US3572842A - Transverse pavement texturing apparatus - Google Patents

Transverse pavement texturing apparatus Download PDF

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US3572842A
US3572842A US794216*A US3572842DA US3572842A US 3572842 A US3572842 A US 3572842A US 3572842D A US3572842D A US 3572842DA US 3572842 A US3572842 A US 3572842A
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roadway
cutter
vehicle
along
chassis
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Takeshi Mori
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Norton Christensen Inc
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Christensen Diamond Products Co
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C23/00Auxiliary devices or arrangements for constructing, repairing, reconditioning, or taking-up road or like surfaces
    • E01C23/06Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road
    • E01C23/08Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road for roughening or patterning; for removing the surface down to a predetermined depth high spots or material bonded to the surface, e.g. markings; for maintaining earth roads, clay courts or like surfaces by means of surface working tools, e.g. scarifiers, levelling blades
    • E01C23/085Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road for roughening or patterning; for removing the surface down to a predetermined depth high spots or material bonded to the surface, e.g. markings; for maintaining earth roads, clay courts or like surfaces by means of surface working tools, e.g. scarifiers, levelling blades using power-driven tools, e.g. vibratory tools
    • E01C23/088Rotary tools, e.g. milling drums

Definitions

  • the present invention relates to apparatus for producing textured surfaces in concrete and similar pavements, and more particularly to apparatus for simultaneously cutting a multiplicity of parallel grooves in pavements transversely across a trafiic lane of a highway.
  • Apparatus for cutting grooves in concrete pavement for the purpose of increasing the grip of the vehicle tires on the pavement to prevent skidding, particularly in wet weather. It is desirable to cut closely spaced transverse grooves in the concrete surface to not only increase the grip of the vehicle tires on the pavement, but to allow water to drain transversely from the highway surface and thereby prevent planing of the tires and skidding in wet weather.
  • Prior apparatus is of an excessive length and can only be used for cutting transverse grooves in a highway surface by blocking substantially all lanes of the highway, which is highly undesirable, particularly on freeways and other highways having a high traffic density.
  • a cutter go grooving apparatus which can cut transverse grooves in a highway lane without necessitating the closing of all lanes of a multiple lane highway.
  • the cutter assembly ismounted on a vehicle truck of a legal width, the cutter assembly being engaged with the highway surface and moved transversely across the trafiic lane to cut the grooves therein, whereupon the cutter assembly is elevated from the cutter surface to permit the vehicle to move forward a distance equal to the overall effective cutting length of the cutter assembly, whereupon the foregoing transverse grooving of the traffic lane is repeated.
  • the cutter apparatus While in use, the cutter apparatus extends beyond the sidesof the vehicle, but the end portions of thetrack upon which the cutter portion traverses transversely of the vehicle and traffic lane are foldable upwardly to permit the travel of the truck along the highway within the legal limit of the maximum width of a vehicle travelling along the highway, also permitting storage of the truck with the cutter apparatus mounted thereon within the space required for the truck itself.
  • Thenecessary cutting weight of the cutters against the pavement surface is obtained by imposing a desired portion of the truck weight thereon, to insure he the securing of the proper and uniform depth of cut of the cutters into the pavement. is predetermined and is controlled in a simple manner.
  • a safety device is also provided which prevents movement of the truck lengthwise of the highway lane, unless the cutters are elevated from the pavement surface.
  • the apparatus is capable of completing a transverse cutting cycle in a rapid manner, there being alternate transverse movements of the cutter assembly across the highway surface and longitudinal shifting of the truck vehicle to position the cutters for a return traverse pass across the pavement surface to produce parallel grooves therein equal to the overall length of the cutter assembly.
  • FIG. 1 is an isometric view of a transverse pavement grooving apparatus applied to a truck and positioned for transversely grooving a traffic lane;
  • FIG. 2 is a plan view of a portion of the drive mechanism for the truck
  • FIG. 3 is an isometric view and section taken along the line 3-3 on FIG. 1 of a portion of textured or grooved pavement produced by the apparatus;
  • FIG. 4 is a side elevational view of the truck and transverse pavement texturing apparatus
  • FIG. 5 is an enlarged side elevational view, with parts broken away, of the pavement texturing apparatus illustrated at the lower central portion of FIG. d;
  • FIG. 6 is a top plan view of the truck with the end portions of the supporting rails and rack in a generally vertical, folded condition;
  • FIG. 7 is a section taken along the line 7-7 on FIG. 5;
  • FIG. 8 is a section taken along the line 8-8 on FIG. d;
  • FIG. 9 is a section taken along the line 9-9 on FIG. 6;
  • FIG. 10 is a section taken along the line 10-10 on FIG. 7, showing the end portions of the track locked in extended positron;
  • FIG. 11 is a view similar to FIG. 10 illustrating an end portion of the track unlocked for upward folding with respect to the central portion of the track;
  • FIG. 12 is a top plan view taken along the line 12-12 on FIG. 7;
  • FIG. 13 is an enlarged section taken along the line 13-13 on FIG. 12;
  • FIG. 14 is an enlarged section taken along the line 14-14 on FIG. 12;
  • FIG. 15 is an enlarged section taken along the line 15-15 on FIG. 12;
  • FIG. 16 is a section taken along the line 16-16 on FIG. 15.
  • the apparatus illustrated in the drawings is particularly designed for cutting adjacent parallel transverse grooves G in a lane of a concrete roadway R (FIG. It).
  • a cutter apparatus A carried by a truck or other highway vehicle B, which can proceed lengthwise along a traffic lane L of the roadway.
  • the truck has the usual chassis or main frame 10, steerable front wheels 11 and rear wheels 12. It also carries tanks 13 for water used for cleaning the cutters and for flushing the cuttings from the region in which the cutting operation is occurring, as well as a reservoir 14 for a power oil used in operating the cutter apparatus, as described hereinbelow.
  • the cutter apparatus is supported from a frame 15 suitably secured to the chassis 10 of the truck and is capable of being elevated and lowered with respect to the frame and chassis, to bring the cutters 16 into and out of contact with the roadway surface.
  • the cutter apparatus includes spaced'parallel tracks 17 extending transversely of the truck chassis 10, each track including a center section 18 and swingable end sections 19 at each end of the center track section and pivotally secured thereto at their inner portions to permit the end sections to be swung upwardly to positions nesting within the confines of the truck body.
  • lnterweaved hinge brackets 20 (FIG. 7) are welded or otherwise suitably secured to an end of each center track section 18 and the adjacent end of the swingable end section 19, there being a hinge pin 21 passing through the interweaved portions of the brackets.
  • Spaced crossmembers 22 extend between and are secured to the spaced-apart center track sections 18, and a torsion bar 23 extends between and is secured to each pair of spaced end sections 19 near their outer ends.
  • end sections 19 When the end sections 19 have been swung downwardly, to lie horizontally of the center track sections 18 in aligned transverse continuations thereof, they are rigidly secured to the center track sections by clamp bolts 24 (FIGS. 5, l0, 11).
  • clamp bolts 24 FIGS. 5, l0, 11
  • Each bolt 24 has an eye 27 mounted on a hinge pin 28 extending across the vertically spaced arms 29 of the center track section bracket 25, the shank 30 of the bolt being swingable to a position between the arms 31 of the adjacent bracket on the swingable end section 19, When the bolt shank is disposed fully within both pair of arms 29, 31, a nut 32 threaded on the shank can be tightened to firmly secure the swingable end section 19 to the center track section 18.
  • the spaced-apart sets'of track sections 18, 19 form a rigid structure with one another provided by the interconnecting crossmembers 22 and torsion bars 23 attached thereto (FlG. 3).
  • the tracks 17 extend horizontally and transversely of the truck chassis when the apparatus is in use, and, as stated above, may be raised and lowered with respect to the roadway surface.
  • a cylinder and piston mechanism consisting of vertical piston rods 33 on opposite sides of the truck chassis 10, the lower ends of which are secured to the crossmembers 22 by pins 34, the upper ends of which extend into vertical cylinders 35, the upper end of each of which is connected by a pin 36 to the cross frame 15.
  • the piston rods 33 When hydraulic fluid under pressure enters the lower or rod ends of the cylinders 35, the piston rods 33 are elevated to elevate the track assembly.
  • hydraulic fluid center enters the head ends of the cylinders 35, the piston rods and tracks 17 are lowered.
  • each torsion rod 23 interconnecting the swingable end sections 19 Attached to each torsion rod 23 interconnecting the swingable end sections 19 are longitudinally spaced arms 37, which will be disposed substantially vertically when the swingable end track sections 19 are in the horizontal position locked to the center track sections 18, the lower end of each arm having a roadway surface engaging pad 38 secured thereto, as by means of a hinge pin 39 (FIG. 7).
  • a bracket 40 Also secured to each arm 37 by means of a bracket 40 is a cylinder 41 containing a piston and piston rod 42, the lower end of the piston rod being secured to a bifurcated wheel support 43 having an axle 44 mounting a roadway engaging wheel 45, the axis of the wheel being substantially parallel to the axes of the truck wheels 11, 12, to support the cutter assembly when it is moved a short distance longitudinally of the concrete roadway lane L, as described hereinbelow.
  • the grooving mechanism is suspended from the tracks 17, being movable therealong to move a cutter assembly 46 transversely across the roadway lane, in order to make the desired grooving cut in its surface.
  • This apparatus includes a suitable frame structure 50, comprising an elongate curved member 47 extending transversely of the tracks 17 and secured at its opposite ends, as by screws 37a, to spaced supporting members 48.
  • Each supporting member extends laterally of and beyond the curved frame member, each frame member having openings therein in which end supports 49 are piloted, being secured thereto by welding material 51, or the like (FIG. 14).
  • a pinion 52 is rotatably mounted in each end support 49 by suitable bearings 53, an upwardly extending bracket 54 being fixed to each end support 49 by a retainer plate 55 attached to the support by screws 56, this bracket carrying a rotatable flanged trolley wheel 57 adapted to engage the upper surface of the lower outer flange 58 of a rail or trackway 17, as disclosed most clearly in FiG. 14.
  • the pinion 52 meshes with gear teeth on the bottom of a rack 59 fixed to the underside of each rail or track by screws 60, there also being rails 61 on opposite sides of each rack attached thereto by screws 62.
  • the undersides of the rails are engaged by rollers 63 on opposite sides of each pinion 52 mounted on the pinion 52 through the agency of ball bearings 64.
  • the engagement of the rollers 63 with the undersides of the rails 61 insures the proper mesh of the gear teeth on each pinion 52 with the teeth of the rack 59.
  • a reversible hydraulic motor 65 is attached to the retainer plate 55, its shaft 66 being connected to an associated pinion 52 by a spline connection 67.
  • An elongate shaft 68 is connected to the opposite end of each pinion by a spline connection 69, this shaft extending to the other of the parallel tracks 17, where it is connected to another pinion 52 meshing with its rack 59, this pinion also mounting rollers 63 engageable with rails 61 secured to opposite sides of the other rack, not shown in detail since the pinion, rollers, and flanged trolley wheel arrangement 52, 63, 57 is identical to the one specifically disclosed in FIG. 14, except, of course, that the trolley wheel bracket 54 and the flanged trolley wheel 57 are arranged opposite to the structure specifically disclosed in FIG. 14, the trolley wheel engaging the upper side of the lower outer flange 58 of the other parallel track 17.
  • the aligned cutters 16 are disposed within the curved central portion 47 of the frame, which also functions as a water guard, and extends between the frame members 48 on opposite side thereof.
  • the cutters can assume any desired fonn for texturing or grooving the surface of the roadway. it is preferably of the type embodying parallel circumferential ridges 70 normal to the axis of the cutter assembly and having diamonds (not shown) therein for effecting the cutting or grooving action in the roadway surface.
  • the cutters may be of the type disclosed in US. Pat. No. 3,306,669.
  • the cutters 16 of the desired length are mounted on and suitably keyed or otherwise secured to a drive shaft '71, being clamped thereagainst by a clamp ring 72 engaging an end cutter and forced thereagainst by clamp screws 73 threaded into the drive shaft.
  • the end cutter at the opposite end of the shaft engages a flange (not shown) on the shaft which serves as an abutment therefor.
  • Each end portion 74 of the drive shaft is of reduced diameter and is carried in a frame member 75 through suitable bearings 76 disposed substantially midway of the end frame members 48, this frame being secured to the latter by means of a plate 77 fastened to members 48, 75 by screws 78.
  • the bearing and frame supporting assembly 48, 75-78 is identical at each end of the cutter drive shaft 71, each end of the shaft being secured to the shaft 60 of a reversible hydraulic motor 81 by a spline connection 62.
  • the motor frame 83 is attached to an adapter 84 by screws 85, the adapter, in turn, being secured to the end frame 75 by screws 86.
  • An eccentric 87 is rotatably mounted on a each end frame 75, this eccentric carrying a depth of cut roller 88 adapted to engage the roadway surface.
  • the periphery of the depth of cut roller 88 can be adjusted vertically so as to determine the extent of penetration of the cutters 16 in the roadway surface.
  • the cutters 16 will extend a short distance lower than the depth of cut rollers 88, which, for example, may be one-sixteenth of an inch or one-eighth of an inch, such dimension approximating the depth of the grooves G cut in the roadway surface.
  • the eccentric 87 is secured in position of adjustment by a lock screw 89 threaded thereinto and adapted to be received in one of a number of radial depressions 90 in the periphery of the adapter 84.
  • the cutters 16 are rotated by the reversible hydraulic motors 81 connected at each end to the drive shaft 71. During rotation of the cutters, they are moved transversely across the roadway lane L by the hydraulic feed motors 65 driving the pinions 52 engaging the racks 59, the entire cutter apparatus 46 being shiftable from one end of the tracks 17 to the opposite end of the tracks. lt will be noted that the end portions 59a, 19a of the racks and rails are inclined upwardly, automatically elevating the cutters 16 from the roadway surface when the end of the run of the cutter apparatus along the tracks is reached. This also enables rotation of the cutters 16 to commence before another traverse along the tracks occurs, the cutters rotating at the appropriate speed before engaging the roadway surface.
  • Hydraulic fluid under pressure is supplied by a hydraulic pump 1% driven by a suitable power plant 101, such as in an internal combustion engine, mounted on the truck (FIG. 6).
  • the hydraulic oil or other fluid is drawn from the oil reservoir 14 through an intake line 162 into the pump, and delivered through a discharge line 103 to the several hydraulic motors 63, 81, and also to the various cylinders 35, 41 through suitable tubular lines controlled by appropriate valves (not shown).
  • a water pump 1% is also driven by a power takeoff from the engine 1111, as, for example, by means of a belt 105 passing over a pulley 106 attached to a shaft 107 connected to the pump rotor, the water being drawn from one of the water tanks 13 through an intake line 1118 and dischargedthrough the discharge line 109 to water headers 110 suitably carried by the frame of the cutter apparatus and extending on opposite sides of and along the lower portions of the rotatable cutter members 16, as disclosed in FIGS. and 16.
  • a plurality-of noules 111 is connected to each water header, having openings 112 directed toward the roadway surface and the bottom portions of the cutters to clean the roadway surface and the cutters of cuttings, insuring appropriate penetration 'of the cutters into the roadway surface to obtain the desired grooves G extending transversely of the roadway lane.
  • the frame-17 is curved and will provide a water guard confining the water to the cutters and their work region on the lane L.
  • the cutters To obtain a cutting action of the cutters, they must be forced or pressed against the roadway surface during the time they are rotating and traversed transversely across the traffic lane. in the present case, the downward force is provided by imposing a portion of the weight of the truck B and the load carried thereby on the cutters.
  • the cutter assembly After the cutter assembly has moved transversely across the traffic lane and has cut the parallel grooves G in the roadway surface, which, for example, may be ofthe pattern illustrated in FIG. 3, and which may be of an overall width of 3 feet, for example, assuming that the overall length of the cutters is 3 feet, the cutter assembly automatically is elevated slightly by the inclined track portions 19a. This assembly and the entire track and frame structure are then elevated with respect to the roadway. Such elevation occurs by exhausting the fluid pres sure from the head ends of the main cylinders 35 back to the reservoir 14 and by directing fluid under pressure into the rod ends of the cylinders 35 and into the head ends of the four cylinders $1 at opposite ends of the cutter assembly.
  • the pistons in the latter cylinders are moved downwardly to'move the pad elevating wheels 45 into engagement with the roadway surface and raise the entire track structure and the cutters 16 with respect to the roadway surface.
  • the fluid under pressure in the rod ends of the main cylinders 35 assists in the elevating action by lifting upwardly on the piston rods 33 to raise the track structure and the cutter carriage supported thereby.
  • the vehicle B can now move forwardly a distance corresponding to the length of the cutters 16, which, in the above example, is 3 feet, the distance travelled being indicated to the operator on an indicating dial 120 (FIG. 4) connected by a flexible cable 121 to an indicating wheel 122 engaging the roadway surface, and retained in such engagementby a tension spring 123 connected to one end of a lever arm 124 pivotally mounted on a bracket 125 fixed to the vehicle frame 111, and on which the indicating wheel 122 is rotatably mounted.
  • the circumference of the indicating wheel 122 will be 3 feet, and it will rotate the pointer of the indicating dial 360", or one revolution, to correspond to one revolution of the indicating wheel.
  • a shift lever 140 is pivotally mounted on the truck chassis, the inner end of which is connected to a shift rod 141 that will either place the selective transmission in the condition in which the drive from the truck engine through the transmission 133 and drive shafts 134, 137 proceeds to the truck differential 139, at which time the hydraulic motor 130 and speed reducing transmission 131 are uncoupled from the output shaft 137, or one in which the shaft lever is shifted to disconnect the normal drive and to connect the hydraulic motor and speed reducing transmission to the output shafi 137.
  • the hydraulic motor 131) is used whenever the truck is to be advanced along the roadway lane L a short distance to effect another cut. Accordingly, the shift lever 140 is appropriately manipulated to disconnect the truck engine and transmission 133 from the differential 139 and to connect the hydraulic motor 130 and its transmission 131 thereto. Hydraulic fluid from the pump 100 is directed to the hydraulic motor 130 to efiect its rotation and drive the rear wheels 12, the advance of the truck proceeding until the operator notes that the indicating dial has turned a distance corresponding to the overall length of the cutters 16, at which time. the application of fluid pressure to the hydraulic motor 131) will be discontinued.
  • Fluid pressure can then be directed to the rod ends of the wheel cylinders 41 to elevate the wheels 45 from the ground, to exhaust the rod ends of the main frame lifting cylinders 35, and to impose the pressure once again on the head ends of the main cylinders, the pads 38 again engaging the roadway.
  • Operation of the cutters 16 and rack and pinion mechanism is again effected to bring the cutter assembly down the incline 19a to engage the rotating cutters 16 with the roadway surface, the fluid under pressure in the cylinders 35 imposing a portion of the truck weight on the entire track structure and the cutters, the penetration of the cutters into the roadway being limited by engagement of the depth of cut rollers 88 with the roadway surface.
  • the entire track frame structure is rigid, and despite the fact that the pads 33 are engaging the roadway surface, the penetration of the cutters into the roadway surface is effected by the action of the fluid under pressure in the head ends of the hydraulic cylinders 35, since the pad arms 37 are con nected to the torsion bars 23 and such bars can twist the slight degree necessary to penetrate the cutters into the roadway surface, as limited by the depth of cut rollers 38, and effect the cut as the carriage and cutters are moved along the tracks 17, until the carriage and cutters have reached the opposite ends of the tracks and-ride up the inclines 19a, at which time the cutters will be out of engagement from the roadway surface.
  • the pressure to the hydraulic motor 131) can be reestablished, following elevation of the pads 38 from the roadway surface, as a result of introducing fluid pressure into the head ends of the wheel cylinders 11 and into the rod ends of the main cylinders 35, for the purpose of advancing the cutter assembly 46 the distance equal to the overall length of the cutters, after which the foregoing cycle can be repeated to cause the reengagement of the pads 38 with the roadway surface, the imposition of the weight on the track assembly, and the bringing of the cutters 16 down the incline regions 19a of the tracks into contact with the roadway surface, the cutters proceeding along to the opposite end of the tracks 17.
  • the water pump 104 is delivering cleaning fluid liquid to the headers 110 and nozzles 111, to flush the cuttings from the region of work and to keep the cutters 16 in a clean and cool condition.
  • Both the hydraulic motors 81, 65 for rotating the cutters l6 and for rotating the pinions 52 engageable with the racks 59 are reversible to insure the proper direction of rotation of the cutters and the proper direction of feed of the carriage assembly along the tracks 17 from one track end to the opposite track end.
  • fluid pressure cannot be directed to the reversible hydraulic motor 1353 for moving the vehicle forwardly or backward, depending on the direction of desired travel along the roadway, unless fluid pressure is present in the head ends of the wheel cylinders 41 and in the rod ends of the main cylinders 35, which will insure that the entire track frame assembly,
  • Fluid under pressure to the hydraulic motor 130 is directed from the pump 100 to a known four-way directional control valve 170, which is shifted to a position allowing fluid pressure from the pump to travel through the lines 29% and 201 or 202 to the hydraulic motor when pressure is present in a hydraulic line 171 connected to the rod ends of the main cylinders 35 and to the head ends of the wheel cylinders 41.. Fluid exhausts from the motor through the lines 202 or 201 and 203 to the tank 14.
  • This four-way valve is shifted to an operative or inoperative position as respects the hydraulic motor 130 by a pilot valve 172 connected through the line 171 to the rod ends of the main cylinders 35 and the head ends of the wheel cylinders 41.
  • a pilot valve 172 connected through the line 171 to the rod ends of the main cylinders 35 and the head ends of the wheel cylinders 41.
  • the four-way directional control valve is of a known construction and is effective to produce rotation of the hydraulic motor in a forward or a reverse direction, under the control of the operator, depending upon the manner in which the pilot valve lever 173 is shifted, or left in a neutral position, in which the hydraulic motor is not operated at all.
  • the mechanism is elevated to elevate the pads 38 and cutter assembly 46 from the roadway surface, and the cutter assembly is shifted to one end of the tracks 17.
  • the track bolts 24 are released to permit the end sections w to swing upwardly about their hinge pins 21 until a circumferential groove portion 180 on each torsion rod 23 enters a socket 181 in the frame (FIGS. 8, 9), whereupon a pivoted closure 182 can be swung down into the circumferential groove 180 and a pin 183 placed through aligned holes 184 in the pivoted closure and the frame to lock the swingable end sections 19 at each side of the track center sections 18 in a substantially vertical position, as disclosed in FIG. 9.
  • the entire cutter apparatus 46 When in this position, the entire cutter apparatus 46 is in its elevated condition, as disclosed, and lies substantially entirely within the confines of the truck body. Most states have width limitations for highway travel of 8 feet, the apparatus thus being in the position to permit normal conveyance of the truck B along the highway as a result of shifting the transmission lever 140 to disengage the hydraulic motor 130 from the output shaft 137 and differential 139, and to engage the normal drive mechanism of the truck with the differential so that the truck engine can propel the vehicle over the highway in a normal manner.
  • an apparatus that can produce a transverse pattern across a highway lane without completely stopping traffic on a multiple lane highway.
  • end sections 19 When the end sections 19 are extended, as disclosed in FIGS. 1 and 10, travel of traffic along two lanes of traffic is prevented, and, in fact, only part of the lane adjacent to the one on which the apparatus is working has traffic flow interrupted.
  • the transverse grooves G are formed in the highway surface along a desired length, which will prevent skidding of vehicles, not only because of the increased grip of the vehicle tires thereon, but by allowing water to drain away transversely of the pavement surface and thereby eliminate planing of vehicle tires on the wet surface.
  • the necessary cutting weight on the cutters 16 is imposed by taking advantage of the weight of the truck and its load itself.
  • the track structure and the cutter mechanism itself are foldable to within the legal limits of the maximum width of a vehicle traversing a highway, and is readily unfolded to place the complete track structure in a horizontal condition, with its end portions 19 extending beyond the width of the truck, so that the grooving cut can be taken across the full width of a highway lane L.
  • the depth of cut of the cutters is provided in a very simple manner and is adjustable. An entire cycle of cutting transversely across the highway lane is accomplished in a relatively rapid manner. As an example, a full cycle of operation of the apparatus, from completion of a previous cut, through movement of the vehicle a distance equal to the overall length of the cutter, to the-completion of the next cut, takes about 3 minutes.
  • a vehicle having a chassis and roadway-engaging wheels for moving said vehicle longitudinally along the roadway; elongate cutter means; means for supporting said cutter means from said chassis for movement of said cutter means transversely of said chassis and the direction of longitudinal movement of said vehicle along the roadway to produce a cutting action by said cutter means on the roadway surface; said supporting means including means for selectively raising or lowering said cutter means with respect to said chassis and roadway surface to selectively disengage or engage said cutter means with the roadway surface, said raising or lowering means elevating said chassis with respect to the roadway surface after engagement of said cutter means with the roadway surface to impose a portion of the weight of said chassis upon said cutter means.
  • apparatus as defined in claim 1; means for automatically elevating said cutter means from the roadway at the end of its transverse movement to permit longitudinal movement of said vehicle along the roadway; and means preventing movement of said vehicle along the roadway when the cutter means is in engagement with the roadway.
  • depth of cut control means engageable with the roadway surface for limiting the depth of penetration of said cutter means in the roadway; and means for adjusting said depth of cut control means to vary the depth of penetration of said cutter means in the roadway.
  • roller means on said cutter means engageable with the roadway surface for limiting the depth of penetration of said cutter means'in the roadway; and means for adjusting the axis ofsaid roller means relative to the axis of said cutter means to change the depth of penetration ofsaid cutter means in the roadway.
  • a vehicle having a chassis and roadway-engaging wheels for moving said vehicle longitudinally along the roadway; track means carried by and extending transversely of said chassis; cutter means movably mounted on said track means for movement therealong transversely of said chassis and the direction of longitudinal movement of said vehicle along the roadway to cut adjacent grooves in the roadway surface; means for selectively raising or lowering said track means and cutter means with respect to said chassis androadway surface to selectively disengage or engage said cutter means with'the roadway surface, said raising or lowering means elevating said chassis with respect to said track means and cuttermeans after engagement of said cutter means with the roadway surface to impose a portion of the weight of said vehicle upon said cutter means.
  • track means comprising a central section carried bysaid chassis, and end sections releasably securedthereto for movement inwardly of the vehicle to reduce the overall width of the apparatusfor transportation along the roadway.
  • said track means comprising a central section carried by said chassis, and .end sections pivotally connected to said central section for upward swinging and disposition inwardly of the vehicle to reducethe overall width of the apparatus for transportation along'the roadway.
  • said trackmeans including an upwardly inclined portion at the end thereof, whereby said cutter means rides upwardly of said inclined portion and out of engagement from the roadway.
  • a vehicle having a chassis and roadway engaging wheels for moving said vehicle longitudinallyalong the roadway; a supporting structure carried by said chassis comprising spacedparallel tracks extending transversely'of said chassis and the direction of longitudinal movement of said vehicle along the roadway; cutter means movable along said'tracks in engagement withthe roadway surface to cut adjacent transverse grooves therein; means connected to said supporting structure and chassis for selectively raising or lowering said traclts and cutter.
  • said cylinder and piston means comprising means for imposing the portion of the weight of said vehicle of on said cutter device.
  • apparatus as defined in claim 20. means preventing movement of said vehicle along the roadway when the cutter device is in engagement with the roadway.
  • a vehicle movable along the roadway; a supporting structure carried by the vehicle comprising spaced parallel tracks extendingtransversely of the vehicle; and cutter means supported by and movable along said tracks transversely of the vehicle and in engagement with the roadway surface to cut adjacent transverse grooves therein; racks secured to said tracks; said cutter means including pinions meshing with said racks, and means for rotating said pinions to propel said cutter means along said tracks transversely of said vehicle; said cutter means further-including an elongate rotatable cutter device, and means for rotating said cutter device during its travel along said tracks; and cylinder and piston means connected to said supporting structure and vehicle for selectively raising or lowering said supporting structure and cutter means with respect-to the vehicle and roadway surface; additional cylinder and piston means connected to the end portions of said supporting structure; roadway-engaging wheels connected to said additional cylinder and piston means to elevate said supporting structure and cutter means in response to fluid under pressure in said additional cylinder and piston means.
  • said supporting structure comprising a central section, and end sections pivotally connected to said central section for upward swinging and disposition inwardly of the vehicle to reduce the overall width of the apparatus for transportation along the roadway.
  • a vehicle movable along the roadway; a supporting structure carried by and movable with respect to the vehicle comprising spaced parallel tracks extending transversely of the vehicle; cutter means supported by and movable along secured to the end portions of said supporting structure and engageable with the roadway surface to support said supporting structure on the roadway surface.
  • said supporting structure comprising a central section, and end sections pivotally connected to said central section for upward swinging and disposition inwardly of the vehicle to reduce the overall width of .the apparatus for transportation along the roadway.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
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US794216*A 1969-01-27 1969-01-27 Transverse pavement texturing apparatus Expired - Lifetime US3572842A (en)

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US (1) US3572842A (enrdf_load_html_response)
DE (1) DE2000594A1 (enrdf_load_html_response)
FR (1) FR2029442A1 (enrdf_load_html_response)
GB (1) GB1287902A (enrdf_load_html_response)

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3778110A (en) * 1971-12-27 1973-12-11 Cardinal Ind Inc Supporting cutter assemblies for multiple grooving of pavement
US3779609A (en) * 1972-10-27 1973-12-18 R James Concrete cutting machine
US3796462A (en) * 1972-09-15 1974-03-12 Cardinal Ind Inc Machinery for multiple grooving of pavement
US3929377A (en) * 1974-01-18 1975-12-30 Cement And Concrete Ass Vehicle-mounted hardened concrete grooving machine
US3989304A (en) * 1974-03-08 1976-11-02 Reinhard Wirtgen Machine for cutting away road surfaces
US4262966A (en) * 1979-04-25 1981-04-21 Allied Steel & Tractor Products, Inc. Road surface removing machine
US4516808A (en) * 1982-12-29 1985-05-14 Mu, Inc. Pavement grinding apparatus
US4986604A (en) * 1989-02-07 1991-01-22 Target Products Inc. Roadway grooving apparatus
US20050196240A1 (en) * 2004-03-03 2005-09-08 Kraemer Terrence L. Slot cutting apparatus and method
US20080008527A1 (en) * 2006-07-06 2008-01-10 Diamond Surface, Inc. Close proximity grinder
US20080205983A1 (en) * 2007-02-22 2008-08-28 Diamond Surface, Inc. Slot cutting apparatus
CN109267462A (zh) * 2018-10-26 2019-01-25 栾勇 一种切缝机机头升降装置
US11208772B2 (en) 2016-01-21 2021-12-28 Surface Preparation Technologies, Llc Reduced volume sonic noise alert pattern grinder and method
CN114174156A (zh) * 2019-07-17 2022-03-11 Srj股份有限公司 胎面图案

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Publication number Priority date Publication date Assignee Title
WO1981001024A1 (fr) * 1979-10-02 1981-04-16 Tech & Realisations Cdf Ing Dispositif de prelevement de neige
EP0298682A1 (en) * 1987-07-04 1989-01-11 Econ Group Limited Improvements relating to road cutting equipment
ATE76668T1 (de) * 1987-10-02 1992-06-15 Franz Broehl An ein fahrbares tragwerk anbaubare fraese.
CN115125798B (zh) * 2022-06-24 2023-07-14 保利长大工程有限公司 一种无线遥控自行走拉毛装置

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2311891A (en) * 1941-04-17 1943-02-23 Tyson Harry Road grooving machine
US2502043A (en) * 1946-06-01 1950-03-28 Frank L Howard Cutting machine
US2791412A (en) * 1952-12-01 1957-05-07 Concut Sales Co Concrete sawing machine
US2845851A (en) * 1952-06-03 1958-08-05 Reliance Steel Prod Co Machine for making anti-skid concrete road surfaces

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2311891A (en) * 1941-04-17 1943-02-23 Tyson Harry Road grooving machine
US2502043A (en) * 1946-06-01 1950-03-28 Frank L Howard Cutting machine
US2845851A (en) * 1952-06-03 1958-08-05 Reliance Steel Prod Co Machine for making anti-skid concrete road surfaces
US2791412A (en) * 1952-12-01 1957-05-07 Concut Sales Co Concrete sawing machine

Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3778110A (en) * 1971-12-27 1973-12-11 Cardinal Ind Inc Supporting cutter assemblies for multiple grooving of pavement
US3796462A (en) * 1972-09-15 1974-03-12 Cardinal Ind Inc Machinery for multiple grooving of pavement
US3779609A (en) * 1972-10-27 1973-12-18 R James Concrete cutting machine
US3929377A (en) * 1974-01-18 1975-12-30 Cement And Concrete Ass Vehicle-mounted hardened concrete grooving machine
US3989304A (en) * 1974-03-08 1976-11-02 Reinhard Wirtgen Machine for cutting away road surfaces
US4262966A (en) * 1979-04-25 1981-04-21 Allied Steel & Tractor Products, Inc. Road surface removing machine
US4516808A (en) * 1982-12-29 1985-05-14 Mu, Inc. Pavement grinding apparatus
US4986604A (en) * 1989-02-07 1991-01-22 Target Products Inc. Roadway grooving apparatus
US20050196240A1 (en) * 2004-03-03 2005-09-08 Kraemer Terrence L. Slot cutting apparatus and method
US7073975B2 (en) * 2004-03-03 2006-07-11 Diamond Surface, Inc. Slot cutting apparatus and method
US20080008527A1 (en) * 2006-07-06 2008-01-10 Diamond Surface, Inc. Close proximity grinder
US7837276B2 (en) 2006-07-06 2010-11-23 Diamond Surface, Inc. Close proximity grinder
US20110062767A1 (en) * 2006-07-06 2011-03-17 Diamond Surface, Inc. Close proximity grinder
US8025342B2 (en) 2006-07-06 2011-09-27 Diamond Surface, Inc. Close proximity grinder
US20080205983A1 (en) * 2007-02-22 2008-08-28 Diamond Surface, Inc. Slot cutting apparatus
US11208772B2 (en) 2016-01-21 2021-12-28 Surface Preparation Technologies, Llc Reduced volume sonic noise alert pattern grinder and method
CN109267462A (zh) * 2018-10-26 2019-01-25 栾勇 一种切缝机机头升降装置
CN114174156A (zh) * 2019-07-17 2022-03-11 Srj股份有限公司 胎面图案
CN114174156B (zh) * 2019-07-17 2024-06-04 Srj股份有限公司 胎面图案

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DE2000594A1 (de) 1970-07-30
FR2029442A1 (enrdf_load_html_response) 1970-10-23
GB1287902A (enrdf_load_html_response) 1972-09-06

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