JP5182621B2 - Mass crushing device - Google Patents

Description

  The present invention is used by mounting on a hydraulic excavator, and inserts two wedge liners facing each other into a guide hole previously drilled in a rock or concrete structure, and the wedge liner is expanded hydraulically. And it is related with the expansion crushing apparatus which generates a crack from the said guide hole and crushes block bodies, such as a rock mass and a concrete structure.

Conventionally, bedrock / concrete breakers, crushers, etc. have been used for general crushing work of bedrock and concrete structures, and super large concrete breakers, crushers, monkens, etc. for destruction work of large foundation concrete structures. In addition to the use of weights, explosive blasting has also been adopted.
However, the crushing operation as described above is accompanied by a large blow / impact sound and vibration, which is a serious pollution problem in urban areas.
In order to solve such a technical problem, the present inventor uses two wedge liners (arms) which are used by attaching to a hydraulic excavator, and face each other inside guide holes drilled in advance in a rock or a concrete structure. ), And the wedge liner (arm) is hydraulically expanded to generate cracks from the guide hole to break down the rock mass and concrete structure. I've done it.
Japanese Patent Application Laid-Open No. 2004-60160 “Portable Expandable Crushing Device for Crushing Concrete Structures” is a piston integrated with a cylinder and a wedge sheet pile portion projecting from the lower end of the piston portion and configured integrally with the piston portion. A wedge, an arm arranged opposite to the left and right across the wedge sheet pile portion of the piston integrated wedge, and configured to engage with the wedge sheet pile portion and expand left and right; and the cylinder and the arm A pair of left and right frames that are connected and supported, and a urethane rubber damper inserted in a groove carved in the lower part of the frame so that the left and right arms always hold the central wedge sheet pile part, The upper end arm portion is configured to be opposed and biased by its elasticity.
The crushing operation of the concrete structure by the portable expanding crushing apparatus for crushing the concrete structure has very low vibration and low noise, and has greatly contributed to solving the above-mentioned problems.
JP 2004-60160 A

As described above, the “portable type spreading crushing device for crushing concrete structures” developed by the present inventor is such that the crushing device itself is small and light, and is inserted into a guide hole drilled in advance. Since the concrete structure is crushed by the hydraulic expansion operation based on the principle, it has succeeded in greatly suppressing the generation of vibration and noise.
However, during the demolition work of the concrete structure, the wedge sheet pile protruding from the lower end of the piston portion disposed in the hydraulic cylinder and configured integrally with the piston portion is pushed in by hydraulic pressure, and two wedge liners ( When crushing a concrete structure by expanding the arm), the wedge liner tip is deeply buried in the concrete structure, and is further tightened by the reinforcing bar tension in the concrete structure and pushed between the two wedge liners. There was a problem that the wedged sheet pile was not pulled out.
This condition often occurs during the first or second blow of the crushing operation, and may not be pulled out by a wedge liner that is obstructed by the multiple reinforcing bars embedded in the concrete structure and remains open. . For this reason, the excavator machine has to be pulled out by swinging greatly, which not only deteriorates the work efficiency but also causes problems such as vibration and noise caused by extra work.

The present invention has been made to solve the above-mentioned problems by the following means.
(1) Two wedge liners, which are used by attaching to a hydraulic excavator and inserted in a guide hole previously drilled in a block body such as a rock or a concrete structure, are inserted into the guide holes, and the two wedge liners are inserted. A wedge sheet pile placed in the center of the cylinder is pushed in by sliding the piston of the hydraulic cylinder, and the two wedge liners are expanded to the left and right. In the apparatus for expanding and crushing a mass to be crushed, a hydraulic pipe for lowering (for pushing a wedge sheet pile) and a hydraulic pipe for raising (for pulling out a wedge sheet pile) for supplying hydraulic pressure for sliding the piston of the hydraulic cylinder up and down to each relief valve for setting the maximum value of the discharge pressure is (wedge piles closet) lowering the maximum value of the discharge pressure of the hydraulic pipe, ascending ( Expansion apparatus for fracturing masses, characterized in that towards the maximum value of the discharge pressure of Ejji sheet piles for drawing) hydraulic line is provided with set higher.
( 2 ) The discharge hydraulic pressure supplied to the hydraulic cylinder from the lowering (wedge sheet pile pushing) hydraulic pipe and the rising (wedge sheet pile extraction) hydraulic pipe is assumed to be pulsated by a hydraulic booster (pressure intensifier). The apparatus for expanding and crushing a lump as described in (1 ) above.

The following effects can be exhibited by the lump expanding and crushing apparatus of the present invention.
1. Hydraulic equipment for lowering (for wedge sheet pile insertion) provided to slide the piston that pushes in the wedge sheet pile up and down in the massive crushing device used for crushing rock mass and dismantling the massive bodies such as concrete structures Each of the pipe and the lifting hydraulic pipe (for pulling out the wedge sheet pile) is equipped with a relief valve that sets the maximum value of the pipe discharge hydraulic pressure. It can be set, and the force of the piston can be arbitrarily adjusted in accordance with the state of crushing of the mass such as a rock mass or a concrete structure.
2. The relief valve can be set so that the maximum value of the discharge hydraulic pressure of the hydraulic pipe for lifting (for pulling out the wedge sheet pile) is higher than the maximum value of hydraulic pressure of the hydraulic pipe for lowering (for pushing the wedge sheet pile). Therefore, the force to pull out the wedged sheet pile that has been pushed in is stronger than the force to lower the wedge sheet pile and push it in between the two wedge liners. The wedge sheet pile pushed in between the two wedge liners by the wedge liner tightened with the tension of multiple reinforcing bars in the concrete structure can be easily pulled out by the discharge pressure from the ascending pipe, and the crushing work Can be carried out smoothly, and the working efficiency can be greatly improved.
Further, since the control for increasing the pulling force can be performed by adjusting the hydraulic pressure, an extra work such as swinging the excavator machine is unnecessary, and the crushing work can be performed without vibration and noise.
3. Since the discharge hydraulic pressure supplied to the hydraulic cylinder is a hydraulic pressure with pulsation via a hydraulic booster (pressure intensifier), pressure is applied intermittently to the piston of the hydraulic cylinder, and the wedge sheet pile is struck by the impact, causing vibration. It can be effectively pulled out without generating noise.

The best mode for carrying out the present invention will be described with reference to the drawings of the embodiments.
FIG. 1 is a circuit diagram for explaining the lump expanding and crushing apparatus of the present invention.
In the figure, 1 is a lump expanding and crushing device, 2 is a hydraulic cylinder, 3 is a piston, 4 is a wedge sheet pile, 5 is a piston integrated wedge, 6 is a wedge liner, 7 is a frame, 8 is a damper, 10 is a lowering Hydraulic pipe, 11 for lowering oil inlet, 20 for lifting hydraulic pipe, 21 for rising oil inlet, 21 for rising oil inlet, 300 for hydraulic unit, 301 for lowering relief valve , 302 are lift relief valves, 311 and 312 are hydraulic boosters, and 32 is a switching valve.

FIG. 1 is a circuit diagram for explaining the lump expanding and crushing apparatus of the present invention.
The lump expanding and crushing apparatus 1 according to the present invention includes a piston integrated wedge 5 including a hydraulic cylinder 2 and a wedge sheet pile 4 that is provided at the lower end of the piston 3 and is configured integrally with the piston 3. Wedge liners 6, 6 arranged to be opposed to each other on both sides of the wedge sheet pile 4 of the modified wedge 5 and configured to be able to expand to the left and right by engaging with the wedge sheet pile 4, the hydraulic cylinder 2 and the wedge A pair of left and right frames 7, 7 for connecting and supporting the liners 6, 6 and the left and right wedge liners 6, 6 are engraved on the lower portions of the frames 7, 7 so that the central wedge sheet pile 4 is always sandwiched between them. A urethane rubber damper 8 inserted in a groove provided is constituted by means for urging the upper end arms of the wedge liners 6 and 6 to oppose each other by its elasticity.
And the said expansion crushing apparatus 1 is mounted | worn with the hydraulic shovel machine (not shown), The two wedge liners 6 which made the inner side face each other in the guide hole previously drilled in the rock mass and the concrete structure, 6 is inserted, the piston integrated wedge 5 is lowered by hydraulic pressure, the two wedge liners 6 and 6 are expanded, and cracks are generated from the guide holes to crush the rock mass and the concrete structure.

The hydraulic pressure supplied to the hydraulic cylinder 2 for lowering the piston integrated wedge 5 is for lowering provided on the upper part of the hydraulic cylinder 2 via the hydraulic pipe 10 for lowering (for pushing the wedge sheet pile) from the hydraulic unit 300. It is given from the oil injection port 11 to the upper part of the piston 3 in the hydraulic cylinder 2. At this time, pulsation is generated in the hydraulic pressure, and the pulsation is applied to the piston integrated wedge 5 where the pulsation descends, whereby the wedge sheet pile 4 of the piston integrated wedge 5 vibrates and slides on the inner surfaces of the left and right wedge liners 6 and 6. While going down easily.
When the expanding and crushing operation in one guide hole is completed, the hydraulic oil is supplied from the hydraulic unit 300 to the rising oil inlet 21 provided in the lower part of the hydraulic cylinder 2 through the hydraulic pipe 20 for lifting (for drawing the wedge sheet pile). In addition, the piston integrated wedge 5 is raised, and the wedge liners 6 and 6 expanded left and right are returned to the original state so that the wedge liners 6 and 6 can be inserted into the next guide holes. At this time, the urging of the urethane rubber damper 8 attached to the groove carved in the lower inner side of the frame 7 toward the upper end arm portion of the wedge liner causes the wedge liners 6 and 6 to contract as the piston integrated wedge 5 rises. Acts on closing.
The hydraulic unit 300 includes a push-in hydraulic booster (intensifier) 311 for lowering the piston integrated wedge 5, and a pull-out hydraulic booster (intensifier) 312 for raising the piston integrated wedge 5. Are used alternately.

The hydraulic unit 300 includes a lowering hydraulic pipe 10 and an ascending hydraulic pipe 20 for supplying hydraulic pressure for moving up and down a piston integrated wedge 5 in which the piston 3 and the wedge sheet pile 4 of the hydraulic cylinder 2 are integrated. Relief valves 301 and 302 are provided in each of these, and the maximum value of the discharge hydraulic pressure of each pipe can be set.
The relief valves 301 and 302 can be set so that the maximum value of the discharge hydraulic pressure of the rising hydraulic pipe 20 is higher than the maximum value of the discharge hydraulic pressure of the lowering hydraulic pipe 10.

In the present invention, a lump refers to a general structure that needs to be crushed, such as a concrete structure in which a reinforcing bar is embedded, a bedrock, and a rock.
Further, the “for lowering” is a case where the wedge sheet pile is pushed in, and the “for ascending” is a case where the wedge sheet pile is pulled out, and is used by changing the angle of the expansion crushing apparatus 1. The same applies to cases (for example, left and right movements).

In the lump expanding and crushing apparatus 1 of the present invention, the maximum value of the discharge hydraulic pressure is set in the relief valve 301 for lowering and the relief valve 302 for raising provided in advance in the hydraulic unit 300.
When expanding the wedge liners 6 and 6 for crushing a mass such as a concrete structure, a lowering oil injection port provided on the upper part of the hydraulic cylinder 2 from the hydraulic unit 300 via the lowering hydraulic pipe 10. The hydraulic pressure is supplied to 11 and pressure is applied to the upper part of the piston 3 in the hydraulic cylinder 2 to lower the piston integrated wedge 5.
Since the hydraulic unit 300 includes the lowering relief valve 301, when the discharge hydraulic pressure of the lowering hydraulic pipe reaches the maximum pressure set in the relief valve 301 due to the increase in pressure, the relief valve 301 The pressure can be relieved by 301, and the pushing force due to the lowering of the piston integrated wedge 5 can be adjusted.

On the other hand, when the crushing operation in one guide hole is completed and the expanded wedge liners 6 and 6 are returned to the original, the lift provided from the hydraulic unit 300 to the lower part of the hydraulic cylinder 2 through the lifting hydraulic pipe 20. Oil pressure is applied to the oil injection port 21 to apply pressure to the lower portion of the piston 3 in the hydraulic cylinder 2 to raise the piston integrated wedge 5.
Since the hydraulic unit 300 includes the lift relief valve 302, when the discharge hydraulic pressure of the lift hydraulic pipe reaches the maximum pressure set in the relief valve 302 due to the pressure increase, the relief valve 302 is provided. The pressure can be relieved by 302, and the pulling force due to the rise of the piston integrated wedge 5 can be adjusted.

The second embodiment of the expansion crushing apparatus 1 according to the present invention is a lowering hydraulic pressure that is set in the lowering relief valve 301 with respect to the lowering relief valve 301 and the raising relief valve 302 that are previously provided in the hydraulic unit 300. The maximum value of the discharge hydraulic pressure of the rising hydraulic pipe set in the lift relief valve 302 is set higher than the maximum value of the pipe discharge hydraulic pressure.
By setting in this way, when the piston integrated wedge 5 is pushed in hydraulically and the two wedge liners are expanded and the concrete structure is crushed, the tips of the wedge liners 6 and 6 are deeply buried in the concrete structure. Alternatively, when the wedge sheet pile inserted between the two wedge liners is tightened by the tension of a plurality of reinforcing bars embedded in the concrete structure and cannot be pulled out, the piston integrated wedge 5 is pushed down. The piston integrated wedge 5 can be raised at a hydraulic pressure higher than the maximum hydraulic pressure, and the wedge liners 6 and 6 are contracted as the piston integrated wedge 5 rises, so that the wedge liners 6 and 6 can be easily pulled out. It becomes.

  The hydraulic unit 300 includes a pushing hydraulic booster (pressure booster) 311 for lowering the piston integrated wedge 5 and a pulling hydraulic booster (pressure booster) for raising the piston integrated wedge 5. 312 is provided, and the discharge hydraulic pressure supplied to the hydraulic cylinder 2 is oil pressure accompanied by pulsation via a hydraulic booster (pressure intensifier), so that pressure can be intermittently applied to the piston 3 of the hydraulic cylinder 2. The wedge sheet pile 4 is hit by the impact, and can be easily pulled out without generating vibration or noise.

  In the case where the maximum value of the discharge hydraulic pressure of the rising hydraulic pipe set in the rising relief valve 302 is set higher than the maximum value of the discharge hydraulic pressure of the lowering hydraulic pipe set in the lowering relief valve 301, for example, It is preferable that the ascending relief valve 302 side be raised by about 3 to 20% with respect to the descending relief valve 301. Specifically, the lowering relief valve 301 is set to 100 KPa, and the rising relief valve 302 is set to 110 KPa.

  Since the lump expanding and crushing apparatus 1 according to the present invention is mounted on a hydraulic excavator and used, a hydraulic drive source of the hydraulic excavator can be used to drive the hydraulic unit 300.

Circuit diagram for explaining the lump expanding and crushing apparatus of the present invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Expanding and breaking apparatus of lump body 2 Hydraulic cylinder 3 Piston 4 Wedge sheet pile 5 Piston integrated wedge 6 Wedge liner 7 Frame 8 Damper 10 Lowering hydraulic pipe 11 Lowering oil injection port 20 Elevating hydraulic pipe 21 Elevating oil injection port 32 Switching valve 300 Hydraulic unit 301 Relief valve for lowering 302 Relief valve for raising 311 Hydraulic booster (pressure booster)
312 Hydraulic booster

Claims (2)

The two wedge liners (6, 6), which are used on a hydraulic excavator and inserted into a lump body such as a rock mass or a concrete structure in advance, face each other, are inserted into the guide holes. A wedge sheet pile (4) disposed in the center of the wedge liner (6, 6) is pushed in by sliding of the piston (3) of the hydraulic cylinder (2) to move the two wedge liners (6, 6) to the left and right. In the expanding and crushing device (1) for a lump that expands and breaks by breaking the lump such as a rock mass or a concrete structure from the guide hole,
The hydraulic pipe (10) for lowering (for pushing the wedge sheet pile) and the hydraulic pipe (20 for pulling out the wedge sheet pile) for supplying hydraulic pressure for sliding up and down the piston (3) of the hydraulic cylinder (2). Relief valves (301, 302) for setting the maximum value of the discharge hydraulic pressure are respectively raised (wedge sheet pile extraction) hydraulic pipes from the maximum value of the discharge hydraulic pressure of the lowering (wedge sheet pressing) hydraulic pipe (10). (20) An apparatus for expanding and crushing a massive body, characterized in that it is set and provided so that the maximum value of the discharge hydraulic pressure is higher . The discharge hydraulic pressure supplied to the hydraulic cylinder (2) from the lowering (wedge sheet pile pushing) hydraulic pipe (10) and the rising (wedge sheet pile drawing) hydraulic pipe (20) is a hydraulic booster (pressure intensifier) (311). , 312), and the apparatus for expanding and crushing a lump according to claim 1, wherein the apparatus is accompanied by pulsation.