US2269109A

US2269109A - Concrete placement apparatus

Info

Publication number: US2269109A
Application number: US293048A
Authority: US
Inventors: Jackson Corwill
Original assignee: Individual
Current assignee: Individual
Priority date: 1939-09-01
Filing date: 1939-09-01
Publication date: 1942-01-06
Anticipated expiration: 1959-01-06

Description

Jan. 6, 1942.

c. JAcKsoN 'CONCRETE PLACEMENT APPARATUS Filed sept. 1, 1959 3 Sheefs-Sheet l WW/W daf/fem ATTORNEYS Jan. 6, 1942. I

c. JACKSON CONCRETE PLACEMENT APPARATUS Filed Sept. 1, 1959 5 Sheets-Sheet 2 INVENTOR. BY oW/Y/ Mad/fsw? ATTORNEYS Jan. 6, 1942. c. JACKSON 2,269,109v

CONCRETE PLACEMENT APPARATUS Fi'led Sept. l, 1939 3 Sheets-Sheet` 3 A TTORN E YS Patented Jan. 6, 1942 UNITED STAT ES PATE`. 1\1-Ty OF FICE 2,269,109V Y CONCRETE vPLACEMENT APPARATUS Corwill Jackson, Ludington, Mich. Application September 1, 19395v Serial No. 293,048I 15 claims. (o1. `sar-4e) The main objects of this invention are:`

First, to provide a machine or apparatus for the placement of concrete. such as pavements, concrete slabs, walls of ditches, conduits, or the like which. is. well adaptedA for use in the placement of. concrete having relatively largeA aggregate and a. relatively small amount ofv lines particularly where the concretemixture is of relatively low water content.

Second, to provide a machine of this character which is. capable of a wide range of adjustment for adaptation toplacement of concrete of different formula as to aggregate, nes, cement, and water contents and to meet various engineering specications.

Third, to provide an apparatus of this vcharacter which is simple vin its adjustment and highly eiicient.

Objects relating to details and economiesof the invention will appearfrom the description to follow. The invention 'is dened and pointed out in the claims.

A `preferred embodiment of the invention is illustrated in the accompanying drawings, in which:

Fig.. 1 is a fragmentary view partially in longitudinal section on line of Fig. 2 of a concrete placement machine or apparatus embodying the features ofmy invention.

Fig. 21's a fragmentary plan'y view of a machine or apparatus in operative relation to the side forms of a pavement'y or the like -which constitute tracks for the machine. l

Fig. 3 is a vertical fragmentary section showing one of the several possible positions of adjustment of the vibratory element, the vibratory action being indicated by dotted lines.

Fig. 4 is a fragmentary section on a line corresponding to line 4-4 of Fig. 2, showing another possible position of the vibratory element', the vibratory action being indicated by dotted lines.

Fig. 5 is a fragmentary view partially in vertical section on line 5-501 Fig. 6 of a modified form or embodiment of my invention, the modication being in the structure and form of the vibratory element.

Fig. 6 is a fragmentary plan view showing the details of the vibratorypelement and its relation to the screed. n

Fig. 7 is a front elevation of the vibratory element.

Fig. 8 is a fragmentary View sectioned on line 8-.-8 of Fig. 6 showing the` vibratory elementin one operation relation. to a. mass being treated.

The present invention relates to the type of concrete placement. machines illustratedgin my Patent No... 2,150,325- issued March .14, 1939'and it. also embodies certain features of andzisin vto handle concrete mixes of such character without objectionable displacement or segregation of the aggregate. YI. also provider an apparatus which is capable .of a .very wide range of adjustment and adaptation .to meet. varying conditions as' to concrete mixes and specifications as to placement. Y

In..the embodiment of my invention illustrated in Figs. 1Y to 4,.4 inclusive, l represents thel main carriage. of wap'aving. machine provided With4v Aa y reciprocating screed 2` having ar face` plate k3 at.4 inthe drawings. The means for reciprocating? and advancing the Ascreedwform` no 'part of this invention, but thev reference numeral 5 representsv .a connecting: rod from a vsuitable n v screed reciprocating: crank and 16v indicates one of concrete A V .of .the thrust rollers so that -the screed is ad- Vvanced with the advancement of the machine.

The screed is provided with forwardly'projecting rearwardly converging Wings l. These wings overhang the sides-'of vthe forms 8l which serve as'tracks for' the carrying wheels 9 of the. main carriage.

Iwrprovide an auxiliary vibratory element carrying.v frame which in lthis embodiment comingvthemfon their pivots, comprise the hydraulic brackets 29.

cylinders l1 which are pivoted at I8 on the bracket I9 on the push bars l2 and provided with pistons having piston rods 20 connected by the links 2| to the wheeled supports I4, see Fig. 1. Brace rods 22 are provided for the frame side members, these brace rods being connected tothe push bars by the clips 23.

A single hydraulic cylinder is provided' and it will be noted that it is connected through the link 2l directly to one wheeled support member, the other being connected through a rockshaft 24 having an arm 25 thereon connected to the plunger rod. This arrangement is substantially that shown and described in detail in my above mentioned application for Letters Patent Serial No. 234,918.

The vibratory element 26 of the embodiment of my invention shown in Figs. 1 to 4, inclusive, is disposed horizontally and designed to be submerged on or lifted from the concrete mass to be treated and operated in various positions of adjustment. This vibratory element is of flattened cross section and of substantial width, and in this embodiment it is of rearwardly tapered streamlined section having a rounded nose 21. The vibratory element is provided with hanger brackets 28 and also with motor supporting These motor supporting brackets are disposed centrally relative to the length of the vibratory `element and support.

The vibratory means in this embodiment consists of an electric motor 30 disposed with its shaft 3| longitudinally of the vibratory element and provided with an unbalancing weight 32.

Y The electrical connections for the motor are notillustrated. The flexible non-extensible hangers i 33 are engaged at their upper ends with the cross pieces 34 on the hanger brackets 35 which are rotatably clampedto the transverse frame member H by means of the U-bolts 36. By adjust-- ment of these brackets the vibratory element may be supported in a transversely tilted position as shown in Fig. 3.

The brackets 35 are provided with forwardly*i and downwardly projecting arms 31 to which the flexible non-extensible draft members 38 are secured, the draft members being connected at the forward edges of the vibratory element. By adjustment of the brackets i3 and 23 on the push bars, the position of the vibratory element relative to the screed may be adjusted; that is, it may be adjusted to and from the screed in addition to its vertical and tilting adjustment, and it is possible with the mechanism illustrated to adjust it to a position shown in Fig. 4 in which a portion of the vibratory element is below the shoe 39 of the screed.

This supporting means permits the vibration of the vibratory element in an approximately orbital path, such movement being induced by the vibrating means illustrated. It will be understood that it is desirable to vibrate the vibratory element at high frequency, from 3500 vibrations per minute on upwards, and also that a large amplitude of vibrations is not required.

In the embodiment of my invention shown in Figs. to 8, inclusive, the vibratory element comprises a main plate 4|] of steel, this being somewhat tapered toward its ends and formed of steel of suitable gauge to provide suicient rigidity so that vibrations are translated from centrally disposed vibratory4 means designated generally by the numeral 4I.

The vibratory means in this embodiment illus- `trated is an electric motor, therotor of which is lto provided with an unbalancing Weight indicated by the dotted lines 42, Fig. '1. This vibrating unit is carried by the centrally disposed brackets 43. The plate 40 is provided with

motor attaching plates

44 and 45 arranged on opposite sides of the main plate and clamped thereto by means of the motor bracket securing bolts 46. The

plates

44 and 45 are preferably oppositely bowed somewhat prior toclamping these parts together so that the

members

44 and 45 are in clamping relation to the member 40 throughout their length.

This vibratory element is provided With a plurality of holes 41 of such size and number as to permit the passage therethrough of the concrete mortar or paste to the top of the vibrating element and thus. counterbalance or compensate for the segregation of the fines and larger aggregate which is more pronounced in the upper part ofV the mass being treated. I have attempted to conventionally illustrate this at 48 in Fig. 8but it will be understood that accuracy in illustration is not attempted. It is a demonstrated fact, however, that substantial amounts of themortar or excess paste does pass through these openings in thev vibratory element. I have not attempted in the drawings to show these in the number, location relative to each other, or the size thereof in proportion to the size of the element illustrated.

The vibratory element is provided with hanger brackets 49 at the ends thereof to which the flexible non-extensible hangers 33 are secured. The vibratory element is also provided with flexible non-extensible draft members 38 connected at their forward ends to the arms 31 as in the structure previously described. The adjustments and possible positioning of the vibratory element are, of course, the same as those of the embodiments of Figs. 1 to 4 as I have used the same supporting and adjusting means.

In the embodiment shown in Figs. 1 to 4 the axis of the unbalanced rotor is disposed longitudinally of the vibratory element. In this embodiment it is disposed transversely and there are certain advantages in this transverse disposition of the rotor, particularly With the type of vibratory element shown in Figs. 5 to 8.

I have illustrated and described my improvements in embodiments which are capable Vof very Wide range of adjustment and which are particularly well adapted for the placement of concrete having a low water content with a relatively small amount of fines and a correspondingly high amount of cement.V Inv the placement of such material it isdesirable toavoid separation of the mortar from the aggregate, and by proper adjustment I am able to meet a wide range of requirements. I have not attempted to illustrate various* other modifications and adaptations which I contemplate as it is believed this disclosure will enable those skilled in the art to embody my-invention as may be desired.

v AHaving thus described my invention, what I portion, a vertically adjustable support for .said

disposed vibratoryelement? of 'horizontally .attened cross `"section and of substantial width and having krearwardly bevel-ed'V ends, said; vibratory element being disposed .to extend between said wings, means for supporting said vibratoryelement from. said' transverse frame member per'- mitting vibratory movementv thereof, motorvsupporting brackets disposed centrally of saidxelement', and an unbalanced rotor mountedgon saicl brackets.

2.y In a machine of the class described, the

combination `withy a screedhaving a face plate adapted to supporta substantial amount of material to be treated and having forwardly pro.-

jecting inwardly converging wing. portions-atv the ends thereof, of, a'vibrat'ory element supporting means advanced with the said screed' and'provided Withmeans-for vertical vadjustment thereof, a horizontally disposed submersible vibratory element carried by said supporting means for vertical adjustment therewith, said vibratory element being of horizontally iiattenedy cross section and being of substantial* width, the ends of the vibratory element being rearwardly beveled, said vibratory element being disposed to extend between said wings, and means for. imparting high frequency vibrations to,` said vibratory ele'- ment comprising an unbalanced rotor mounted on said vibratory element.

3. In a machine. of. the class described, thecombination with a screed having a face plate adapted to support a substantial amount of material to ybe treated, a horizontally disposed submersible vibratory element supporting means advanced with the said screed and provided with means for vertical adjustment thereof, a Vibratory element carried by said supporting means for vertical adjustment therewith, said vibratory element being of flattened rearwardly tapered streamlined cross section and being of substantial width, means for imparting high frequency vibrations to said vibratory element, and means for supporting said vibratory element from said support permitting transverse tilting adjustment of the vibratory element relative to the plane of the shoe of the screed, said sup-porting means being adjustable to position the vibratory element below the plane of the bottom of the screed and with the rear edge of the vibratory element extending below the screed.

4. In a machine of the class described, the combination with a screed having ya face plate adapted to support a substantial amount of material to be treated, a horizontally disposed submersible vibratory element supporting means advanced with the said screed and provided with means for vertical adjustment thereof, a vibratory element carried by said supporting means for Vertical adjustment therewith, said vibratory element being of relatively flat cross section and being of substantial width and length substantially in excess of the overall vertical dimension or thickness thereof, means for mounting said vibratory element for edgewise advancement before said screed, means for imparting high frequency vibrations to said vibratory element, and means for supporting said vibratory element including means for the lateral tilting adjustment of the vibratory element relative to the plane of the shoe of the screed.

5. In a machine of the class described, the combination of a horizontally disposed elongated submersible vibratory element of rearwardly tapered cross section and having a rounded nose vibratory element',I hanger brackets. :on said Viibratory element; flexible non-extensible hangers connecting said brackets toy said support, ilexible non-extensible draft'members connected to the forward edgeof said'vibratory element, 'motor supportingbracketsdisposed' centrally :of said vibratory element, and" an unbalanced rotor mounted on said' brackets.

6. In an apparatus ofthe class described, vthe combination with a screed having a face-plate adapted to support a substantial amount of material to be treatedfof a submersible vibratory element of relatively fiat cross section, the width and length of said element 'being substantially in excess of' the overall vertical dimension or thickness thereof, means mounting said element for edgewise advancement in front of said screed,

means for adjusting said element vertically relative to saidk screedfandto and from s'aid'lscreed and to a position bel'ow said screed' with yarea'r portion of the vibratory element-below the ,shoe of the screed, and means for vibrating said vibratory element at high frequency. f'

7. In an apparatus ofthe class describedthe combination of an elongated submersible vibratory element of vflattened rearwardly tapered streamlined cross section of substantial width, vibratory meansconnected to the element "and impartingI high frequency vibrations to said' vibratory element, and translatable means connected to said element for advancing the same edgewise in a horizontal vplane in submerged relation to the material treated.

8. In an apparatus of the class described, the combination with a screed having a face plate adapted to support a substantial amount of material to be treated, of a submersible vibratory element of flat cross section and'of substantial Width, means connected to said screed,"to which means said element is secured for supporting the element in front of the screed for edgewise advancement therewith, a tltable connection for the element to said last named means enabling tilting thereof relative to the screed, and vibratory means connected to the element for vibrating said vibratory element at high frequency.

9. In a machine of the class described, the combination of a horizontally ydisposed elongated submersible vibratory element of flattened cross section and of substantial width, said member comprising a main body plate and a shorter plate disposed in superimposed relation thereto and clamped thereto at a central point, rotor supporting brackets secured to said superimposed plates, an unbalanced rotor mounted on said brackets with its axis in transverse relation to the vibratory element, flexible non-extensible hangers connected to the main plate adjacent the ends thereof, and a vertically adjustable support for said hangers.

10. In a machine of the class described,the combination of `a horizontally disposed elongated submersible vibratory element of attened cross section and of substantial width, said mem- .ber comprising a main body plate and a shorter plate disposed in superimposed relation thereto and clamped thereto at a central point, means for vibrating said vibrating element at high frequency, flexible non-extensible hangers connected to the main plate adjacent the ends thereof, and a vertically adjustable support for said hangers.

11. In a machine of the class described, the combination of va radially disposed submersible vibratory element' of'attened cross section and of substantial width having a plurality of holes therethrough permitting the passage of the mortar or the smaller particles of the mass being treated, means for adjustably supporting said vibratory element permitting high frequency vibration thereof, and means for imparting high frequency Vibration to said Vibratoryfelement comprising an unbalanced rotor mounted on said vibratory element with its axis in transverse relation thereto.

12. In a machine of the 4class described, the combination of a radially disposed submersible Vibratory element of flat cross section and of substantial Width, translatable means to which said element is adjustably connected for advancing the same edgewise in a horizontal plane, and Vibratory means connected to said element for imparting high frequency vibration to said Vibratory element comprising an unbalanced rotor mounted on said vibratory element with its axis in transverse relation thereto.

13. In a machine of the class described, the combination of a radially disposed submersible Vibratory element of flattened cross section and of substantial width having a plurality of holes therethrough permitting the passage of the mortar or the smaller particles of the mass being treated, means for adjustably supporting said vibratory element permitting high frequency vibration thereof, and means for imparting high frequency vibration to said Vibratory element.

14. In an apparatus o f the class described, the combination of an elongated submersible vibratory element of relatively flat section the length and Width of which are substantially in excess of the overall Vertical dimension or thickness thereof, vibratory means connected to said element for imparting high frequency vibrations thereto, and a translatable support for said element to which the same is connected for advancing said vibratory element edgewise in a horizontal plane in a `direction transverse of its length, there being adjustable means connecting said element to said support enabling vertical adjustment and lateral tilting adjustment of the element relative to the support.

15. In an apparatus of the class described, the combination of an elongated submersible vibratory element of relatively iiat section the length and width of which are substantially in excess of the overall vertical dimension or thickness thereof, vibratory means connected to said element for imparting high frequency vibrations thereto, and a translatable support for said element to which the same is connected for advancing said vibratory element edgewise in a horizontal plane in a direction transverse of its length.

CORWILL JACKSON.