KR20130085134A - Shock absorbers for a vibratory ripper - Google Patents

Abstract

PURPOSE: A shock absorbing device for a vibrating ripper is provided to extend service life by preventing damage of a hydraulic cylinder of an arm and to significantly reduce fatigue of an operator. CONSTITUTION: A shock absorbing device for a vibrating ripper includes an upper damper (130) which is installed inside a steel frame (105) whose upper end is connected to an arm (60) of heavy equipment. Multiple fixing steel plates of the upper damper are installed on the inside of the upper part of a frame since the fixing steel plates are fixed on a bracket of the frame by using bolts. The fixing steel plate elastically absorbs the shock of a vibrating main body (120) when holes of the fixing plate are compressed since the fixing steel plate is composed of a porous elastic body.

Description

Shock Absorber for Vibration Ripper {SHOCK ABSORBERS FOR A VIBRATORY RIPPER}

The present invention relates to a shock absorber for a vibration ripper mounted on heavy equipment to crush a rock, and more particularly, by mounting a porous upper damper on an upper inner side of a frame in a vibration ripper that generates vibration using eccentric weights built into the vibration body. The upper damper suppresses the vibration generated when the vibration body moves up and down, and the link connecting the frame and the vibration body is equipped with a damper bush with a seismic function to suppress vibration in the link to prevent damage to parts of heavy equipment. The present invention relates to a shock absorber for a vibration ripper, which can prevent and greatly reduce an extreme fatigue phenomenon of a driver.

In general, construction sites are equipped with breaker iron cores on the arm of heavy equipment such as excavators, bulldozers, and wheel loaders to strike the rock and strike the rock. However, such a conventional breaker hitting method requires a large amount of low noise and high efficiency since noise pollution is generated largely.

In rocky terrain, the rocker must be used to break the rock, but for soft rock, the rocker breaks the rock instead of breaking the rock, so it's not just a rock breaker like a breaker. It is necessary to equip a type of excavator that can be sold and to break and dig the ground while vibrating up and down like a breaker.

In order to perform such a function, a vibration ripper has been proposed. The conventional vibration ripper has a horizontal structure, in which two sets of gears, each of which is provided with an eccentric weight that is rotationally operated by a hydraulic motor, are horizontally engaged with each other to install a two-axis vibrator.

Such a conventional vibration ripper is arranged horizontally by gears rotated by a hydraulic motor in the vibration body in the horizontal direction, the width of the vibration body is relatively wide, such a wide vibration body is a ripper blade Even if you enter the ground, the width is so large that you cannot enter the ground.

Therefore, the conventional horizontal structure in which the gears are disposed in the transverse direction inside the vibrating body has a problem in that the ground cannot be excavated deeply.

In order to solve such a problem, the applicant of the present invention has proposed a vertical vibration ripper 1 for heavy equipment as shown in FIGS. 1 and 2.

Such a vertical vibration ripper 1 for heavy equipment is equipped with a vibration body 20 inside the frame 5, such a vibration body is a gear (not shown) rotated by the hydraulic motor 10 in the interior It is arranged to be rotated in the vertical direction (vertical direction), each gear (not shown) is mounted to the eccentric to generate the vibration in the vertical direction during the rotation of the gear, the lower portion of the vibration main body 20 When the ground excavation by mounting the ripper blade 30 in the longitudinal direction of the main body, the vibrating main body 20 can be inserted along the ripper blade 30 to the depth of the ground.

Such a conventional vertical vibration ripper (1) when the ground is excavated, the vibration main body 20 can be inserted deeply into the ground along the ripper blade (30) can greatly improve the excavation performance, the performance is very excellent Do.

In addition, when the ripper blade 30 excavates the ground, the ripper blade 30 and the vibration main body 20 can be displaced in the vertical direction with respect to the frame 5 even if the ripper blade 30 is subjected to lateral resistance from the ground. By linking the structure of the link 40, the lateral resistance of the ripper blade 30 is largely buffered to free the operation of the ripper blade 30, and the shock absorbing material 50 supporting the vibration main body 20 is protected to increase its durability. It was excellent to be able to improve.

However, such a conventional vertical vibration ripper 1 has a predetermined empty space 5a on the inner surface of the upper side of the frame 5 in which the vibration main body 20 is built so that the vibration main body 20 can be moved up and down. Formed.

In addition, the frame 5 and the vibrating main body 20 to enable the scraping operation of the ripper blade 30, and to enable the up and down movement of the vibrating main body 20 inside the frame 5 are shown in FIG. As described above, the plurality of upper and lower links 40 and link pins 42 are connected.

This conventional vertical vibration ripper 1 generates a strong vibration during rock crushing operation, the vibration generated in the vibration body 20 is transmitted to the frame 5 through the link 40 and the link pin 42 Then, the arm 60 of the heavy equipment equipped with the vibration ripper 1 vibrates to generate noise, and damages the hydraulic cylinder 60a of the arm 60 to shorten the life.

In addition, such a vibration is also transmitted to the heavy-duty driver through the arm 60 of the heavy machinery, there was a problem of severe fatigue during the rock crushing operation.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned conventional problems, and by effectively damping the transmission of vibration generated in the vibrating body to the arm of the heavy equipment through the link and the frame, the component of the heavy equipment arm, for example, the hydraulic cylinder of the arm. It is possible to extend the service life without damaging the back, and to provide an improved vibration ripper shock absorber to greatly reduce the fatigue of the driver.

In order to achieve the above object, the present invention, in the shock absorber used in the vibration ripper mounted on heavy equipment to fracture the rock,

The vibration main body is mounted inside the upper part of the steel frame, the upper end of which is rotatably connected to the arm of the heavy equipment, and an upper damper that elastically supports the upper surface of the vibration main body to cushion the shock transmitted to the frame when the vibration main body is moved upward. It provides a shock absorber for vibration ripper configured to suppress the transmission of the vibration in the vertical direction of the frame side.

In addition, the present invention is preferably provided with a plurality of upper dampers mounted on the inside of the upper portion of the frame by a fixed iron plate bonded to the upper surface thereof is bolted to the bracket of the frame through a plurality of fixing bolts, each of the elastic material of the porous hole By being made, and at the same time the shank of the vibrating body, the porous holes are compressed to provide a shock absorber for the vibration ripper configured to cushion the shock of the vibrating body elastically.

In another aspect, the present invention provides a shock absorber for the vibration ripper configured to suppress the vibration in the link by mounting a damper bush having a rubber ring each having a seismic function in the link connecting the frame and the vibration main body.

In order to achieve the above object, the present invention, in the shock absorber used in the vibration ripper mounted on heavy equipment to fracture the rock,

Inside the link hole of the link connecting the steel frame and the vibrating body, the upper end of which is rotatably connected to the arm of the heavy equipment, a damper bush having a rubber ring, respectively, is mounted so that the up and down vibration of the vibrating body is directed to the frame side through the link. It provides a shock absorber for the vibration ripper to suppress the transmission.

The present invention preferably provides a damper bushing structure in which a rubber ring is inserted between inner and outer metal rings, respectively, and a link pin is inserted into the inner ring to be fixed.

According to the shock absorber for vibration ripper according to the present invention, the elastic material of the porous hole to be mounted inside the upper portion of the frame to elastically support the upper surface of the vibration body when moving the vibration body to cushion the shock transmitted to the frame It includes an upper damper consisting of. In addition, the link connecting the frame and the vibration main body is equipped with a damper bush provided with a rubber ring having a seismic function, respectively, is configured to suppress the transmission of vibration in the link.

Therefore, according to the shock absorber for vibration ripper according to the present invention, by effectively absorbing the vibration generated in the vibration body to the arm of the heavy equipment through the link and the frame, it does not damage the parts of the heavy equipment arm, for example, the hydraulic cylinder of the arm. Thus, the service life can be extended, and an excellent effect is improved to greatly reduce the fatigue of the driver during the rock fracture operation.

1 is a side view showing a vibration ripper according to the prior art.
Figure 2 is an external perspective view showing an exploded link portion in the vibration ripper according to the prior art.
3 is a side view of a vibration ripper equipped with a shock absorber for the vibration ripper according to the present invention.
Figure 4a is an explanatory view showing a structure in which the upper damper is mounted to the inside of the frame in the shock absorber for vibration ripper according to the present invention.
Figure 4b is an explanatory view showing a porous hole structure formed in the upper damper in the shock absorber for vibration ripper according to the present invention.
Figure 5 is an exploded perspective view showing the link portion in the vibration ripper shock absorber according to the present invention.
6A is a cross-sectional view illustrating a structure in which a damper bush provided in a vibration damper shock absorber according to the present invention is mounted on a link.
Figure 6b is a side cross-sectional view showing a damper bushing structure provided in the shock absorber for vibration ripper according to the present invention.
7 is an operation explanatory diagram of a shock absorber for a vibration ripper according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 3, the vibration ripper to which the shock absorber 100 for vibration ripper according to the present invention is applied includes an iron frame 105 rotatably connected to an arm 60 of heavy equipment. It is connected to the frame 105 through the links 140 on the inside of the frame 105, and has a vibration body 120 for generating a vibration in the vertical direction by the operation of the hydraulic motor.

Such a vibration damper buffer device 100 according to the present invention includes an upper damper 130 mounted inside the upper portion of the frame 105, such an upper damper 130 of the vibration body 120 During the upward movement, the upper surface of the vibrating body 120 is elastically supported to buffer the shock transmitted to the frame 105 and to suppress the up and down vibration of the vibrating body 120 from being transmitted to the frame 105 side. It is configured to.

As shown in FIGS. 4A and 4B, the upper damper 130 is made of an elastic material of the porous hole 132, and may be made of, for example, a urethane rubber material having a hexagonal cross section, and the frame 105. It is a structure fixed to the inner bottom surface of the upper plate.

That is, the upper damper 130 is fixed to the upper surface of the fixing iron plate 134 is bolted to the bracket 138 fixed to the inner bottom surface of the upper plate of the frame 105 through a plurality of fixing bolts (136) A plurality of mounted inside the upper portion of the frame 105.

The upper damper 130 is provided in the upper upper empty space (5a) of the frame 5 in the conventional vibration ripper (1), at the same time the shank of the vibration body 120, the porous holes 132 While being compressed to elastically cushion the shock of the vibrating body 120.

Such porous holes 132 may allow more voids to be formed in the upper damper 130 to more reliably buffer the shock of the vibration body 120.

In addition, the vibration ripper shock absorber 100 according to the present invention, as shown in Figure 5, each of the rubber ring having a seismic function in the link 140 for connecting the frame 105 and the vibration body 120 ( 152 is equipped with a damper bush 150 is configured to suppress the vibration in the link (140).

As shown in FIG. 6A, the damper bush 150 has four sets embedded in one link 140 to suppress vibration transmitted from the vibrating body 120 to the frame 105 through the link 140. Let's do it.

As shown in FIG. 6B, the damper bush 150 has a structure in which a rubber ring 152 is inserted between the inner and outer metal rings 154 and 156, and the outer metal ring 156 is connected to the link 140. It is assembled in the hole of the, for example, hot bent, cold put or press-fitted is assembled in the manner, such that the link pin 142 is fitted into the inner metal ring 154 is fixed.

The vibration ripper shock absorber 100 according to the present invention configured as described above is mounted on the upper inner side of the frame 105 to elastically support the upper surface of the vibration main body 120 when the vibration body 120 moves upward. Seismic isolation is provided in the upper damper 130 made of an elastomeric material of the porous hole 132 and the link 140 connecting the frame 105 and the vibration body 120 to cushion the shock transmitted to the frame 105. The damper bush 150 is provided with a rubber ring 152 having a function to suppress vibration transmission in the link 140.

That is, as shown on the left side of Figure 7, the vibration ripper equipped with the vibration ripper shock absorber 100 according to the present invention is lifted from the ground or rock G, that is, in the no-load state ripper blade 30 ) Is lowered by its own weight so that the upper damper 130 is not pressed.

However, as shown in the right side of Figure 7, when the vibration ripper equipped with the vibration ripper shock absorber 100 according to the present invention is pressed on the rock (G) to crush the ground or rock (G), The vibration body 120 rises by a predetermined height to press the lower surface of the upper damper 130 to a predetermined depth.

In this state, when the hydraulic motor 10 of the vibration main body 120 operates to generate vibration, the upper damper 130 is pressed and stretched by the amplitude of the vibration main body 120 while being pressed. At this time, the upper damper 130 guides the up and down movement of the vibrating body 130 by the pressed force to stabilize the movement of the vibrating body 120.

In addition, the vibration generated during the movement of the vibration body 120 is canceled by the cross-sectional contraction and elastic recovery operation of the porous hole 132 of the upper damper 130 to suppress the transmission of the vibration to the heavy-duty arm (60).

And the link 140 is rotated up and down when the vibration body 120 moves up and down, in this process the rubber ring 152 of the damper bush 150 mounted on the link 140 is elastically Damping the vibration effectively suppresses vibration transmission through the link 140.

Thus, according to the vibration damper buffer device 100 according to the present invention, by effectively absorbing the vibration generated in the vibration main body 120 to the arm 60 of the heavy equipment through the link 140 and the frame 105 The service life can be extended by not damaging parts of the heavy equipment arm 60, for example, the hydraulic cylinder 60a of the arm 60, and the driver's fatigue can be greatly reduced during the rock crushing operation.

Although the present invention has been described in detail with reference to specific embodiments thereof with reference to the accompanying drawings, the present invention is not limited to such specific structures. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the following claims. However, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

1: vertical vibration ripper for heavy equipment 5: frame
5a: empty space 10: hydraulic motor
20: vibration body 30: ripper blade
40: link 42: link pin
50: shock absorbing material 60: arm
60a: Hydraulic cylinder 100: Shock absorber for vibration ripper
105: frame 120: vibration body
130: upper damper 132: porous hole
134: fixing iron plate 136: fixing bolt
138: bracket 140: link
142: link pin 150: damper bush
152: rubber ring 154,156: inner and outer metal rings
G: rock

Claims (5)

In the shock absorber mounted on the heavy equipment used for the vibration ripper to crush the rock,
The vibration main body is mounted inside the upper part of the steel frame, the upper end of which is rotatably connected to the arm of the heavy equipment, and an upper damper that elastically supports the upper surface of the vibration main body to cushion the shock transmitted to the frame when the vibration main body is moved upward. The vibration ripper shock absorber, characterized in that configured to suppress the transmission of the vibration in the vertical direction of the frame side. According to claim 1, wherein the upper damper is fixed to the bracket of the frame through a plurality of fixing bolts fixed to the upper surface of the fixing bolt is mounted on the inside of the upper portion of the frame, each of the elastic material of the porous hole By being made, at the same time when the vibration of the vibration body, the porous hole is compressed, the shock absorber for vibration ripper, characterized in that configured to cushion the shock of the vibration body elastically. The vibration ripper shock absorber according to claim 2, wherein the link connecting the frame and the vibration main body is configured to suppress a vibration in the link by attaching damper bushes each having a rubber ring having a seismic function. In the shock absorber mounted on the heavy equipment used for the vibration ripper to crush the rock,
Inside the link hole of the link connecting the steel frame and the vibrating body, the upper end of which is rotatably connected to the arm of the heavy equipment, a damper bush having a rubber ring, respectively, is mounted so that the up and down vibration of the vibrating body is directed to the frame side through the link. Shock absorber for vibration ripper, characterized in that to suppress the transmission. The shock absorber according to claim 4, wherein the damper bush has a structure in which a rubber ring is inserted between inner and outer metal rings, and a link pin is inserted into the inner ring.

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