US3096695A - Foundation for buildings, roads or the like - Google Patents

Foundation for buildings, roads or the like Download PDF

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US3096695A
US3096695A US771143A US77114358A US3096695A US 3096695 A US3096695 A US 3096695A US 771143 A US771143 A US 771143A US 77114358 A US77114358 A US 77114358A US 3096695 A US3096695 A US 3096695A
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sections
road
triangular
metal sleeve
corners
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C5/00Pavings made of prefabricated single units
    • E01C5/06Pavings made of prefabricated single units made of units with cement or like binders
    • E01C5/08Reinforced units with steel frames
    • E01C5/10Prestressed reinforced units ; Prestressed coverings from reinforced or non-reinforced units
    • E01C5/105Prestressed reinforced units ; Prestressed coverings from reinforced or non-reinforced units on prefabricated supporting structures or prefabricated foundation elements, except coverings made of layers of similar elements

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  • This invention relates to an improved road structure which may be used wherever a road surface is required to carry vehicular or other .trafiic or pedestrians or the like.
  • road structures are usually formed by placing concrete or other load-bearing means directly onto the ground, sometimes in the form of rectangular slabs of substantial size, or alternatively in continuous long lengths and wherein the load bearing means simply lies on the ground or on a specially prepared bed.
  • the object of this invention is to provide an improved road structure in which laying is simplified and in which repairs can be effected in a much simpler manner than heretofore, and if it should be necessary to level the road surfaced by either raising or lowering some sections of it, this also will be readily allowed by means of the structure involved.
  • the invention contemplates a road structure formed of a series of triangular road sections placed together with their edges adjacent each other and in the same plane, to form a continuous mosaic road surface, and providing joining members at the junctions of the corners of the triangular road sections to transfer at least part of the load from any one triangular section through the joining member to the corners of the other engaged triangular sections at each junction.
  • the triangular sections themselves rest on the ground and the joining members serve to interconnect the corners of the triangular sections to maintain the contemplete structure in the correct plane, the joining members in this case having no need to carry any heavy or substantial load.
  • the road sections are of triangular construction and suitably dimensioned and reinforced where necessary, and by utilizing sections in the shape of equilateral triangles it is possible to join any number of these sections by their corners to form a roadway, it being possible to remove any of the triangular road sections and replace them or to simply remove part of the roadway and to reinstate 'it at a different level, or the like.
  • FIG. 1 is a plan of a roadway constructed according to the invention
  • FIG. 2 is an enlarged transverse section of portion of a roadway showing the joining members taking the weight of the structure, the triangular sections being held clear of the ground,
  • FIG. 3 is an underside view of one of the triangular sections
  • FIG. 4 is a still further enlarged section showing the joint between tWo triangular sections
  • FIG. 5 is a further enlarged view but showing the invention in which the joining members are not the main load transferring members but serve to interconnect the corners of the triangles in the case where the triangular sections themselves rest on the ground, and
  • FIG. 6 is a plan view partly broken away of the joining member shown in FIG. 5.
  • a series of tri angular road sections 1' are placed to form a mosaic road structure interconnected at the corners by joining members 2 located at the junctions of the sections.
  • Each triangular road section 1 comprises a surface section 3 with suitable reinforcing built up on weight carrying beams 5 which run parallel to the sides 6 of the triangular road sections, the beams 5 having at their ends depending key sections 7 which engage recesses 8 in the base portion 9 of the joining members 2, these depending key sections 7 thus forming the actual weight transferring means between the corners of the triangular section-s land the joining members 2 and at the same time as they engage in the recesses 8 forming a lateral tie which prevents the triangular sections 1 from pulling away from the joining members 2.
  • the beams 5 can be suitably reinforced in any desired manner and preferalbly these have hollows 10 extending longitudinally through them through which post-stressing reinforcing may be placed if such is afound desirable.
  • the base portion 9 of the joining members 2 engage slabs 12 which are placed on the ground, a filling 13 of sand being placed between these member to allow accurate truing-up.
  • Each of the join-ing members 2 has an upwardly disposed stem 14 which extends from the base portion 9, and between the upper part of the stem 14 and the edges or sides -6 of the triangular road sections 1 is disposed a plastic jointing strip 15 formed of any suitable material, the strip being positively held in position by having a projection on it engaged in a groove 16 along the edge of the triangular road sections -1, this joining member allowing the road to be sealed against the ingress of moisture in that it forms a flexible joint between the various triangular road sections where they meet and also with the top part of the stem 14 of the joining members 2.
  • the stem :14 is apertured with a hole for handling purposes, and also for introducing the filling 13.
  • the jointing strip 15 is shown in more detail, as are also the grooves 16 into which the strip fits.
  • a strip it would of course be possible to use a bitumast-ic filler or similar material which can be poured into the joint, in such a case a core piece 1-7 being first of all placed into the bottom of the gap which is to be filled to prevent the material firom running through.
  • FIG. 4 also shows more particularly the hollows '10 a 3 through which the post-stressing rods can be placed, but of course the beams 5 will have the normal reinforcing members 18 placed therein at required localities.
  • the triangular road sections 1 are provided with key sections designated 20 which fit into recesses 21 in a metal sleeve 22 which is formed to be integral with the concrete block 23 forming the main part of the joining member 2.
  • the upper lock in this case comprising a split ring 24 which is driven over the upper end of the sleeve 22 and which has on it a shoulder 25 cooperating with a shoulder 26 on the sleeve '22 when the ring is driven down into posit-ion.
  • the base 27 of the ring 24 presses on to the shoulder 28 at the corner of each triangular road section 1 and in this way the key section 20 is held down into the recess 21 and the triangular road sections 1 are therefore locked to the joining member 2 in an up and down direction as well as being prevented from moving out radially from the joining member 2 by the action of the key section 20 and the recess 21.
  • the sleeve 22 is made of substantial size and is provided with a plug 30 which may be withdrawn when required to give access to the block 26- on which the triangular road sections 1 rest, the purpose of this being to allow the roadway to be levelled or adjusted by withdrawing soil from beneath the roadway or pumping soil intoplace.
  • a further block 29 is provided which restson the ground but is not attached to the block 23,-and when the plug 30 is removed, it is possible to place a jack onto the block 29 and to engage it beneath projections or lugs 31 disposed around the inner periphery of the metal sleeve 22, "a jack having been so placed can then lift the metal sleeve 22 and thus the block 23 after which soil can be forced in beneath same and beneath the adjacent lower suriaces of the triangular road sections 1 to build up the level at this point.
  • Sealing strips 32 are of course again used to prevent the ingress of water between the sections of the roadway and also around the joining members 2.
  • a curve may be formed in the road.
  • a road structure comprising a plurality of triangular road sections disposed in a common plane and arranged to form a continuous mosaic road surface, each triangular road section having a corner thereof meeting with the corners of two other road sections to form a junction therewith, separate joining members at the junctions formed by the triangular sections for joining corresponding sections together comprising a base and an upstanding metal sleeve extending therefrom, a sand fill hole being provided in each said base member extending centrally therethrough, said upstanding metal sleeve forming an opening in correspondence with said sand fill hole, lugs on the metal sleeve extending inwardly into said opening, a recess in each said base member being provided around the metal sleeve, and downwardly projecting key sections on the corners of said road sections engaged in said recesses for preventing lateral displacement of said road sections and thereby connecting said road sections together.
  • a road structure comprising a plurality of triangular road sections disposed in a common plane and arranged to form a continuous mosaic road surface, each triangular road section having a corner thereof meeting with the corners of two other road sections to form a junction therewith, separate joining members at the junctions formed by the triangular sections for joining corresponding sections together comprising a base and an upstanding metal sleeve extending therefrom, a sand fill hole being provided in each said base member extending centrally therethrough, said upstanding metal sleeve forming an opening in correspondence with said sand fill hole, lugs on the metal sleeve extending inwardly into said opening, a recess in each said base member being provided around the metal sleeve, downwardly projecting key sections on the corners of said road sections engaged in said recesses for preventing lateral displacement of said road sections and thereby connecting said road sections together, said upstanding metal sleeve including lugs extending outwardly therefrom and constituting an upper shoulder facing said rece
  • a road structure comprising a plurality of triangular road sections disposed in a common plane and arranged to form a continuous mosaic road surface, each triangular road section having a corner thereof meeting with the corners of two other road sections to form a junction therewith, separate joining members: at the junctions formed by the triangular sections for joining corresponding sections together comprising a base and an upstanding metal sleeve extending therefrom, a sand fill hole being provided in each said base member extending centrally therethrough, said upstanding metal sleeve forming an opening in correspondence with said sand fill hole, lugs on the metal sleeve extending inwardly into said opening, a recess in each said base member being provided around the metal sleeve, downwardly projecting key sections on the corners of said road sections engaged in said recesses for preventing lateral displacement of said road sections and thereby connecting said road sections together, said upstanding metal sleeve including lugs extending outwardly therefrom and constituting an upper shoulder facing said

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Road Paving Structures (AREA)

Description

July 9, 1963 J. REINHARDT 3,096,695
FOUNDATION FOR BUILDINGS, ROADS OR THE LIKE Filed Oct. 51, 1958 2 Sheets-Sheet 1 July 9, 1963 J. REINHARDT 3,096,695
FOUNDATION FOR BUILDINGS, ROADS OR THE LIKE Filed Oct. 31, 1958 2 Sheets-Sheet 2 United States Patent 3,096,695 FOUNDATION FOR BUILDINGS, ROADS OR THE LIKE John Reinhardt, Brighton, South Australia, Australia (61 Holder Parade, Kingston Park, South Australia,
Australia) Filed Oct. 31, 1958, Ser. No. 771,143 Claims priority, application Australia Nov. 7, 1957 3 Claims. (Cl. 94--11) This invention relates to an improved road structure which may be used wherever a road surface is required to carry vehicular or other .trafiic or pedestrians or the like.
At the present time road structures are usually formed by placing concrete or other load-bearing means directly onto the ground, sometimes in the form of rectangular slabs of substantial size, or alternatively in continuous long lengths and wherein the load bearing means simply lies on the ground or on a specially prepared bed.
When a road structure of the above type requires repairs, it is necessary to remove the damaged or worn sections and to replace the entire section. The effecting of the repair is made extremely diflicult if a portion of a sec tion to be repaired has sunk, in which case it is necessary to build up the sunken portion or lower the remaining section to the level of the sunken portion.
It is also found with roads that it is necessary to form the road surface for a considerable length and either leave the road as is to be subject to the influence of normal traffic or else supply special machinery in an attempt to reinforce the road to the point Where it will be able to carry a load, and its top surface will not be deformed when subject to load.
The object of this invention is to provide an improved road structure in which laying is simplified and in which repairs can be effected in a much simpler manner than heretofore, and if it should be necessary to level the road surfaced by either raising or lowering some sections of it, this also will be readily allowed by means of the structure involved.
Briefly the invention contemplates a road structure formed of a series of triangular road sections placed together with their edges adjacent each other and in the same plane, to form a continuous mosaic road surface, and providing joining members at the junctions of the corners of the triangular road sections to transfer at least part of the load from any one triangular section through the joining member to the corners of the other engaged triangular sections at each junction.
According to an embodiment of the invention the triangular sections themselves rest on the ground and the joining members serve to interconnect the corners of the triangular sections to maintain the contemplete structure in the correct plane, the joining members in this case having no need to carry any heavy or substantial load.
In the invention the road sections are of triangular construction and suitably dimensioned and reinforced where necessary, and by utilizing sections in the shape of equilateral triangles it is possible to join any number of these sections by their corners to form a roadway, it being possible to remove any of the triangular road sections and replace them or to simply remove part of the roadway and to reinstate 'it at a different level, or the like.
In order however that the invention may be more fully understood the embodiments referred to will now be described with reference to the accompanying drawings in which:
FIG. 1 is a plan of a roadway constructed according to the invention,
FIG. 2 is an enlarged transverse section of portion of a roadway showing the joining members taking the weight of the structure, the triangular sections being held clear of the ground,
FIG. 3 is an underside view of one of the triangular sections,
FIG. 4 is a still further enlarged section showing the joint between tWo triangular sections,
FIG. 5 is a further enlarged view but showing the invention in which the joining members are not the main load transferring members but serve to interconnect the corners of the triangles in the case where the triangular sections themselves rest on the ground, and
FIG. 6 is a plan view partly broken away of the joining member shown in FIG. 5.
Referring first to FIGS. 1, 2, 3 and 4, a series of tri angular road sections 1' are placed to form a mosaic road structure interconnected at the corners by joining members 2 located at the junctions of the sections.
Each triangular road section 1 comprises a surface section 3 with suitable reinforcing built up on weight carrying beams 5 which run parallel to the sides 6 of the triangular road sections, the beams 5 having at their ends depending key sections 7 which engage recesses 8 in the base portion 9 of the joining members 2, these depending key sections 7 thus forming the actual weight transferring means between the corners of the triangular section-s land the joining members 2 and at the same time as they engage in the recesses 8 forming a lateral tie which prevents the triangular sections 1 from pulling away from the joining members 2.
In this way a completely flexible structure results. which consists of a series of the joining members 2 arranged in a pattern and all carrying and being interconnected with the triangular road sections 1 so that the road sections 1 can not rise or fall independently at the corners where they rest on the joining members but should any particular joining member 2 sink or rise, the triangular sections can move correspondingly without fracture and it is then a simple matter to lift olf one or more of \these sections by inserting lifting hooks in the apertures 4-, and to reposition the particular joining member 2 to again level the structure.
The beams 5 can be suitably reinforced in any desired manner and preferalbly these have hollows 10 extending longitudinally through them through which post-stressing reinforcing may be placed if such is afound desirable.
It will be seen that the base portion 9 of the joining members 2 engage slabs 12 which are placed on the ground, a filling 13 of sand being placed between these member to allow accurate truing-up.
Each of the join-ing members 2 has an upwardly disposed stem 14 which extends from the base portion 9, and between the upper part of the stem 14 and the edges or sides -6 of the triangular road sections 1 is disposed a plastic jointing strip 15 formed of any suitable material, the strip being positively held in position by having a projection on it engaged in a groove 16 along the edge of the triangular road sections -1, this joining member allowing the road to be sealed against the ingress of moisture in that it forms a flexible joint between the various triangular road sections where they meet and also with the top part of the stem 14 of the joining members 2. The stem :14 is apertured with a hole for handling purposes, and also for introducing the filling 13.
In FIG. 4 the jointing strip 15 is shown in more detail, as are also the grooves 16 into which the strip fits. Instead of using a strip it would of course be possible to use a bitumast-ic filler or similar material which can be poured into the joint, in such a case a core piece 1-7 being first of all placed into the bottom of the gap which is to be filled to prevent the material firom running through.
FIG. 4 also shows more particularly the hollows '10 a 3 through which the post-stressing rods can be placed, but of course the beams 5 will have the normal reinforcing members 18 placed therein at required localities.
-In FIGS. 5 and 6, the triangular road sections 1 are provided with key sections designated 20 which fit into recesses 21 in a metal sleeve 22 which is formed to be integral with the concrete block 23 forming the main part of the joining member 2.
As in this case the triangular sections 1 rest on the ground, both upward and downward forces can exist on the ends or corners of these triangular sections 1 and therefore it is necessary to provide an upper look also which was not required the first described embodiment, the upper lock in this case comprising a split ring 24 which is driven over the upper end of the sleeve 22 and which has on it a shoulder 25 cooperating with a shoulder 26 on the sleeve '22 when the ring is driven down into posit-ion.
When located, the base 27 of the ring 24 presses on to the shoulder 28 at the corner of each triangular road section 1 and in this way the key section 20 is held down into the recess 21 and the triangular road sections 1 are therefore locked to the joining member 2 in an up and down direction as well as being prevented from moving out radially from the joining member 2 by the action of the key section 20 and the recess 21.
The sleeve 22 is made of substantial size and is provided with a plug 30 which may be withdrawn when required to give access to the block 26- on which the triangular road sections 1 rest, the purpose of this being to allow the roadway to be levelled or adjusted by withdrawing soil from beneath the roadway or pumping soil intoplace. 1
To allow the roadway to be lifted, a further block 29 is provided which restson the ground but is not attached to the block 23,-and when the plug 30 is removed, it is possible to place a jack onto the block 29 and to engage it beneath projections or lugs 31 disposed around the inner periphery of the metal sleeve 22, "a jack having been so placed can then lift the metal sleeve 22 and thus the block 23 after which soil can be forced in beneath same and beneath the adjacent lower suriaces of the triangular road sections 1 to build up the level at this point.
Sealing strips 32 are of course again used to prevent the ingress of water between the sections of the roadway and also around the joining members 2.
By changing the shape of some or the triangles, or the width of the joints a curve may be formed in the road.
From the foregoing it will be realized that a simple and effective form of road construction is envisaged which consists of a series of triangular road sections of such shape that the sections can be fitted together as required to give the complete road surface, but all of the sections are interconnected at their corners by joining members which are so arranged that the Whole structure can be maintained in correct operating position and can be adjusted as circumstances require this to be attended to.
What is claimed is: v
1. A road structure comprising a plurality of triangular road sections disposed in a common plane and arranged to form a continuous mosaic road surface, each triangular road section having a corner thereof meeting with the corners of two other road sections to form a junction therewith, separate joining members at the junctions formed by the triangular sections for joining corresponding sections together comprising a base and an upstanding metal sleeve extending therefrom, a sand fill hole being provided in each said base member extending centrally therethrough, said upstanding metal sleeve forming an opening in correspondence with said sand fill hole, lugs on the metal sleeve extending inwardly into said opening, a recess in each said base member being provided around the metal sleeve, and downwardly projecting key sections on the corners of said road sections engaged in said recesses for preventing lateral displacement of said road sections and thereby connecting said road sections together.
2. A road structure comprising a plurality of triangular road sections disposed in a common plane and arranged to form a continuous mosaic road surface, each triangular road section having a corner thereof meeting with the corners of two other road sections to form a junction therewith, separate joining members at the junctions formed by the triangular sections for joining corresponding sections together comprising a base and an upstanding metal sleeve extending therefrom, a sand fill hole being provided in each said base member extending centrally therethrough, said upstanding metal sleeve forming an opening in correspondence with said sand fill hole, lugs on the metal sleeve extending inwardly into said opening, a recess in each said base member being provided around the metal sleeve, downwardly projecting key sections on the corners of said road sections engaged in said recesses for preventing lateral displacement of said road sections and thereby connecting said road sections together, said upstanding metal sleeve including lugs extending outwardly therefrom and constituting an upper shoulder facing said recess, and a split ring encircling the metal sleeve and in contact with the upper shoulder and the corners of adjacent road section-s at the corresponding junction to prevent movement of said corners of the triangular members between said shoulder and the recess.
3. A road structure comprising a plurality of triangular road sections disposed in a common plane and arranged to form a continuous mosaic road surface, each triangular road section having a corner thereof meeting with the corners of two other road sections to form a junction therewith, separate joining members: at the junctions formed by the triangular sections for joining corresponding sections together comprising a base and an upstanding metal sleeve extending therefrom, a sand fill hole being provided in each said base member extending centrally therethrough, said upstanding metal sleeve forming an opening in correspondence with said sand fill hole, lugs on the metal sleeve extending inwardly into said opening, a recess in each said base member being provided around the metal sleeve, downwardly projecting key sections on the corners of said road sections engaged in said recesses for preventing lateral displacement of said road sections and thereby connecting said road sections together, said upstanding metal sleeve including lugs extending outwardly therefrom and constituting an upper shoulder facing said recess, a split ring encircling the metal sleeve and in contact with the upper shoulder and the corners of adjacent road sections at the corresponding junction to prevent movement of said corners of the triangular members between said shoulder and the recess, a block centrally located beneath each of said base members, and a plug detachably supported in said sleeve, said plug and block being provided with aligned apertures opening into said sand fill hole in the base member.
References Cited in the file of this patent UNITED STATES PATENTS 144,748 De Valin Nov. 18, 1873 1,557,165 Hooper Oct. 13, 1925 J 2,025,815 Horridge Dec. 31, 1935 2,041,266 Poulter May 19, 1936 2,266,178 Dubois Dec. 16, 1941 2,667,038 B-ayley Ian. 26, 1954 2,741,910 Thornley Apr. 17, 1956 2,867,301 Benton J an. 6, 1959 FOREIGN PATENTS 312,293 Great Britain May 17, 1929

Claims (1)

1. A ROAD STRUCTURE COMPRISING A PLURALITY OF TRIANGULAR ROAD SECTIONS DISPOSED IN A COMMON PLANE AND ARRANGED TO FORM A CONTINUOUS MOSAIC ROAD SURFACE, EACH TRIANGULAR ROAD SECTION HAVING A CORNER THEREOF MEETING WITH THE CORNERS, OF TWO OTHER ROAD SECTIONS TO FORM A JUNCTION THEREWITH, SEPARATE JOINING MEMBERS AT THE JUNCTIONS FORMED BY THE TRIANGULAR SECTIONS FOR JOINING CORRESPONDING SECTIONS TOGETHER COMPRISING A BASE AND AN UPSTANDING METAL SLEEVE EXTENDING THEREFROM, A SAND FILL HOLE BEING PROVIDED IN EACH SAID BASE MEMBER EXTENDING CENTRALLY THERETHROUGH, SAID UPSTANDING METAL SLEEVE FORMING AN OPENING IN CORRESPONDENCE WITH SAID SAND FILL HOLE, LUGS ON THE METAL SLEEVE EXTENDING INWARDLY INTO SAID OPENING, A RECESS IN EACH SAID BASE MEMBER BEING PROVIDED AROUND THE METAL SLEEVE, AND DOWNWARDLY PROJECTING KEY SECTIONS ON THE CORNERS OF SAID ROAD SECTIONS ENGAGED IN SAID RECESSES FOR PREVENTING LATERAL DISPLACEMENT OF SAID ROAD SECTIONS AND THEREBY CONNECTING SAID ROAD SECTIONS TOGETHER.
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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3256785A (en) * 1962-04-12 1966-06-21 Pintsch Bamag Ag Ground covering apparatus
US3500601A (en) * 1966-11-14 1970-03-17 Peter Hamill Building structures
US3909145A (en) * 1974-03-28 1975-09-30 Us Air Force Panel grid module construction system
US3961453A (en) * 1973-05-17 1976-06-08 Paul Couwenbergs Supports for constructional or building elements
USRE32663E (en) * 1980-11-18 1988-05-03 Articulated erosion control system
US4749302A (en) * 1983-05-16 1988-06-07 Declute Robert G Spacing pad
US4835924A (en) * 1986-12-17 1989-06-06 Tate Acess Floors Self-gridding flooring system
US4914881A (en) * 1986-01-10 1990-04-10 Techfloor Pty. Ltd. Access flooring system
WO1990005213A1 (en) * 1988-11-07 1990-05-17 Gosnell Glenn D Containment system for paving material
US5102256A (en) * 1988-11-07 1992-04-07 Gosnell Glenn D Containment system for paving material
US5556228A (en) * 1995-02-06 1996-09-17 Smith; Lee A. Block for controlling soil erosion
US5988942A (en) * 1996-11-12 1999-11-23 Stewart Trustees Limited Erosion control system
EP1577441A1 (en) * 2002-12-05 2005-09-21 LUO, Jingxun A triangular overhead terrace assembly
US20100281795A1 (en) * 2008-03-04 2010-11-11 Jose Leon Garza assembly system for insulating floors

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US144748A (en) * 1873-11-18 Improvement in pavements
US1557165A (en) * 1922-11-01 1925-10-13 Elmer G Hooper Pavement for highways
GB312293A (en) * 1928-02-17 1929-05-17 Victor Ivitsky Improvements in road construction
US2025815A (en) * 1932-07-18 1935-12-31 Walter Horridge Construction of roadways
US2041266A (en) * 1933-10-02 1936-05-19 Nat Equip Corp Method and apparatus for treating sunken composite pavements
US2266178A (en) * 1938-09-09 1941-12-16 Dubois Leon System for constituting a rolling track for vehicles
US2667038A (en) * 1952-07-17 1954-01-26 Charles A D Bayley Subaqueous supporting structure for working platforms
US2741910A (en) * 1954-07-26 1956-04-17 Joseph H Thornley Building foundation
US2867301A (en) * 1956-07-26 1959-01-06 Joseph H Benton False flooring system

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US144748A (en) * 1873-11-18 Improvement in pavements
US1557165A (en) * 1922-11-01 1925-10-13 Elmer G Hooper Pavement for highways
GB312293A (en) * 1928-02-17 1929-05-17 Victor Ivitsky Improvements in road construction
US2025815A (en) * 1932-07-18 1935-12-31 Walter Horridge Construction of roadways
US2041266A (en) * 1933-10-02 1936-05-19 Nat Equip Corp Method and apparatus for treating sunken composite pavements
US2266178A (en) * 1938-09-09 1941-12-16 Dubois Leon System for constituting a rolling track for vehicles
US2667038A (en) * 1952-07-17 1954-01-26 Charles A D Bayley Subaqueous supporting structure for working platforms
US2741910A (en) * 1954-07-26 1956-04-17 Joseph H Thornley Building foundation
US2867301A (en) * 1956-07-26 1959-01-06 Joseph H Benton False flooring system

Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3256785A (en) * 1962-04-12 1966-06-21 Pintsch Bamag Ag Ground covering apparatus
US3500601A (en) * 1966-11-14 1970-03-17 Peter Hamill Building structures
US3961453A (en) * 1973-05-17 1976-06-08 Paul Couwenbergs Supports for constructional or building elements
US3909145A (en) * 1974-03-28 1975-09-30 Us Air Force Panel grid module construction system
USRE32663E (en) * 1980-11-18 1988-05-03 Articulated erosion control system
US4749302A (en) * 1983-05-16 1988-06-07 Declute Robert G Spacing pad
US4914881A (en) * 1986-01-10 1990-04-10 Techfloor Pty. Ltd. Access flooring system
US4835924A (en) * 1986-12-17 1989-06-06 Tate Acess Floors Self-gridding flooring system
WO1990005213A1 (en) * 1988-11-07 1990-05-17 Gosnell Glenn D Containment system for paving material
US5102256A (en) * 1988-11-07 1992-04-07 Gosnell Glenn D Containment system for paving material
US5556228A (en) * 1995-02-06 1996-09-17 Smith; Lee A. Block for controlling soil erosion
US5988942A (en) * 1996-11-12 1999-11-23 Stewart Trustees Limited Erosion control system
EP1577441A1 (en) * 2002-12-05 2005-09-21 LUO, Jingxun A triangular overhead terrace assembly
EP1577441A4 (en) * 2002-12-05 2006-12-13 Jingxun Luo A triangular overhead terrace assembly
US20070053745A1 (en) * 2002-12-05 2007-03-08 Jingxuo Luo Triangular raised terrace assembly
US20100281795A1 (en) * 2008-03-04 2010-11-11 Jose Leon Garza assembly system for insulating floors
US8387316B2 (en) * 2008-03-04 2013-03-05 Jose Leon Garza Assembly system for insulating floors

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