US2332688A - Apparatus for making concrete roadways - Google Patents

Description

O 26, 1943- R. w. BAlLY 2,332,688

APPARATUS FOR MAKING CONCRETE ROADWAYS Original Filed Sept. 18, 1939 45 p 41 A 3 26 INVENTQR.

Patented Oct. 26. 1943 APPARATUS FOR MAKING CONCRETE ROADWAYS Robert W. Baily, Narberth, Pa.

Original application September 18, 1939, Serial No.

Divided and this application August 11, 1941, Serial No. 406,364

3 Claims.

My invention relates to an apparatus for striking of! or leveling the surface of a concrete or similar types of roadways and vibrating the latter to cause the concrete to become exceedingly dense and homogeneous and rid it of entrapped air and water.

It is one object of this invention to provide a A further object of my invention is to provide means in the bins or hoppers for conveying the material longitudinally in the bins, from the ends toward the intermediate zone, from one end toward the opposite end, or from the intermediate zone toward either end, so that the material as received in the bins may be kept uniformly disposed over the whole length of the bins, or concentrated at any locality or localities in the bins at the will of the operator.

Another object of my invention is to provide means to prevent the segregation or separation of the material before and during treatment.

This application is a division of my copending application, Serial No. 295,530, filed September 18, 1939, which issued November 4, 1941, as Patent No. 2,261,491.

Referring to the accompanying drawing:

Figure 1 is a top plan view of a preferred form of my apparatus.

Figure 2 is a vertical cross sectional view taken on the line 2-2 of Figure 1.

Figure 3 is a vertical cross sectional view taken on the line 3-3 of Figure 1.

In the embodiment chosen to illustrate my invention, there is shown asubgrade 6 which has been prepared to receive a material such as concrete. On the subgrade are positioned forms 9 of the usual kind secured to the subgrade by conventional means in order to confine the material to a selected portion of the subgrade such, for example, as a roadway.

For depositing the material I provide a bin or hopper iii provided with a front wall i2 and a rear wall it. It will be noted that the front wall has a lower portion is extending below the top of the form t which is below the top of the finished level of the material to be placed. The rear wall it is bent around so that a screedlike portion l8 trails behind the bin. The screed as here shown is level with the top of the forms which, at the same time, determines the finished level of the material being'placed. The bin also is provided withends 20, only one end of which is shown in Figures 1 and 2. The other end, of course, is the same in construction except that the parts are reversed.

Thematerial 22 which is to be placed on the subgrade is deposited into the top of the bin l0 which carries along a substantial quantity of it so that the bin will always be partly full. The material passes down through the bin and ,out through anorifice 24 at the bottom of the bin from whence it spreads to the subgrade. As the bin passes along, aportion 26 of the material under the screed will completely fill the space on top of the subgrade and the under side of the screed.

To assist in placing the material on the subgrade as it emerges from theorifice 24, there is provided a vibrator generally designated by thecharacter 30 contained'within ahousing 3|. The housing may be located anywhere .with relation to the bin ill but for convenience, as shown in Figure 3, the housing has been located adjacent thelower orifice 24 of the bin in and is sustained byend 20 ofbin I 0 by means ofelastic connections 34 which serve to dampen the transmission of vibrations fromhousing 3! to bin In or other parts of the mechanism or to the forms or other structures associated with the material, and to allow free vibration of vibrator, 30. Thehousing 3| is associated withrotative means 36 and a rotatingshaft 38 which carries out-of-balance weights 40. A stub shaft 4| suitably journaled in acasing 43 is driven bybevel gears 45 and 41 and rotates asimilar weight 40.

Abovehousing 3| or elsewhere as convenient, I provide a conveying mechanism 42 which for convenience I have shownas twin screws 44 and d6, arranged on theirhollow shafts 48 and 50. Shaft 48 extends through binend 20 running in gland 52 and is revolved in either direction by apower mechanism 54. Gland 52 may be of rubber and thus be resilient to afford vibration damping means for damping the transfer of vibrations to carriage parts, forms, or other structures associated with the material.Hollow shaft 50 is rotatably associated withshaft 48 at 56 and is rotated by means not shown, in a manner similar to power means 54.Shafts 48 and 50, may be provided withshafts 58 carrying out-of-balance weights 60 rotated byrotative means 62.Shafts 48 and 50 may be provided with vibrating mechanisms 64 and weights Ella. A rear wall l4,

through arounded portion 66, is associated with the screed l8. Walls !2 and i6 andends 20 of bin in and the screed as may be associated with vibration mechanisms '36 and weights 68a, connected in turn with a suitable power means not shown. Wheels i may be provided for engagement with theforms 8 for afiording a carriage for bin i0 and its associated apparatus. A drive bracket 14 may be propelled by'a suitable motive power, not shown herein. Elastic means, likewise not shown, may be interposed between thebin 90, the screed Id, and theform 8 for damping the transmission of vibrations from the bin i0 or the.

screed is or associated devices, to carriage '10 orform 8. In lieu of carriage as shown, other carriage or propulsion means not shown may be provided. Screed it may be arranged not to make contact with the form.

In the operation of the apparatus described, I show in Figure 3 thematerial 22 to be treated deposited in the bin 10 with its upper level preferably maintained at an elevation above aportion 80 of screws t4 and 46. Should the material be not satisfactorily disposed through the length of bin II], it may be conveyed longitudinally of the bin in either direction or in both directions by proper manipulation ofscrews 43 and 46. If desirable, the screws M and may impart vibrations to the material to render it plastic, or

to prevent segregation, or to expel entrapped air and surplus water, to condense and improve the material, or to cause particles of the material to move relatively to each other. These objects may be supplemented or assisted or otherwise attained by imparting to the material, vibrations from the walls of the bin Ill or from the screed ill or from the vibrator 3G in thelower orifice 2 3 of the bin of the apparatus, or in conjunction with other equipment. Likewise any part of the apparatus may be arranged for adjustment in any direction,

whereby the distance between theforms 8 may be variedor the finished surface of the material may be left at any elevation 0r having any desired contour or crown. and whereby the material may be constructed in a plurality of strata or whereby a variety of materials may be deposited simultaneously or in any sequence.

It will be understood that the vibrating mechanism herein described may be supported on a carriagesuch as here shown or on pavement or other machines, by vibration damping means such as are illustrated in my Patents No. 2,018,294, No. 2,094,910 and No. 2,110,413.

I claim as my invention:

1. A vibrating apparatus for placing composite material and striking off said material to a finished grade level comprising an elongated bin having sides and end Walls for holding and delivering the material, said bin having a discharge opening at the lower side extending over the sur- 1 face on which the material is to be placed, supporting means for supporting and advancing the bin laterally relative to its long dimension across said surface, a conveyor in the bin comprisinga helical rotating member extending from end to end thereof for passing material endwise within or by any combination of manipulation of the parts. i

Thevibrator 38 may be located below and before theorifice 2 5 of bin ID, or before, below or behind screed i8.

In the arrangement shown, thematerial 22 will, by force of gravity assisted j by vibrations, p'ass downwardly through bin i0, pastscrews 56 and d8, thence past. vibrator and be deposited on supporting medium or subgrade. 6.; Thematerial 22 shown atlocation 26 will then be acted upon by the screed i8 either to vibrate'the ma-.

terial or to strike it ofito approximately the desired surface elevation, or bot While I have indicated the'apparatus as a unitary structure, I may divideit into a plurality of parts, whereby the bin or its associated devices may-be operated separately from the other partsthe bin, said rotating member being hollow and having a rotating shaft journaled therein carrying off-center weights comprising a vibrating member adapted to vibratesaid conveyor, and power means connected to said vibrating member actuating said member during the placing of said material.

2. In an apparatus for making concrete roadways and the like, an elongated hopper having an elongated bottom orifice extending lengthwise of the hopper, a conveyor in the upper part of the hopper for moving material lengthwise of the hopper, an elongated vibrator arranged in the path of material passing through the orifice, means for vibrating the conveyor, and means for vibrating the hopper walls.

1 3. In an apparatus of 'the kind described, an elongated hopper having an elongated bottom orifice, conveyor means in the upper part of. the hopper for moving material lengthwise of the hopper, means for vibrating the conveyor so that material packed into the hopper may ,be simultaneously distributed lengthwise of the hopper and internally vibrated.

ROBERT w. BAILY.

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