JP2004285745A - Asphalt cutting machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To heighten the safety by preventing a cutting bit from crashing into the asphalt surface, preventing the asphalt cutting machine from being vibrated by crashing to dislocate from the cutting position, cutting the asphalt surface even if the asphalt cutting machine tilts, and concealing both sides of the cutting bit with guide plates during non-cutting operation of asphalt. <P>SOLUTION: This asphalt cutting machine 1 is used as a shovel attachment mounted on the arm tip part 10a of a shovel 10. Guide plates 4 on both sides of a transverse rotary drum 2 having the cutting bit 21 mounted on the side peripheral surface are provided to freely tilt upward and downward between the upper limit position of putting the lower end 41a of the guide plate 4 above the tip of the cutting bit 21 at the lowermost end and the lower limit position of putting the same below it, the lower part 41 of the guide plate 4 is formed like a downward circular arc, and a shock absorber 5 is provided to moderate the upward tilting operation of the upper guide plate 4. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an asphalt cutting machine that is used, for example, by being attached to the tip of an arm of a hydraulic shovel in a work of cutting asphalt on a road surface for repairing a road.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a work for cutting asphalt on a road surface is performed for repairing a road. In this case, a large-sized asphalt cutting machine cuts most of the asphalt surface on the road surface. There are various types of non-cutting parts such as manholes and curbs on roads and expansion joints at the boundary between roads and bridges.Large asphalt cutting machines cut while avoiding these non-cutting parts, but small turning Around the non-cutting portion because of the lack of asphalt residue. Also, when cutting asphalt on a part of a road, using a large asphalt cutting machine may not be cost-effective. For this reason, the asphalt residual portion and partial asphalt removal are performed by using, for example, a small asphalt cutting machine 101 as shown in FIG. 6 attached to the tip of an arm of a hydraulic shovel.
[0003]
[Problems to be solved by the invention]
However, the conventional asphalt cutting machine 101 shown in FIG. 6 which is used by being attached to the tip of an arm of a hydraulic shovel has the following disadvantages.
(1) Guide plates 103 are provided on both sides of a horizontal rotary drum having a cutting bit 102 mounted on a side peripheral surface, and a tip of the cutting bit 102 projects slightly below a lower side 103 a of the guide plate 103. It is adjusted, and when cutting the asphalt surface a on the road, the arm tip attached to the side peripheral surface of the rotating rotating drum is gently lowered on the asphalt surface a of the road, If the operation of the arm of the shovel is immature, the cutting bit 102 during the rotation of the rotary drum collides violently with the asphalt surface a, and the cutting bit 102 is easily damaged, and the asphalt cutting machine 101 violently vibrates and is dangerous. Further, there was a disadvantage that the asphalt cutting machine 101 violently vibrated and moved on the asphalt due to the reaction, and was displaced from the cutting position.
(2) The lower edges 103a of the guide plates 103 on both sides of the rotary drum project horizontally in the front-rear direction of the horizontal rotary drum so that the cutting bit 102 can cut the asphalt surface a at a predetermined cutting depth h. Therefore, the front end and the rear end of the lower side 103a of the guide plate 103 projecting forward and rearward correspond to the side surface of the non-cut portion b, and there is a disadvantage that the asphalt surface a immediately adjacent to the non-cut portion b cannot be cut.
(3) The lower end sides 103a of the guide plates 103 on both sides of the rotary drum project horizontally in the front-rear direction so that the cutting bit 102 can cut the asphalt surface a at a predetermined cutting depth h. Is inexperienced, the lower end 103a of the horizontal guide plate 103 cannot be kept horizontal with respect to the asphalt surface a, and is inclined. And as a result, the lowermost cutting bit 102 partially projecting from the lower side 103a of the guide plate 103 does not reach the asphalt surface a, or cannot cut the asphalt surface a to a predetermined cutting depth h. was there.
(4) Before and after cutting, the asphalt cutting machine 101 is located above the asphalt surface a and away from the asphalt surface a. It was dangerous to rotate with the part exposed.
[0004]
The present invention has been made in view of the above problems, and has been made in order to solve the problems. An object of the present invention is to prevent a cutting bit from hitting an asphalt surface, and to use an asphalt cutting machine by a collision. Prevents vibration from deviating from the cutting position, can cut the asphalt surface in the immediate vicinity of the non-cutting part, can cut the asphalt surface even when the asphalt cutting machine is inclined, and hides both sides of the cutting bit with guide plates when asphalt is not cutting An object of the present invention is to provide an asphalt cutting machine capable of improving safety.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the invention of claim 1 is an asphalt cutting machine used as a shovel attachment to be mounted on a tip of an arm of a shovel, wherein the cutting bit is mounted on a side peripheral surface. The guide plates on both sides of the rotary drum are moved between an upper limit position where the lower end of the guide plate is above the tip of the lowermost cutting bit and a lower limit position where the lower end of the guide plate is below the tip of the lowermost cutting bit. The guide plate is provided so as to be tiltable up and down, the lower portion of the guide plate is formed in a downwardly arcuate shape, and a shock absorber is provided to moderate the upward tilting operation of the guide plate.
[0006]
Here, as a preferred embodiment of the first aspect, the upper limit position is vertically movable.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described more specifically based on embodiments of the invention illustrated in the drawings.
[0008]
Here, FIG. 1 is a perspective view of a shovel equipped with an asphalt cutter, FIG. 2 is a side view of the asphalt cutter, FIG. 3 is a front view of the asphalt cutter, FIG. 4 is a side view of the asphalt cutter during cutting, FIG. 5 is a front view of the asphalt cutting machine during cutting.
[0009]
In FIG. 1 to FIG. 5, an asphalt cutting machine 1 is a shovel attachment that is used by being attached to an arm tip 10 a of a hydraulic shovel 10 in a work of cutting an asphalt surface a of a road surface for repairing a road. It comprises a horizontal rotating drum 2, an upper half cover bearing plate 3, left and right guide plates 4, a shock absorber 5, and the like.
[0010]
The horizontal rotary drum 2 is mounted in a state where a cylindrical rotary drum is turned sideways so as to rotate around a horizontal axis. A plurality of cutting bits 21 are mounted on a side peripheral surface of the horizontal rotating drum 2 which rotates vertically. Each cutting bit 21 is detachably fixed to each holder (not shown) fixed to the side peripheral surface of the horizontal rotary drum 2 by bolts or the like so as to be exchangeable.
[0011]
An upper half cover bearing plate 3 is attached to the outer surface of the upper half side of the horizontal rotating drum 2 on which the side peripheral surface on which the cutting bit 21 is mounted rotates vertically. The upper half cover bearing plate 3 includes an upper half semicircular side plate 31 disposed outside the left and right ends of the horizontal rotating drum 2, and an upper side periphery disposed in an arc shape above the horizontal rotating drum 2. And a plate 32. The left and right ends of the upper side peripheral plate 32 are connected to the semicircular upper sides of the left and right upper half semicircular side plates 31.
[0012]
The upper half side of the horizontal rotating drum 2 is enclosed in a space formed by the left and right side plates 31 and the upper side peripheral plate 32 constituting the upper half cover bearing plate 3. The bearing plate 3 prevents the rotating cutting bit 21 mounted on the side peripheral surface of the horizontal rotary drum 2 from being exposed to the outside, thereby enhancing safety.
[0013]
Rotating shafts (not shown) at both left and right ends of the horizontal rotating drum 2 are rotatably supported by left and right side plates 31 of the upper half cover bearing plate 3. For example, two arm attachment brackets 33 for attaching the asphalt cutting machine 1 to the arm tip 10a of the excavator 10 are fixed to the left and right sides of the upper peripheral plate 32 of the upper half cover bearing plate 3, for example.
[0014]
When the asphalt cutter 1 is lowered onto the asphalt surface a, the lower end of the guide plate 4 contacts the asphalt surface a prior to the cutting bit 21 of the horizontal rotary drum 2, and the impact when the cutting bit 21 contacts the asphalt surface a. When the asphalt cutting machine 1 is located above the asphalt surface a, it is located on the side surface below the lowermost cutting bit 21 so that the cutting bit 21 is viewed from the side. The upper half cover bearing plate 3 is tiltably attached to the outer side surfaces of the left and right side plates 31 so as to protrude downward from the lower end of the side plate 31 so as to protrude downward from the lower end thereof. The lower part is formed in a downward arc shape.
[0015]
The guide plates 4 attached to the outer surfaces of the left and right side plates 31 of the upper half cover bearing plate 3 respectively have upper ends formed in a straight line, and lower portions 41 formed in a downward arc, such as an arc or an elliptical arc. When the asphalt cutting machine 1 is lowered onto the asphalt surface a, an arc-shaped point serving as the lower end 41a is grounded to the asphalt surface a as a contact point before the cutting bit 21 rotating vertically.
[0016]
For this reason, even if the asphalt cutting machine 1 is not horizontal with respect to the asphalt surface a but leans back and forth, the lower end 41a of the guide plate 4 always contacts the asphalt surface a in a state of one point of contact, The amount of protrusion of the cutting bit 21 from the lower end 41a can be made constant, and the cutting depth h can be kept constant. Thus, unlike the conventional asphalt cutting machine, it is not necessary to operate the lower end side of the guide plate so as to be parallel to the asphalt surface a, and even an unskilled person can operate. In addition, since the lower portion 41 of the guide plate 4 is formed in a downwardly arcuate shape, it is difficult to hit the side surface of the non-cut portion b, so that the asphalt surface a can be cut as close as possible to the non-cut portion b.
[0017]
The left and right guide plates 4 are supported at one upper end thereof, for example, at the upper front end (the left end in the figure) on the front side of the upper peripheral plate 32 of the upper half cover bearing plate 3 so as to be rotatable forward and backward about a horizontal axis. And tilts around the front end side.
[0018]
That is, the upper front end sides of the left and right guide plates 4 protrude slightly forward from the front side of the upper side peripheral plate 32, and, for example, a cylindrical inner surface facing the upper front end sides of the protruding left and right guide plates 4. The shaft mounting pieces 42 are mounted inward. Bearings 34 are respectively attached to the front left and right sides of the upper side peripheral plate 32 at locations corresponding to the left and right shaft mounting pieces 42. A pivot pin 43 is attached to each of the left and right bearings 34 and the shaft mounting piece 42 so as to pass through the bearing 34 horizontally.
[0019]
The left and right guide plates 4 are pivotally supported by the pivot pins 43, the bearings 34, and the shaft mounting pieces 42 to the front side of the upper peripheral plate 32 so as to be tiltable. In other words, the left and right guide plates 4 are structured to rotate in the vertical direction about the pivot pins 43 and tilt, and when the guide plate 4 tilts downward, the lower end 41a is lower than the lowermost cutting bit 21. When the guide plate 4 is tilted upward, the lower end 41a is located above the lowermost cutting bit 21.
[0020]
The left and right guide plates 4 have the other upper end side, for example, the upper rear end side (the right end side in the figure) projecting rearward from the rear side of the upper side peripheral plate 32 of the upper half cover bearing plate 3, and the left and right sides projecting rearward. The upper rear end side of the guide plate 4 is connected by a connecting piece 44. By the connecting piece 44, the left and right guide plates 4 are tilted up and down integrally with the pivot pin 43 as a center.
[0021]
The lower surface of the connecting piece 44 connecting the left and right guide plates 4 is a lower limit stopper receiver 45. A lower limit stopper 35 that engages with the lower limit stopper receiver 45 is formed so as to protrude rearward from a lower end of a rear portion of the upper peripheral plate 32 of the upper half cover bearing plate 3. That is, when the lower limit stopper receivers 45 of the left and right guide plates 4 that tilt downward about the pivot pins 43 abut against the lower limit stoppers 35 of the upper half cover bearing plate 3, the left and right guide plates 4 are no more. , It is the lower limit position where it does not tilt downward.
[0022]
The lower ends 41 a of the left and right guide plates 4 are located at lower positions where the lower limit stopper receiver 45 abuts on the lower limit stopper 35, and are located below the tips of the lowermost cutting bits 21, and are rotated by the lower portions 41 of the left and right guide plates 4. When viewed from the side, the lowermost cutting bit 21 is not concealed and is not exposed, thus enhancing safety.
[0023]
An upper limit position variable stopper receiver 46 is attached to the rear side surface of the connecting piece 44 connecting the left and right guide plates 4. The upper limit position variable stopper receiver 46 includes a mounting piece 46a having a screw hole formed in a vertical direction, and an adjustable screw stopper receiver 46b screwed into the screw hole of the mounting piece 46a and having a variable height. A stopper receiving piece 46c is formed on the upper end head of the stopper receiver 46b. The upper limit position variable stopper receiver 46 moves the position of the lock receiving piece 46c of the upper end head which comes into contact with the upper limit stopper 36 in the vertical direction by screwing with respect to the mounting piece 46a by turning the adjusting screw stopper receiver 46b. The structure is adjustable.
[0024]
An upper limit stopper 36 that engages with the locking receiving piece 46c of the upper limit position variable stopper receiver 46 is formed so as to protrude rearward on the upper rear portion of the upper peripheral plate 32 of the upper half cover bearing plate 3. That is, the upper and lower guide stoppers 4 of the left and right guide plates 4, which are tilted upward about the pivot pin 43, are brought into contact with the upper limit stoppers 36 of the upper half cover bearing plate 3. The guide plate 4 is at the upper limit position where it does not tilt upward any further.
[0025]
The lower ends 41a of the left and right guide plates 4 are located at an upper limit position where the upper limit position variable stopper receiver 46 comes into contact with the upper limit stopper 36, and are located above the tip of the lowermost lower cutting bit 21, and the rotating cutting bit 21 is disposed on the asphalt surface a. Can be cut. The amount of the lower end 41a of the lower end 41a of the guide plate 4 projecting above the tip of the lowermost cutting bit 21 is the cutting depth h of the asphalt surface a. The amount of this protrusion is determined by the adjusting screw stopper receiver 46b of the upper limit position variable stopper receiver 46. It has a structure that can be adjusted by moving it up and down by screw motion.
[0026]
On one of the left and right side plates 31 constituting the upper half cover bearing plate 3, a shock absorber 5 for easing the upward tilting operation of the guide plate 4 is attached. For example, a damper cylinder is used for the shock absorber 5. The shock absorber 5 has a telescopic rod 51 attached downward. When the rod 51 is pressed upward, it resists the pressing force and contracts slowly upward, and when it extends downward, it instantaneously expands.
[0027]
On the guide plate 4 on the side to which the shock absorber 5 is attached, a pressing piece 47 that comes into contact with the lower end of the rod 51 of the shock absorber 5 is protruded. When the pressing piece 47 of the guide plate 4 that tilts upward presses the lower end of the rod 51 upward, the rod 51 of the shock absorber 5 contracts slowly, and the shock absorber 5 instantly tilts the guide plate 4 upward. And tilt the guide plate 4 gently upward.
[0028]
Next, the operation based on the configuration of the embodiment of the present invention will be described below.
For example, the asphalt cutting machine 1 is mounted on the arm tip 10a of the excavator 10, and the excavator 10 is operated to gradually lower the asphalt cutter 1 on the arm tip 10a to the asphalt surface a to be cut.
[0029]
At this time, the left and right guide plates 4 of the asphalt cutting machine 1 above the asphalt surface a are tilted downward around the pivot pins 43 on the front end side by their own weight, and the lower limit stopper receiver 45 of the guide plate 4 is moved upward. It comes into contact with the lower limit stopper 35 of the half cover bearing plate 3 and is at the lower limit position. When the guide plate 4 is at the lower limit position, the lower end 41 a of the guide plate 4 is below the lowermost position of the rotating cutting bit 21, and both sides of the rotating cutting bit 21 by the lower portions 41 of the left and right guide plates 4. The surface is not blocked and exposed, increasing safety.
[0030]
The lower end 41a of the left and right guide plates 4 of the asphalt cutting machine 1 that has been gradually lowered is grounded on the asphalt surface a prior to the cutting bit 21 where one point of the lower end 41a rotates. At this time, since the lower portion 41 of the left and right guide plates 4 is formed in a downwardly arcuate shape, even if the asphalt cutting machine 1 is tilted in any of the front and rear directions due to the inexperience of the operation of the hydraulic excavator 10, the contact point becomes one point, The amount of protrusion of the cutting bit 21 from the lower end 41a of the plate 4 can be kept constant, and the cutting depth h can be kept constant. In addition, since the lower portion 41 of the guide plate 4 is formed in a downwardly arcuate shape, it is difficult to hit the side surface of the non-cut portion b, so that the asphalt surface a can be cut as close as possible to the non-cut portion b.
[0031]
Further, in the asphalt cutting machine 1, since the lower end 41 a of the guide plate 4 contacts the asphalt surface a before the rotating cutting bit 21, the rotating cutting bit 21 does not receive the impact at the time of contact with the ground. This does not cause breakage of the cutting bit 21 or vibration of the asphalt cutting machine 1, displacement due to movement of the asphalt cutting machine 1 from a cutting position due to vibration, and the like, even if it is not a skilled operator of the operation of the hydraulic excavator 10. The operation of the asphalt cutting machine 1 can be easily performed.
[0032]
When the lower end 41a of the guide plate 4 of the asphalt cutting machine 1 comes into contact with the asphalt surface a, the right and left guide plates 4 receive a reaction force from the lower end 41a that comes into contact with the ground, and the reaction force causes the guide plate 4 to pivot on the front end side. It starts to tilt upward about 43. At this time, the lower end of the rod 51 of the downward shock absorber 5 is in contact with the pressing piece 47 of the guide plate 4 that tilts upward, and the rod 51 resists the rapid upward tilt of the guide plate 4. Therefore, the guide plate 4 cannot be tilted quickly upward, but is tilted slowly. For this reason, the cutting bit 21 that is rotating up and down does not rapidly hit the asphalt surface a, but cuts the asphalt surface a while gradually starting to hit the asphalt surface a little by little.
[0033]
The left and right guide plates 4 tilted slowly upward by the operation of the shock absorber 5 are prevented from tilting upward by the upper limit position variable stopper receiver 46 abutting against the upper limit stopper 36 of the upper half cover bearing plate 3. To reach the upper limit position. While the left and right guide plates 4 are tilting to the upper limit position, the rotating cutting bit 21 that has gradually protruded downward from the lower end 41a of the guide plate 4 becomes lower from the lower position when the guide plate 4 reaches the upper limit position. Is stopped, and the asphalt surface a can be cut at the predetermined cutting depth h, so that unnecessary cutting is prevented.
[0034]
When the cutting of the predetermined area of the asphalt surface a is completed and the asphalt cutting machine 1 is moved upward from the asphalt surface a, the left and right guide plates 4 on both sides of the rotating cutting bit 21 are pivoted on the front end side by their own weight. By tilting instantly downward around the support pin 43 and the lower limit stopper receiver 45 of the guide plate 4 abutting against the lower limit stopper 35 of the upper half cover bearing plate 3, the downward tilting stops, and Both ends of the lowermost end of the cutting bit 21 are closed by the lower part 41 of the guide plate 4 tilted downward, and are not exposed, so that safety is enhanced.
[0035]
At this time, the rod 51 of the shock absorber 5 that has contracted also extends downward in conjunction with the instantaneous tilting of the guide plate 4 downward, so that the asphalt cutting machine 1 located above the asphalt surface a However, even if the asphalt cutting machine 1 falls on the asphalt surface a due to an operation error or accident, the lower end 41a of the guide plate 4 abuts on the asphalt surface a, and the upward rapid tilting of the guide plate 4 causes the shock absorber 5 to extend. Since the cutting bit 21 is blocked by the rod 51, the rotating cutting bit 21 does not instantaneously hit the asphalt surface a due to dropping of the asphalt cutting machine 1 and receives an impact, and acts on the rotating cutting bit 21. It is possible to prevent the cutting bit 21 from being damaged or the asphalt cutting machine 1 from violently vibrating into a dangerous state. That.
[0036]
It should be noted that the present invention is not limited to the above embodiment of the present invention, and it is needless to say that various modifications can be made without departing from the spirit of the present invention.
[0037]
【The invention's effect】
As is clear from the above description, according to the asphalt cutting machine according to the present invention, when the asphalt cutting machine is lowered on the asphalt surface, the lower end of the guide plate first contacts the asphalt surface, and by the function of the shock absorber. Since the guide plate moves upward slowly, the tip of the rotating cutting bit can be prevented from hitting the asphalt surface, and the rotating cutting bit can be gradually brought into contact with the asphalt surface. Thereby, the cutting bit can be prevented from being damaged, and the asphalt cutting machine can be prevented from vibrating violently due to contact with the asphalt surface, and the danger caused by the vibrating asphalt cutting machine can be avoided. In addition, it is possible to prevent the asphalt cutting machine from moving due to the reaction due to the vibration, and to prevent the asphalt cutting machine from being shifted from a target cutting position.
Since the lower part of the guide plate of the asphalt cutting machine is formed in an arc shape, even if the operation of the shovel arm is inexperienced and the asphalt cutting machine is inclined relatively to the asphalt surface, the cutting bit tip always keeps the asphalt surface. To cut the surface at a predetermined cutting depth.
Since the lower portion of the guide plate of the asphalt cutting machine is formed in an arc shape, the front and rear ends of the lower end of the guide plate do not hit the non-cutting portion, and thereby, the asphalt can be cut immediately to the non-cutting portion.
When the asphalt cutting machine is located above the asphalt before and after cutting, the guide plates on both sides of the rotating drum descend by their own weight, and the lower end of the guide plate is located below the tip of the lowest cutting bit being rotated. Then, since the lowermost cutting bit being rotated is hidden from being exposed to the outside, it can be made safe.
Further, when the upper limit position can be freely changed up and down as in claim 2, the cutting depth of the asphalt surface can be changed to a desired cutting depth by changing the upper limit position.
[Brief description of the drawings]
FIG. 1 is a perspective view of a shovel equipped with an asphalt cutting machine showing an embodiment of the present invention.
FIG. 2 is a side view of the asphalt cutting machine showing the embodiment of the present invention.
FIG. 3 is a front view of the asphalt cutting machine showing the embodiment of the present invention.
FIG. 4 is a side view of the asphalt cutting machine during cutting showing the embodiment of the present invention.
FIG. 5 is a front view of the asphalt cutting machine during cutting showing the embodiment of the present invention.
FIG. 6 is a side view of a conventional asphalt cutting machine.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Asphalt cutting machine 10 Hydraulic excavator 10a Arm tip 2 Horizontal rotating drum 21 Cutting bit 3 Upper half cover bearing plate 31 Side plate 32 Upper side peripheral plate 33 Arm mounting bracket 34 Bearing 35 Lower limit stopper 36 Upper limit stopper 4 Guide plate 41 Lower portion 41a Lower end 42 Shaft mounting piece 43 Pivot pin 44 Connecting piece 45 Lower limit stopper receiver 46 Upper limit position variable stopper receiver 46a Mounting piece 46b Adjustable screw stopper receiver 46c Locking receiving piece 47 Pressing piece 5 Buffer 51 Rod a Asphalt surface b Non-cut portion h Cutting depth

Claims (2)

An asphalt cutting machine used as a shovel attachment to be attached to a tip of an arm of a shovel, wherein guide plates on both sides of a horizontal rotary drum having cutting bits mounted on a side peripheral surface are provided, and a lower end of the guide plate is a bottom end. A lower end of the guide plate is tilted up and down between an upper limit position above the lower end of the cutting bit and a lower end position where the lower end of the guide plate is lower than the lower end of the cutting bit. An asphalt cutting machine, characterized in that a shock absorber is provided which is formed on the guide plate to moderate the upward tilting operation of the guide plate. 2. The asphalt cutting machine according to claim 1, wherein the upper limit position is vertically movable.

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