US306137A - darrig-an - Google Patents

darrig-an Download PDF

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US306137A
US306137A US306137DA US306137A US 306137 A US306137 A US 306137A US 306137D A US306137D A US 306137DA US 306137 A US306137 A US 306137A
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bricks
brick
projections
faces
cavities
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04CSTRUCTURAL ELEMENTS; BUILDING MATERIALS
    • E04C1/00Building elements of block or other shape for the construction of parts of buildings
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/02Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/02Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
    • E04B2002/0297Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements of which the width is less than the wall thickness

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  • My'invention relates to a description of doublejointed bricks called interlocking bricks, adapted for all kinds of buildings, but more particularly for flooring, terraces, flagging, vaults, fiat or arched, stairs, partitions, &c.,which, owing to their construction, do not necessitate the use of any horizontal supporting-pieces of wood, iron, or other material.
  • My improved brick is distinguished by having formed on each of its two opposite broad faces, a cavity which is of trapezoidal form in planes parallel with said faces, and is of dovetail form in transverse section, the said cavities being disposed in inverse directions, or having reverse taper upon the two sides of the brick, their average breadth being equal to one-half of the breadth of the brick.
  • the projecting parts of two ad joining bricks are interlocked, and are accurately inserted and make a perfectly solid whole, either in a transverse or a longitudinal direction. For this reason it is understood that the inversion in the oblique cavities and projections of the mass of bricks makes it impossible to take out any brick from the structurc without breaking it.
  • Fig. 2 is a perspective view of a series of my improved bricks. with holes for receiving dowels. and 6 are modified forms of bricks.
  • Fig. 7 is a perspective of two half-bricks.
  • Figs. 8, 9, 1'0, and 11 are transverse sections of diiferent forms in which we can make the bricks.
  • Fig. 12 is a projection of the several faces of one of the bricks.
  • Fig. 18 represents 011- a smaller scale a floor composed of such bricks as are shown in Figs. 13, 14, and 15, supported only at the ends of the course.
  • the form and dimensions of the bricks may be varied; but they ought always to be constructed in such a manner that the trapezoidal inclinations are placed in a direction symmetrically opposite upon the two faces of the brick.
  • the large endE F, Fig. l, oft-he cavity on one of the faces may contain the two united projections C D and c d, and the small end cf of the cavity may contain the two united projections A B and'a I).
  • the lines which unite the point 13 to the point D and the point I) to the point (1 may be straight, curved, or broken, as shown in Figs. 1, 3, 4, 5, 6 in the .drawings.
  • the drawings show the construction clearly, and also the dovetailed form of the cavity of each brick.
  • the bricks ought to be placed side by side, forming a series, B B B &c., as shown in Fig. 2, so that the narrow ends of the projections and the broad ends of the cavities will be in the same line, and vice versa. They will then produce at their junction complete dovetailed proj ections Q Q Q upon one of the faces of the se-' ries, and q g g upon the other. These inversions of the bases occurin such a manner that all the projections on the front face in the row of bricksB B 13* maybe exactly and correctly clamped by the cavities C O O of the rear face of the succeeding row, and so on.
  • Fig. 10 represents one of the ends of a brick, in which the cavities are perpendicular. This brick may be used in buildings where there is I a sufficient stay upon two opposing lines, and
  • bricks may be made not only of baked clay, but also of cement or hardened plaster in short, of i any susceptible (soft) material
  • I claim I can manufacture hollow bricks pre pared in the same way for building, where the greatest possiblelightness with solidity is required.
  • I may also manufacture bricks by my syssucceeding course or line.
  • the bricks may be drawn through a draw-plate.
  • This kind of brick with profile of the ob lique-angled figures shown in Figs. 13, 14, and 15, can be used, as represented in Fig. 18, without using any horizontal auxiliary supports but the exterior supportingwalls.
  • each of two opposite faces of a brick is composed of or comprises a trapezoidal cavityand two projections, the aggregate dimensions of which are equal to those of the cavity.
  • My bricks also have opposite faces, each composed of or comprising a similar cavity and projections.
  • the essential difference between Cartwrights bricks and mine is that in his patent the two cavities and projections on opposite faces of a brick taper in the same direction, or are parallel, while according to my inven tion the cavities and projections on one face of the brick have a reverse taper to the projections and cavity on the opposite side of the brick.
  • the cavities on the outer or exposed faces of the bricks of the second row or line will have their wider or larger ends uppermost, and a third row or line of bricks may be slid downward into engagement with the bricks of the second row or line, and so on till the fioor or pavement is laid, each course or line being sustained by the preceding course, and in its turn sustaining the next It is because of the reverse taper of the cavities on the 0pposite faces of each brick that the bricks of each succeeding row may be placed by sliding them downward, and that the cavitiesin the exposed faces of the bricks of each course or line always have their larger or wider ends presented upward, to permit of so placing the bricks of the next course or line.
  • a brick for use as herein described having opposite faces each composed of or comprising a trapezoidal cavity and two corresponding projections, the aggregate di1nensions of which are equal to those of the cavity, the cavity and projections on one face having a taper reverse to those on the other face, substantially as and for the purpose herein de- 5 scribed.
  • a brick for use as herein described having opposite faces of rhomboidal form and other opposite faces each composed of or comprising a trapezoidal cavity and two corre- 10 spendingprojecti0ns,tl1eaggregatedimeusions of which are equal to those of the cavity, the cavity and projections on one face having a taper reverse to those on the other face, substantially as and for the purpose herein described.

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

Description

J. DARRIGAN.
BRICK.
' No. 306,137. Patented 001;. 7, 1.884,
\ AN $N fi w I W. m. J. W W fill $$R (No Model.) 2 Sheets-Sheet 2.
J. DARRIGAN.
, BRICK. Nq. 306,137,.." Patented 0013.7,1884
E ix R Jay/5.
UNrrEn STATES JEAN DARRIG-AN, OF
PATENT @FFICE CAGNOTTES, FRANCE.
BRICK.
SPECIFICATION forming part of Letters Patent No. 306,137, dated October 7, 1884.
Application filed January 3, 1883. (No model.) 7
To aZZ whom it may concern:
Be it known that I, JEAN DARRIGAN, of Cagnottes, in the Department of Landes, in the Republic of France, have invented a new and useful Improvement in Bricks, of which the following is a specification, reference being had to the accompanying drawings.
My'invention relates to a description of doublejointed bricks called interlocking bricks, adapted for all kinds of buildings, but more particularly for flooring, terraces, flagging, vaults, fiat or arched, stairs, partitions, &c.,which, owing to their construction, do not necessitate the use of any horizontal supporting-pieces of wood, iron, or other material.
My improved brick is distinguished by having formed on each of its two opposite broad faces, a cavity which is of trapezoidal form in planes parallel with said faces, and is of dovetail form in transverse section, the said cavities being disposed in inverse directions, or having reverse taper upon the two sides of the brick, their average breadth being equal to one-half of the breadth of the brick. In this manner the projecting parts of two ad joining bricks are interlocked, and are accurately inserted and make a perfectly solid whole, either in a transverse or a longitudinal direction. For this reason it is understood that the inversion in the oblique cavities and projections of the mass of bricks makes it impossible to take out any brick from the structurc without breaking it. From whichever side the pressure is exerted the very act of instead of employing trapezoidal shapes for the clamped surface of my bricks, I may equally well make use of two half-bricks of the form I described, with one or more projections,which are severally .disposed upon the two opposite faces of each brick. end as the brick with trapezoidal cavities. In either case bricks manufactured according to my invention are particularly intended to be used in an oblique position, such as in the spring of an arch, their small lateral faces generally presenting the form of a parallelogram in which the angle determines the incli- This attains the same nation at which the bricks ought to be placed.
Fig. 2 is a perspective view of a series of my improved bricks. with holes for receiving dowels. and 6 are modified forms of bricks. Fig. 7 is a perspective of two half-bricks. Figs. 8, 9, 1'0, and 11 are transverse sections of diiferent forms in which we can make the bricks. Fig. 12 is a projection of the several faces of one of the bricks. Figs. 13, 14, 15, 16, and 17 show different profiles which may be given to Fig. 3 is a view of a brick Figs. 4, 5,
the bricks to adapt them to different uses.
Fig. 18 represents 011- a smaller scale a floor composed of such bricks as are shown in Figs. 13, 14, and 15, supported only at the ends of the course.
The form and dimensions of the bricks may be varied; but they ought always to be constructed in such a manner that the trapezoidal inclinations are placed in a direction symmetrically opposite upon the two faces of the brick. The large endE F, Fig. l, oft-he cavity on one of the faces may contain the two united projections C D and c d, and the small end cf of the cavity may contain the two united projections A B and'a I). The lines which unite the point 13 to the point D and the point I) to the point (1 may be straight, curved, or broken, as shown in Figs. 1, 3, 4, 5, 6 in the .drawings. The drawings show the construction clearly, and also the dovetailed form of the cavity of each brick. The bricks ought to be placed side by side, forming a series, B B B &c., as shown in Fig. 2, so that the narrow ends of the projections and the broad ends of the cavities will be in the same line, and vice versa. They will then produce at their junction complete dovetailed proj ections Q Q Q upon one of the faces of the se-' ries, and q g g upon the other. These inversions of the bases occurin such a manner that all the projections on the front face in the row of bricksB B 13* maybe exactly and correctly clamped by the cavities C O O of the rear face of the succeeding row, and so on.
The sectional forms of the cavities of the bricks may be varied, as has before been said, and Figs. 6, 7, and 11 show three of these modes of variation.
Fig. 10 represents one of the ends of a brick, in which the cavities are perpendicular. This brick may be used in buildings where there is I a sufficient stay upon two opposing lines, and
which will form ornamental stone.
it can be employed for doubling a surface already strengthened in every direction.
For ordinary buildings I use a beveled bri'ckthat is to say, having bases oblique to the body of the brick, which gives it on two sides a rhomboidal form. It is consequently set sloping, as indicated by Figs. 13, let, and 15. As it is likewise indicated in those figures,-the slope may be varied at pleasure. This slope gives the bricks much more solidarity the one with the other; but for small surfacessuch as steps of stairs, &c.the form shown in Fig. 16 with vertical sides will be preferable. lVhen required to make a centered arch they may be of the form shown in Fig. 17, thicker at one end than the other in proportion to the rise which we wish to give to the arch, but always leaving the cavities and projections to make the joint. The oblique or rhomboidal profile, or this difference of thickness, only appears on the plain full faces of the brick, and not on the faces having the grooves and projections.
In molding the bricks a certain loo'seness is provided for between the projecting parts of each brick and their corresponding trapezoidal cavity in the other. This looseness is equally distributed between all. the surfaces, and is intended to receive the mortar, cement, plaster, or any other plastic material employed for cementing the bricks in juxtaposition.
These bricks may be made not only of baked clay, but also of cement or hardened plaster in short, of i any susceptible (soft) material In short, I claim I can manufacture hollow bricks pre pared in the same way for building, where the greatest possiblelightness with solidity is required.
I may also manufacture bricks by my syssucceeding course or line.
tem leaving the interior faces of the cavities parallel. In this case the bricks may be drawn through a draw-plate.
This kind of brick, with profile of the ob lique-angled figures shown in Figs. 13, 14, and 15, can be used, as represented in Fig. 18, without using any horizontal auxiliary supports but the exterior supportingwalls.
I am aware of British Letters Patent No. 2,046, granted A. D. 17 95 to Cartwright, andI do not claim anything therein shown or described as of my invention. In said patent each of two opposite faces of a brick is composed of or comprises a trapezoidal cavityand two projections, the aggregate dimensions of which are equal to those of the cavity. My bricks also have opposite faces, each composed of or comprising a similar cavity and projections. The essential difference between Cartwrights bricks and mine is that in his patent the two cavities and projections on opposite faces of a brick taper in the same direction, or are parallel, while according to my inven tion the cavities and projections on one face of the brick have a reverse taper to the projections and cavity on the opposite side of the brick.
Although Cartwrights bricks might be employed advantageously to build an arch or a wall they couldnot possibly be used to lay a horizontal pavement or floor unless props or other sustaining devices are employed to hold up such pavement or floor as fast as it is laid. \Vith my bricks the pavement or floor will be self-sustaining as fast as it is laid. Suppose, for example, the first line of bricks are fast in a wall, with their projections extending beyond the face thereof, the larger ends of the cavities being uppermost. The next row or line of bricks are then placed by pushing them downward, their projections sliding into the downwardly-tapering cavities of the bricks of the first row or line. The cavities on the outer or exposed faces of the bricks of the second row or line will have their wider or larger ends uppermost, and a third row or line of bricks may be slid downward into engagement with the bricks of the second row or line, and so on till the fioor or pavement is laid, each course or line being sustained by the preceding course, and in its turn sustaining the next It is because of the reverse taper of the cavities on the 0pposite faces of each brick that the bricks of each succeeding row may be placed by sliding them downward, and that the cavitiesin the exposed faces of the bricks of each course or line always have their larger or wider ends presented upward, to permit of so placing the bricks of the next course or line.
\Vhat I claim as my invention, and desire to secure by Letters Patent, is
1. A brick for use as herein described, hav ing opposite faces each composed of or comprising a trapezoidal cavity and two corresponding projections, the aggregate di1nensions of which are equal to those of the cavity, the cavity and projections on one face having a taper reverse to those on the other face, substantially as and for the purpose herein de- 5 scribed.
2. A brick for use as herein described, having opposite faces of rhomboidal form and other opposite faces each composed of or comprising a trapezoidal cavity and two corre- 10 spendingprojecti0ns,tl1eaggregatedimeusions of which are equal to those of the cavity, the cavity and projections on one face having a taper reverse to those on the other face, substantially as and for the purpose herein described.
JEAN DARRIGAN.
Vi tnesses EUG. DUBUIL, AUG. HAsL m.
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