JP4551927B2 - Piston and rod device of hydraulic breaker for excavator - Google Patents

Description

  The present invention relates to a piston and rod structure of a hydraulic breaker for an excavator, and more specifically, by making a sound generated from the hydraulic breaker absorbed and attenuated by an absorber inside the piston and rod. When demolishing roads and buildings in a city using hydraulic breakers, avoid noise pollution for people living in the vicinity of the building, especially the absorber, although it does not interfere with noise attenuation performance. The present invention relates to a piston and rod structure of a hydraulic breaker for an excavator for adjusting the weight and striking force of the piston according to the performance of the excavator by preparing a device capable of adjusting the height.

  Generally, a hydraulic breaker is used attached to an excavator and is used in an excavator or other basic machine for crushing rocks, concrete and other relatively hard materials.

  The hydraulic breaker is composed of a hydraulically operated cylinder and a piston, and a rod used for breaking an object is attached to the front of the cylinder. When the piston reciprocates due to the impact of hydraulic pressure, the upper part of the rod is hit. As the piston moves, the rod pushes and crushes the material so that the rod penetrates the object with the impact and pressure of the stroke and crushes the object.

  However, while the hydraulic breaker is in operation, the hammering noise that occurs when the piston strikes the rod and the breaking noise that occurs when the rod breaks the object, etc., are known as experience. Yes.

  In particular, troubles occur due to noise generated when buildings are destroyed in cities and when roads are dug up. At that time, there was a problem that the construction period was extended because the construction was interrupted and the construction was done by another method or the construction time was reduced.

  Japanese Patent Abstract No. 3059016 discloses a structure for attenuating the noise of a hydraulic breaker. However, since the entire cylinder is surrounded by a soundproof material, the operating heat generated from the inside of the cylinder is not easily dissipated to the outside, so that the oil inside the cylinder is easily carbonized and consumed, resulting in a shortage of oil and shortening the life of the cylinder. And since the bracket which surrounds a cylinder is not a structure which can be disassembled, it is disadvantageous for inspection or exchange of a rod, a pin, etc. inside a cylinder. In particular, there is a problem that it is difficult to separate the soundproofing material because it is firmly attached to the outer wall of the cylinder. In addition, because the structure surrounds the cylinder more than necessary, the soundproofing material is wasted, the brackets become larger, the cost increases, and the overall weight of the hydraulic breaker increases, making it difficult to handle. .

  In consideration of these points, R.O.K. Patent No. 435827 registered by the present inventor considers the noise of a hydraulic breaker used when demolishing rocks, concrete, buildings and crushing other hard materials. After sealing the entire generating part, the filler is injected into the inside and sealed, so that the impact sound generated when the piston strikes the rod is absorbed and extinguished, and the sound is attenuated to attenuate the noise. It is a hydraulic breaker.

  The present invention relates to an improvement of a registered patent, and the object of the present invention is to generate vibration and vibration sound when the striking sound generated when the piston strikes the rod is absorbed and extinguished by the absorber inside the piston and the rod. By preventing leakage to the outside, the noise from the piston and rod, which is the source of noise, is attenuated, and the absorber has a means that can adjust the weight of the piston without affecting the noise attenuation performance. To provide a piston and rod structure of a hydraulic breaker for an excavator that is provided and allows adjustment of the weight and striking force of the piston according to the performance of the excavator.

  To achieve the above object, the present invention provides a piston structure of an excavator hydraulic breaker in which a cylinder piston strikes a rod to excavate, and a space portion is formed inside the piston, and the specific gravity of the space portion is higher than that of the piston. In addition, by incorporating a sound absorbing body that is a heavy material and has a relatively low hardness, it absorbs vibrations and shocks caused by impact, and suppresses cylinder echoes to attenuate noise.

  According to the present invention, after encircling the entire noise generating part of the hydraulic or pneumatic hydraulic breaker used at the construction site, the sound absorbing body is built in the piston and rod so that the sound is absorbed and attenuated. By doing so, the crushing noise generated when the piston and rod are struck or demolished is attenuated as a whole, so troubles due to noise pollution can be reduced, and daytime work can be done even in cities where the noise is attenuated. As a result, the construction period can be shortened.

  The present invention further includes an absorber adjusting means that can easily adjust the weight of the sound absorbing body of the piston so that it can actively cope with changes in the performance of the excavator or the operating flow rate for operating the piston. In addition, the reciprocating motion of the piston and the excavation force are not reduced, and the noise is attenuated.

  FIG. 1 is a perspective view of a hydraulic breaker according to the present invention, and FIG. 2 is a separated sectional view of the hydraulic breaker according to the present invention. The hydraulic breaker of the present invention includes a cylinder 1 and a piston 2 that are operated by hydraulic pressure or pneumatic pressure, and a rod 3 that is struck by the piston 2 is provided in front of the cylinder 1. Rod 3 is sharpened to facilitate dismantling or demolishing rocks, concrete, buildings and other hard materials.

  A bracket 4 for connecting to the arm of the excavator is provided at the front and rear of the cylinder 1, and the bracket 4 and the cylinder 1 are fastened and fixed by a number of side bolts 14 with the cylinder fixing plate 5 interposed therebetween. Yes.

  The present invention is provided with a sealing means 8 for enclosing and sealing the noise generating portion of the cylinder 1 and a soundproofing means 9 for absorbing and insulating noise.

  The sealing means 8 includes a side plate 11 that surrounds both the left and right sides of the cylinder 1, an upper plate 12 that surrounds the upper portion of the cylinder 1, and a bottom plate 13 that surrounds the lower portion of the cylinder 1. Orthogonal. The lower end of the side plate 11 and the outer peripheral surface of the bottom plate 13 are in contact with each other, and the front surface and the rear surface of the side plate 11 are in contact with the inner surface of the bracket 4.

  The outer peripheral surface of the cylinder 1 is surrounded by the side plate 11, the upper plate 12 and the bottom plate, and the front and rear sides thereof are surrounded by the bracket 4 so that the four sides are sealed. The side plate 11 is fastened and fixed by bolts 18 in contact with the cylinder fixing plate 5.

  The soundproofing means 9 uses a sound absorbing plate 16 to seal the outer peripheral edge of the cylinder 1 surrounded by the sealing means 8. The sound absorbing plate 16 is made of a rubber material whose specific gravity is heavier than that of iron, and has a sound absorbing property.

  The sound absorbing plate 16 has a thickness of about 10 mm, and a plurality of the sound absorbing plates 16 are stacked so that the space between the sealing means 8 and the cylinder 1 is completely filled. As a result, the noise generated from the cylinder 1 is absorbed by the sound absorbing plate 16 or collides with the sealing means 8 and is soundproofed, so that the noise is effectively reduced.

  Since the rod 3 is connected with the pin 6 and the shank 7 so as not to be detached from the cylinder 1, even if noise leaks to the outside of the cylinder 1 through the surface of the shank 6, the sealing means 8 and the soundproofing means 9 absorb and sound the sound. .

  An auxiliary cover 15 surrounding the rod 3 is provided at the lower end of the cylinder 1. The auxiliary cover passes through the bottom plate to indicate the rod 3, and a packing for sealing and a sound absorbing plate for sound absorption are stacked inside. As a result, noise leaking to the outside of the cylinder 1 through the rod 3 is filtered and attenuated by the auxiliary cover 15.

  3 and 4 show the structure of the piston of the present invention. As shown in the figure, a space portion 17a is formed inside the piston 2, and the space portion 17a has such a size that the space portion 17a can be completely filled. Built-in sound absorber. The sound absorbing body 17 is made of a material such as lead, tin and copper having a specific gravity heavier than that of the piston iron and relatively low in hardness, so that vibration and noise when hit are canceled out. And since the piston 2 is made heavier, the hitting performance when the rod 3 is hit is improved.

  Since a fluid film is formed between the piston 2 and the cylinder 1 at an interval of 0.25 mm, it is natural that the sound generated from the piston 2 leaks through the oil film. Therefore, the hitting sound generated when the piston 2 hits the rod 3 is a main noise generating source generated from the hydraulic breaker.

  In the present invention, since the sound absorbing body 17 is built in the piston 2, the sound that is generated when the piston 2 strikes the rod 3 is absorbed and extinguished by the absorber 17, and no vibration or echo is generated. Noise leakage and echo phenomenon to the cylinder 1 are reduced. And the absorber 17 fastens the stopper 17b which has a nut function to the upper part of the piston 2, and fixes this.

  Reference numeral 10 is a cushioning rubber pad embedded between the cylinder fixing plate 5 and the bracket 4, and 19 is a pin for attaching the bracket 4 to the excavator.

  The present invention configured as described above is assembled as shown in FIGS. The sound absorbing body 17 is press-fitted into the space 17a of the piston 2 so that there is no space between the absorber 17 and the space 17a. When the interval is generated, the part becomes like a resonator, and a part of the absorber 17 and the piston 2 is broken and damaged, so the absorber 17 and the piston 2 should be assembled with care. Then, the lower end of the space portion 17a should be processed so as to eliminate the corners so as to form a concave arc shape so that the hitting sound does not approach one side. The absorber 17 is sealed and fixed inside the piston 2 through the plug 17b, and the absorber 17 and the piston 2 are integrated.

  In the present invention, the cylinder 1 is fixed to the bracket 4 when the rubber pad 10 having a cushioning property is fastened between the bracket 4 and the cylinder fixing plate 5 using the side bolts 14. Then, after the sound absorbing plate 16 is laminated between the front and rear brackets 4 so as to cover the outer peripheral surface of the cylinder 1, the bolt 18 is fastened to the cylinder fixing plate 5 with the side plate 11 sandwiched therebetween. The left side surface and the right side surface of the cylinder 1 are surrounded by 16. At this time, since the upper plate 12 is integrated with the upper portion of the side plate 11, the noise generating portion of the cylinder 1 is surrounded except for the lower portion.

  After the bottom plate 13 is sandwiched between the lower portions of the cylinder 1 and the outer peripheral surface of the bottom plate 13 is in contact with the side plate 11 and the inner surface of the bracket 4, the auxiliary cover 15 is sandwiched between the rods 3 and fixed to the bottom plate 13. The entire noise generating part is enclosed and hermetically assembled.

  When the hydraulic breaker is activated, the piston 2 strikes the rod 3 while reciprocating, so that a hitting sound is generated. At this time, the generated hitting sound is almost absorbed by the hitting sound absorber 17 incorporated in the piston 2, so that only a low noise of 70 dB or less (which is a daily noise regulation value in the ROK environment section) is generated. To do. The remaining noise leaks through the outer peripheral surface of the pin 6 that fixes the rod 3. At this time, the sound is absorbed and sound-insulated by the sound-absorbing plate 16, and is sound-insulated by the side plate 11, the upper plate 12, and the bottom plate 13. Decreases overall.

  The noise leaking from the rod 3 is also absorbed and attenuated by the sound absorbing plate and the packing of the auxiliary cover 15, so that the impact noise of the hydraulic breaker can be reduced.

  FIG. 5 is a sectional view showing another embodiment of the hydraulic breaker piston of the present invention. In another embodiment of the present invention, the sound absorbing body 17 incorporated in the piston 2 is provided with an absorber adjusting means capable of adjusting its weight without affecting the noise attenuation performance. The absorber adjustment means facilitates the adjustment of the weight and striking force of the piston 2 depending on the performance of the excavator. In the case of a large excavator, the hydraulic pressure force that operates the piston is large. The piston can be operated without difficulty even if it changes, but in the case of a small excavator, the reciprocating efficiency of the piston changes due to the change in the weight of the piston, so that the performance of the hydraulic breaker cannot be fully exhibited.

  Therefore, the absorber adjusting means capable of adjusting the weight of the sound absorbing body 17 incorporated in the piston so as to reduce the noise while there is no great change in the striking force with which the piston of the hydraulic breaker strikes the rod. 19 is provided.

  The absorbent body adjusting means 19 of the present invention incorporates a pipe 19a that vertically penetrates the inside of the hole in order to reduce the weight of the absorbent body 17. The pipe 19a is filled with a sound absorbing material 19b that reduces the resonance phenomenon. The sound absorbing material 19b may be made of a mixed rubber and urethane, and a specific gravity between the piston 2 and the absorber 17 may be used.

  Another example of an embodiment of the present invention configured in this manner vertically penetrates the interior of the absorber heavier than the piston and reduces the weight of the piston, so that it is necessary to operate the excavator and the piston. A change in the oil flow rate can be actively dealt with, and a decrease in the reciprocating force of the piston can be prevented.

  In the present invention, since the inside of the absorber 17 is hollow, the vibration is further increased instead of the reason that the resonance phenomenon occurs. In order to solve this problem, the sound absorbing material 19b which is the absorber adjusting means 19 is filled in the through-hole portion of the absorber 17, so that the resonance phenomenon is eliminated and vibration and noise propagation can be prevented.

  FIG. 6 is a sectional view showing another embodiment of the hydraulic breaker piston according to the present invention, which has the same configuration as that of the other embodiment of FIG. However, there is a difference in the contents filled in the absorber adjusting means 19. The content filled in the absorber adjusting means 19 is a vibration isolating material 19c having a vibration isolating property.

  As the vibration isolator 19c, fluids such as sand and iron powder particles and grease are used, and these vibration isolators suppress vibrations generated when the piston strikes the rod.

  FIG. 7 is a cross-sectional view of a hydraulic breaker rod according to the present invention, which is the same principle as the piston structure of the present invention. However, a device for preventing the upper end of the rod from being damaged by an impact generated when the piston strikes the rod and a device for reinforcing the tip at the lower end of the rod are added.

  The rod 3 of the present invention is formed with a space 3a for accommodating the sound absorbing body 3b therein, and the sound absorbing body 3b has a material whose specific gravity is heavier than that of the rod and has a relatively lower hardness. Since it consists of tin and copper, when the piston 2 hits the rod, vibrations and echoes are canceled out.

  And the cap 3c is put on the upper end of the rod 3. Since the cap 3c is inclined in a tapered shape at the joint with the rod, the centers of the cap 3c and the rod 3 are exactly aligned, and this is joined by heat insertion or welding.

  The lower end of the rod 3 is provided with a tip 3d of alloy steel that has relatively higher wear resistance and strength than the rod 3. The tip 3d is also tilted in a tapered shape at the joint with the rod, and is joined by heat insertion or welding.

  Since the rod of the present invention configured as described above has the absorber 3b built therein, the sound and vibration echo generated when the piston 2 strikes the rod are canceled by the absorber. In particular, since the absorber 2 is also incorporated in the piston 2, there is an effect of further reducing the hitting sound due to the interaction between the absorbers 17 and 3 b, and the rod 3 is prevented from being damaged by the impact of the piston 2 at the upper end of the rod 3. Since the cap 3c to be formed is formed, the reliability of the product is improved. Since the replaceable tip 3d is formed at the lower end of the rod 3, the rod can be used all the time even if the tip is replaced. Therefore, the cost can be reduced by replacing the rod.

1 is a perspective view of a hydraulic breaker according to the present invention. The separation perspective view of the hydraulic breaker concerning the present invention. 1 is a front sectional view of a hydraulic breaker according to the present invention. The piston sectional view of the hydraulic breaker concerning the present invention. Sectional drawing which shows another Example of the piston which concerns on this invention. Sectional drawing which shows another Example of the piston which concerns on this invention. Sectional drawing of the hydraulic breaker rod which concerns on this invention.

Explanation of symbols

1 cylinder 2 piston 3 rod 3a space
3b Sound absorber 3c Cap 3d Chip 4 Bracket 5 Cylinder fixing plate 8 Sealing means 9 Noise attenuating means 10 Pad 11 Side plate 12 Upper plate 13 Bottom plate 14 Bolt 15 Auxiliary cover 16 Sound absorber 17a Spacer 17b Plug 19 Absorber adjusting means 19a pipe 19b sound absorbing material 19c vibration damping material

Claims (4)

In the piston structure of a hydraulic breaker for an excavator in which the piston (2) of the cylinder (1) hits the rod (3) and excavates,
A space is formed inside the piston (2),
In the space, a sound absorber (17) that is heavier than the piston (2) and has a relatively low hardness is built in, so that vibration and impact due to the impact are absorbed, and the echo of the cylinder (1) is echoed. A piston structure of a hydraulic breaker for an excavator characterized by suppressing noise attenuation, and the sound absorbing body (17) includes a pipe (19a) and a sound absorbing material (19b) or a vibration isolating material. The absorber adjusting means (19) consisting of (19c) is built in, and the absorber adjusting means (19) is provided with a pipe (19a) penetrating the sound absorbing body (17) into the space of the hole. (19a) is filled with either a sound absorbing material (19b) for reducing echo noise due to resonance or a vibration isolating material (19c) for preventing vibration due to resonance. Piston structure . 2. The piston structure of a hydraulic breaker for an excavator according to claim 1, wherein the hitting sound absorber (17) is made of lead or tin. In the piston structure of a hydraulic breaker for an excavator in which the piston (2) of the cylinder (1) hits the rod (3) and excavates,
A space is formed inside the rod (3),
The space has a built-in sound absorber (3b) that is heavier than the rod material and has a relatively low hardness, absorbs vibration and impact, and suppresses the echo of the cylinder (1) following the sound. The piston structure of a hydraulic breaker for excavators according to claim 1 or 2 , characterized in that noise attenuation is achieved. A cap (3c) that seals the sound absorbing body (3b) is fastened to the upper end of the rod (3) in order to prevent damage caused by striking the piston,
The rod structure of a hydraulic breaker for excavator according to claim 3 , wherein a replaceable tip (3d) for increasing wear resistance and strength is coupled to the lower end of the rod (3).

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