SU759674A1 - Built-up reinforced-concrete pile framework - Google Patents

Description

The invention relates to the field of construction and can be applied in the design of single-storey industrial buildings for agricultural purposes. five

Known reinforced concrete frame of two half-frames, connected in the ridge knot hinge. Each semi-frame includes a lattice stand and a half-hanger, with the stand supported on a pillar-LO foundation, and the latter in turn is supported on a footing of a triangular profile (to ensure perception of both the vertical and horizontal components of the reference action [1].

However, with such a construction of a reinforced concrete frame, a trapezoidal lattice rack is difficult to manufacture, its horizontal elements are non-working ,. and for the construction of foundations significant ground works are required.

Closest to the invention is a precast concrete pile ^ K naya frame, including hinged semi-frames, each of which consists of a semi-gang and supported on a pile pile with a cantilever projection,

'on which the brace is supported (2]. 30

2

The disadvantage of this frame is the considerable material consumption of a pile foundation, working with a bend, and a semi-grip in sections near the joint of the brace and the semi-gang.

The purpose of the invention is to reduce material consumption. This is achieved by the fact that in the team of reinforced concrete pile. a frame including pivotally connected semi-frames, each of which consists of a semi-girder and a rack supported on a pile with a cantilever projection on which pddkos is supported, the pile of each semi-frame is located at an angle to the vertical, equal to V - the vertical component of the support reaction) and the lower end of the rack is made with a bevel at an angle of Φ to the horizontal and is provided with a holder covering the lower end of the rack and the upper end of the pile at the place of their connection.

FIG. 1 shows the proposed frame, a general view; in fig. 2 - the lower end of the rack; FIG. 3 - the junction of the rack, strut and piles; in fig. four.-·' . junction of the strut and polurigel.

The precast reinforced concrete pile frame is formed from semi-frames, including rack 1, strut 2 and semi-rim.759674

gel 3 connected by a hinge 4 and supported on inclined piles 5. The lower end of the post 1 has a side console protrusion 6 on which the brace 2 is supported, and a bevel 7 with which the post 1 is supported on the pile 5, and the bevel 7 is perpendicular to the lines of action resultant support reaction K at an angle to the vertical F = "

gags1dN / U, where V is vertical, H is the horizontal component of the support reaction.

The upper end of the strut 2 is placed in the nest 8 of the semi-anchor 3, which is open at the bottom And two lateral sides, and the nest itself is shaped, for example, by a trapezoidal prism.

Between the upper end of the strut 2 and the nest 8 of the semi-airiga, a metal lay-out is installed with a gap ха xa 9. 7? 7; 7-7 /.

When the location of the bevel 7 (see Fig. 2) rack 1 at an angle to the vertical F: agsldi / Y the longitudinal axis of the pile 5 is located on the pine of the action of equal action I and the pile works in compression (without bending), which reduces the materials intensity of the pile frame.

Claims (1)

Claim A precast reinforced concrete pile frame that includes hinged semi-frames, each of which is made of a semi-girder, and is supported on a pile with a cantilever projection, on which the brace is supported, in order to reduce material consumption, pile each to the semi-frames it is located at an angle to the vertical, equal to Ф -Агс! дН / У, where Нgorieontalnaya, and V - the vertical components of the support reaction, and the lower end of the rack is made with a bevel at an angle Ф to the horizontal and provided 5 clip, covering the lower end of the rack and the upper end of the pile in the place of their connection. . Sources of Information taken into account in the examination About 1. Zhuravok V.I. Frame reinforced concrete structures in rural construction. Odessa, "Mayak", 1974, pp. 11-14. ? - ?? · 2. USSR author's certificate 5 on the application number 2161660 / 29-33, cl. E 04 B 1/20 1975 (prototype). 759674