete surface
US20140075878A1 (en)*2011-05-192014-03-20Nicholas James MarshallFrame support
US9085910B2 (en)*2011-07-112015-07-21Historic Plaster Conservation Products LimitedPlaster ceiling support device
US20130015306A1 (en)*2011-07-112013-01-17Roderick Milton StewartPlaster ceiling support device
US10493620B2 (en)2011-07-132019-12-03Brooks Automation, Inc.Compact direct drive spindle
US11772261B2 (en)2011-07-132023-10-03Brooks Automation Us, LlcCompact direct drive spindle
US11110598B2 (en)2011-07-132021-09-07Brooks Automation, Inc.Compact direct drive spindle
US9751209B2 (en)2011-07-132017-09-05Brooks Automation, Inc.Compact direct drive spindle
CN104583510A (en)*2012-07-272015-04-29Sh设计建造私人公司 Lift truck operated stacking formwork table system and method of operation
US10738488B2 (en)2012-07-272020-08-11Yeow Khoon TanLift truck operated stacking formwork table system and a method of operation thereof
WO2014017980A1 (en)*2012-07-272014-01-30Sh Design & Build Pte LtdA lift truck operated stacking formwork table system and a method of operation thereof
CN105544968A (en)*2016-01-282016-05-04郑州三迪建筑科技有限公司Building method for floor of multi-layer steel structure building house
US20180073261A1 (en)*2016-09-092018-03-15Excel Project Management Ltd.Arch-support system
US10584502B2 (en)*2016-09-092020-03-10Excel Project Management Ltd.Arch-support system
US11603674B1 (en)*2020-03-192023-03-14Peri Formwork Systems, Inc.Waler system

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