US1553157A - Concrete slar - Google Patents

Description

Sept. 8, 1925. A 1,553,157

A. HENDERSON CONCRETE SLAB Filed Aug. 23, 1922 y I e z Patented Se t. 8, 1925.

UNITED STATES PATENT- OFFICE.

ALBERT HENDERSON, 0F PITTSBURGH, PENNSYLVANIA, ASSIGHOB T0 conrom'nox, or rn'rsnunen, rmmmvmm, A. comm-non on rmconcmirn m.

vn n.

Application fled August as, 1922. Seflall'o. ssaaob.

To all whom it may concern:

Be it known that I, ALBERT HENnnnsoN, a citizen of the United States, residing at Pittsburgh, in the county of Allegheny and State of Pennsylvania, have invented certain new and useful Improvements in Concrete Slabs, of which the following is a specification.

' The primary object of this invention is to provide a reinforced concrete slab which may be employed universally 1n the production of structural building elements, and a further object of the invention, is to provide novel means whereby the slab may secured in various combinations in a building or other structure. The invention also has for its object the provision of a novel construction whereby windows, doors, or snmlar elements may be connected with or supported by the slab, and other objects of the mven-. tion will appear incidentally 1n the course of the following description. The invention is illustrated in the accompanying drawings,-

and resides in certain novel features which will be particularly pointed out in the claims following the detailed description. v

In the drawings Figure l is a perspective view of a remforced concrete slab embodying my present invention;

Figure 2 is a sectional elevation showing the manner in which the slabs may be sup-- ported upon and connected with a beam 1n order to form a floor;

Figure 3 is a transverse section of the 'slab' F igure 4 is a bottom plan view showin permissible variations inthe under side 0 the slab.

My invention relates to that art in which reinforced concrete slabs are castor molded or otherwise produced at a central plant or factory and then shipped to the point of use. In my present invention, the slab 1, shown more particularly in Figure 1, may be of any preferred dimensions, although it will be' more commonly of the general oblong form shown. The upper surface of the slab may be scored, as indicated at 2, so that, when combined to form a floor, the finished floor will have the a rimoeof tlhng The bottom of the sl is""chambered, as shown at 3, whereby to reduce weight, and thechamber 3 maybe substantially co-extensive with the bottom of the slab and surrounded by the edgewalls thereof, as shown in Figure 3, or may be interrupted by a rib or ribs as shown in Figure 4. This figure shows four slabs, one having an uninterrupted recess, another having its recess interrupted by a transverse rib 4, another havmg its recess interrupted by alongitudinal rib 5, and another having its recess interrupted by twointersecting ribs 6 and 7, one extending transversely and the other 10 tudinally of the slab.Openings 7 maj fiie formed through the edge walls of the slab at desired points, as indicated in Figure 3, to receive electrical conductors or wires, and r1bs4, 5, 6 and 7 shown in Fi 4 may havebores 8 extending therethrough and through the edge walls of the slab for the same; purpose. Arecess 9 may extend from the lower face of any rib and intersect its bore to permit the connection of electrical lightin or telephone fixtures with the conductors. screw orsimilar fastening device 9" may be imbedded in the slab in the top of the said recess so as to provide means for suspending a lighting-fixture or other appliance. The

slab is provided in its end and side edges adjoining slabs so that, when the slabs are assembled, grout may be poured through the said notches and fill the grooves to form a key binding the slabs together. The upper corner portions of the slabs are 'cut away, as shown at 12, and theside walls 13 of "these cut-away portions are disposed somewhat obliquely so that they overhang the base portions thereof. in order that, when grout is poured into the joint between adjacent slabs, the slabs will be effectually keyed together. In making the slabs, ametallic reinforcement 14, which may be wire netting of any desired mesh, is embedded in the upper per-- tion of the slab and reinforcing rods orwires 15 are also embedded in the slabs and project through the ends and sides thereof, the projecting portions of these reinforcenlents being doubled on themselves to present eyes or loo'ps16 bridging thegrooves 10 in the ends and sides of the slab. Both ends of the said reinforcements are embedded in the slabs and theeyes 16 are of such size that, when slabs are brought together in any combination to produce a structural element, the eyes will project somewhat into the grooves of the adjacent slabs, and a connecting ortie bar 17 may be inserted through all the eyes, as shown in Figure 2. As shown in Figure 3, the transverse reinforcements may have their extremities wrapped around reinforcing.rods 18 embedded in the side portions of the slab adjacent the bottom thereof and/after being bowed t form theeyes 19 bridging the grooves in the sides of the slab, may be extended entirely through the upper portion of the slab, as shown at 20. This form of reinforcement may be used in thesame slab as the form shown in Figure 2 at 15 and 16, or either form of the reinforcements may be employed, as may be preferred. In Figure 2, I have shown the ends of two adjacent slabs resting upon a beam to form a floor, the beam being constructed ofpre-cast concrete blocks 21 tied together byrods 22 inserted through the entire series of blocks and secured in any convenient manner as their ends. Theblock 21 is also provided withgrooves 23 in its ends and a reinforcing andtying stirrup 24 is fitted in one of these grooves and about one of thetie rods 22 and extended up through the recesses ornotches 11 of the slabs to be engaged around thetie bar 17, as clearly shown. Anopening 25 is cut in theblock 21 to permit the passage of the stirrup 24: and after these parts have been assembled, grout is poured through the opening provided by the cut-awayportions 12 whence it will flow through therecesses 11 and the several grooves of theblock 21 to bind all the parts together and embed the reinforcements with the result that a monolithic mass is produced when the grout has set.

Having thus described the invention, what is claimed as new is.

1. A building element consisting of a slab having metallic reinforcements embedded therein. the slab being provided with one 65 fiat face and having its opposite face chambercd, the slab being further provided with a groove extending around its end and side edges and having a recess formed in one of its edges transversely to and communicating with said groove, some of the reinforcements in the slab bridging the said groove.

2. A building element consisting of a slab having metallic reinforcements embedded therein and provided with a groove extending around its side and end, edges, said side and end edges above said groove being cut away to form grout-receiving keyways, and

a recess being formed in the slab to establish communication [between saidkeyways 10 and the saidgroov 3. A building ele rent consisting of a slab provided with one fiat face and having a chamber in its opposite face surrounded by the edge walls of the slab, said slab having a rib extending into said chamber from one of said edge walls, said rib having a bore extending therethrough and through said edge wall and having a recess extending from the lower face of the rib and intersecting said bore for accommodating an electric fixture.

4. A building element consisting of a slab provided with one flat face and having a chamber in its opposite face surrounded by the edge Walls of the slab, said slab having a rib extending into said chamber from one of said edge walls, said rib having a bore extending therethrough and through said edge wall and having a recess extending from the lower face of the rib and intersecting said bore for accommodating an electric fixture, said recess having means therein imbedded in the slab for securing an electric fixture in said recess. I

In testimony whereof I afiix my signature.

ALBERT HENDERSON. [1,. s.]

Images