SU1377319A1 - Method of constructing cement-concrete paving - Google Patents

Abstract

The invention relates to road. construction and can be used for the construction of cement concrete roads, airfields and outdoor pavements. The aim of the invention is to increase productivity and reduce energy intensity. In the known method of erecting a cement concrete coating, which includes preparing the base, laying stone material and injecting cement mortar into intergranular voids while simultaneously displacing the pumping agent, the cement mortar is produced by flat pulsed pressure jets oriented at an angle of 5-10 & relative to the normal to the surface of the layer of stone material, and the jets are moved in the direction opposite to the direction of their inclination.3 sludge. 5 i (L

Description

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The invention relates to road construction and can be used in the construction of cement concrete pavements for roads, airfields and open areas.

The purpose of the invention is to increase labor productivity and reduce energy consumption

FIG. 1 shows an apparatus for inspecting the proposed method 5 in FIG. 2 — node I in FIG. 1; (the position is closed by an elastic flap and a slit inclined nozzle in the period of ejection of a jet of cement mortar); Fig. 3 is the same (the position of the Open elastic gate during the period of suction of the cement slurry into the working space between the bottom and the elastic shutter),

The device for carrying out the method comprises a self-propelled chassis 1 with a shaft 2 of the power take-off (FIG. 1), with an open two-row frame 3 located in front of the feed hopper 4 with a flap 5 (FIGS. 2 and 3) installed in the bottom of the bunker 4, feeder in the form of a shaft 7 threaded through the lower part of the bin 4 with bar agitators 8 with planes of rotation around the shaft-7 aligned with the axes of the slot nozzles, .9 the bottom 10 of the bunker 4,

The bottom 10 is made as part of the surface of the cylinder. The slotted nozzles 9 are located along the periphery of the generator cylinder. Nozzles 9 have a smooth entrance from the side of the bunker 4 and a sharp edge to the flap 5. Lastly, it is made elastic and fixed along the periphery to the bottom 10 of the bunker 4. To the flap 5 in its central part there is a fixed nozzle 11 with an axis 12 set at an angle of 5 10 from the normal 13 to the surface 14 of the stone filler

The axis 12 of the nozzle 11 is deflected from the normal 13 in the direction opposite to the displacement, t, e. in the direction of the angle of the stone aggregate surface 14 filled with cement mortar. The distance A along axis 12 from the cut of the nozzle 11 to the surface 14 of the stone aggregate ranges from 20 to 50 mm and is governed by the size of the large aggregate fraction. The nozzle 11 is connected via a vibromechanism 15 to a power take-off shaft 2. The bunker 4 is installed on the take-off0

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cylinder 16, fixed to the double-girder frame 3,

The device works as follows.

Cement mortar is poured into the hopper 4. Here, the elastic flap 5 is in the closed position. The bunker 4 is lowered by means of cylinders 16 from the transport position (in the transport position the bunker is raised to the level of the road position) to the working position, i.e. to the distance A from the surface 14 of the stone filler to the cut of the nozzle 11,

The vibro-mechanism 15, driven by the power shaft 2, is turned on. At the same time, the agitators 8 feed the cement slurry into the slotted nozzles 9 in the bottom 10 of the bunker 4, the valve 5 vibrates together with the slotted nozzle 11. It also acts as a pulse pump firing cement through the slotted nozzle 11 to the side of the stone aggregate surface.

When the device is operated, the self-propelled chassis 1 moves at a slower speed. The solution fills the voids between the coarse aggregate and simultaneously vibrates it due to the pulsed energy of the jet itself. When the axis 12 of the nozzle 11 is tilted at an angle of L 5-10 towards the filled stone compactor, the efficiency of vibro-compaction of the cement-concrete coating increases, which results in an increase in the strength of the coating.

The use of the proposed method makes it possible to increase the productivity of pouring cement stone aggregate with cement mortar, to increase the strength of the resulting cement concrete coating with reduced energy consumption for vibration compaction, since the latter is carried out simultaneously with the pouring.

Claims (1)

Formula of the invention A method of erecting a cement concrete coating, including preparing the base, laying stone material and injecting cement mortar into intergranular voids with simultaneous translational movement of the working body, characterized in that, in order to increase labor productivity and reduce energy intensity, the cement slurry is injected by flat pulsed pressure jets, oriented at an angle of 5-10 relative to the normal to the surface of the layer of stone material, and the jets are moved in the direction opposite to the direction of their inclination. pi / .; //////////// 7 ///////// //) (////////// // // 7 / /// / 7 //// /// / W /five P  ) (/ /////////// 7 ///// /// // In Wt2