RU176735U9 - CONCRETE LAYER - Google Patents

Abstract

The utility model relates to devices for molding and compaction of road-building materials and can be used in the construction of roads, runways of airfields, in factories of reinforced concrete products, etc.

2 s.p. f-ly, 2 ill.

Description

The utility model relates to devices for molding and compaction of road-building materials and can be used in the construction of roads, runways of airfields, in factories of reinforced concrete products, etc.

Known paver (patent for PM No. 105306 of the Russian Federation, ЕСС 19/48 (2006.01); filed 02/01/2011; published on 06/10/2011 Bull. No. 16), containing a frame on a self-propelled chassis, sliding forms, a hopper for receiving concrete mixture, a screw distributor mixture, a supercharger with a plate fixed on its base, a smoothing plate and a drive, while the mixture distribution screws are located inside the hopper, the discharge window of which is combined with the working area of the supercharger, one end of the supercharger is connected to the eccentric drive shaft, and the other end of the supercharger is connected to the an adjustable spacer lever pivotally connected via an adjusting device to the frame of the self-propelled chassis. This device is adopted as a prototype.

Analysis of the design of the concrete paver and subsequent testing of the prototype confirmed the advantages and identified design flaws. The disadvantage is poor material filling of the working area under the supercharger plate in the absence of a forced feed mechanism.

This is explained by the fact that when the supercharger plate moves down (compaction process), the pressed material moves not only towards the open space in front of the feeder hopper, but also gets into the lower part of the feeder hopper itself, which creates additional resistance to the movement of the mixture from the hopper when the plate moves Supercharger up (idle).

The specified disadvantage of the prototype is eliminated by the proposed solution of the utility model.

The technical result of the utility model is to ensure the forced filling of the working area under the supercharger plate.

The specified technical result is achieved by the fact that the paver contains a frame on a self-propelled chassis, sliding forms, a hopper for receiving concrete mixture, a screw mixer, a blower with a plate fixed to its base, a smoothing plate and a drive, one end of the blower is connected to an eccentric drive shaft, and the other end of the supercharger plate is connected to a swinging spacer arm pivotally connected to the frame of the self-propelled chassis. The working body of the paver is the blower plate, which is in direct contact with the material being sealed.

The stated essence is illustrated by drawings, where in FIG. 1 is a schematic diagram of a paver, and FIG. 2 - the working body of the paver.

The paver contains a frame 1 on a self-propelled chassis, sliding forms, a hopper 2 for receiving concrete mixture, a screw mixer 3, a blower 4 with a plate fixed to its base, a smoothing plate 5 and a drive 6, one end of the blower 4 is connected to an eccentric drive shaft 7, and the other end of the supercharger plate 4 is connected to a swinging spacer lever 8 pivotally connected to the frame 1 on a self-propelled chassis.

The supercharger plate 4 contains an arm 9 at one end, and a smoothing section 10 at the other end.

The supercharger plate 4 is connected with an eccentric drive shaft 7 rotating with an angular speed ω, and with a pivot-rod suspension of radius R.

The working surface of the plate of the blower 4 is made in the form of a broken line consisting of several sections, for example a, b, c.

), второй “b” имеет

; третий “c” имеет

.The first section “a” has a zero slope (

), the second “b” has

; the third “c” has

.

The slope of the bracket 9 is negative with respect to the working surface of the supercharger plate 4 (sections a, b, c).

The work of the paver is performed in the following sequence.

When the eccentric drive shaft 7 rotates, the bracket 9 of the plate of the supercharger 4 moves along an elliptical path, rising up, going into the discharge window of the hopper 2 of the feeder and scooping a portion of the material, moves it down and towards the working area of the plate of the supercharger 4.

Due to the reverse slope on the bracket 9, a new batch of material moves from left to right, i.e. fills the working volume under the supercharger plate 4.

The working surface of the supercharger plate 4 is divided into several sections with different angles, which allows you to create a zone of compaction with a different degree of intensity: “a” - extra-dense material, “b” - average density, “c” - zone of porous material.

When the machine moves from right to left (speed vector U), each section (a, b, c) of the supercharger plate 4 is pushed onto the front and pre-compacted material, bringing it to a higher compression ratio.

The smoothing section 10 of the supercharger plate 4 is made along an arc of a circle of radius R, which, when the supercharger moves, provides smoothing and grouting of the surface of the compacted material.

A design feature of the proposed device is the requirement: in the lowermost position of the supercharger plate, section “a” should have a zero slope, and negative for the bracket 9.

Claims (3)

1. A paver containing a frame on a self-propelled chassis, sliding molds, a hopper for receiving concrete mix, a screw mix distributor located inside the hopper, a supercharger with a plate fixed to its base, a smoothing plate and a drive, one end of the supercharger is connected to an eccentric drive shaft, and the other end of the supercharger plate is connected to a swinging spacer lever pivotally connected via an adjusting device to the frame of the self-propelled chassis, characterized in that at the front end of the supercharger plate is connected entrikovym drive shaft fixed bracket and at the other end plate has a blower with a portion of the working surface profile formed by a circular arc. 2. The paver according to claim 1, characterized in that the working surface of the supercharger plate is made in the form of a broken line, and each section of the working surface of the supercharger plate is different from each other by the value of the longitudinal slope. 3. The paver according to claim 1, characterized in that the working surface of the supercharger bracket has a reverse (negative) slope with respect to the slopes of the working sections of the supercharger plate.

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