KR101158101B1 - Vibration ripper - Google Patents

Abstract

PURPOSE: A vibration ripper is provided to prevent vibration generated from a vibration generation unit for vibrating a ripper blade from being transferred to a boom or arm. CONSTITUTION: A vibration ripper comprises a main body(13), a vibration unit(20), multiple vibration control units(40), and vibration control supports(50). The main body has a vibration space(11) and a joint(12) coupled to a boom or arm. The vibration unit is located at the vibration space and has a vibrator. The vibration control units support the vibration unit. The vibration control supports are installed on the vibration unit and the main body and prevent damage to the vibration control units by limiting the vibration range of the vibration unit.

Description

Vibration Ripper

The present invention relates to a vibration ripper, and more particularly, to a vibration ripper having an improved vibration support structure.

In general, excavators used in civil engineering and construction sites for highways, harbors, bridges, dams, buildings, urban development, etc. are the process of compacting, crushing, excavating, etc. Severe noise is generated from the
In particular, in order to scrape the soil of a rock, concrete structure, solid ground, etc., or to collect the soil of the excavator is used to install a breaker or a ripper unit, the vibration generated from the breaker or ripper unit is transmitted directly to the boom. These vibrations generate noise, which is amplified and doubled in the course of delivery to the boom.
In view of this, Korean Patent Publication No. 2006-0033893 discloses an excavator ripper. The disclosed excavator ripper is connected to the boom of the excavator, the mount is rotatably mounted in the connection mount portion, the blade body for excavating soil of the ground, and is mounted to the blade body, the blade body Vibration means for providing power.
In the disclosed excavator ripper, the blade body is rotatably mounted to the boom of the excavator, and since the vibration means is installed in the blade body, the vibration is transmitted to the boom through the blade body. As such, the vibration transmitted to the boom is amplified to make the adjustment of the excavator difficult, and further, the excavator is damaged.
In addition, Korean Patent No. 2011-0116647 discloses a vibration nipper for heavy equipment. The posted oscillation nipun is arranged so that the gears rotated by the hydraulic motor are arranged in the up and down direction and are rotatable. Each of the gears includes an eccentric body and a vibration main body that generates vibration in the up and down direction during the rotation of the gear. And the vibration
The lower part of the main body is configured to mount the nipper blade in the longitudinal direction of the vibration main body so that the vibration main body can be inserted to the depth of the ground along the nipper blade when the ground is excavated.
The inventor of the present invention has continuously registered the damper and elastic support structure of the vibration ripper and has been registered as a patent No. 0878296 after the patent application, and continued to further study this vibration ripper to reach a subsequent application.

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The present invention is to solve the above problems, it is possible to prevent the vibration generated from the vibration generating means for vibrating the ripper blade to be transmitted to the boom or the vehicle body, and to improve the support of the vibration unit to the body It is an object of the present invention to provide a vibration ripper by preventing the dustproof unit from being damaged by a work force.
Another object of the present invention is that the action and reaction of the ripper blade is applied to the dustproof unit to cause damage to the dustproof unit, by constraining the connecting link between the vibration unit and the body in both directions to improve the durability of the dustproof unit, the left of the vibration unit In addition, the present invention provides a vibrating ripper that can prevent damage to the equipment when the bending moment and the rotating moment are applied to the ripper blade by preventing the shaking.

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Vibration ripper of the present invention for achieving the above object,
A main body having a vibration space and having a coupling portion for coupling with a fixed bracket of a boom or heavy equipment on an upper side thereof;
A vibration unit located in the vibration space of the main body and having a vibrator installed therein, a plurality of vibration proof units supported on both sides of the vibration unit and a corresponding body to support the vibration unit vibrating with respect to the main body;
A ripper blade installed on the vibration unit and extending downward;
It characterized in that it comprises a vibration limiting support for connecting the upper surface side and the main body of the vibration unit.
In the present invention, the vibration limiting support portion preferably uses a link. The vibration limiting support part has a first connection connecting the upper surface side of the vibration unit and the main body, and the first connection preferably uses two links connected to each other. It may further include a second connecting link connecting the lower front and rear surfaces and the main body of the vibration unit.
The first and second connection links may be made of a chain or a wire.

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When the vibration ripper of the present invention is mounted on the arm of heavy equipment, that is, an excavator, a payloader, or the boom or a browser, the vibration generated from the vibration ripper can be minimized from being transmitted to the boom or the arm. When the moment is acting, it is possible to increase the supporting force of the housing to the main body, and to improve the durability of the dustproof rubber, which is a support means for supporting the housing relative to the main body, and further to prevent the vibration unit from swinging forward and backward.

1 is a perspective view showing a vibration ripper according to the present invention,
2 and 3 is a perspective view showing another embodiment of the vibration ripper according to the present invention,
Figure 4 is an exploded perspective view showing the jaw is coupled to the ripper blade is shown,
5 is a front view showing another embodiment of the vibration ripper according to the present invention,
6 is a side view showing the vibration ripper shown in FIG.

Vibration ripper according to the invention is installed on the arm or boom, such as excavators, bulldozers and payloaders used for civil engineering and construction, etc. to excavate or crush concrete, asphalt and soft ground, etc. An example is shown in FIGS.
Referring to the drawings, the vibration ripper 10 has a vibration space portion 11 and a main body 13 having a coupling portion 12 for engagement with an arm of a boom or heavy equipment on the outside, and is located in the vibration space and vibrator It is supported on the vibration unit 20 is installed 30, both sides of the housing 21 of the vibration unit 20 and the main body 13 corresponding thereto to vibrate the vibration unit 20 with respect to the main body 13 A plurality of dustproof units 40 for supporting are provided. And a vibration limiting support part installed at the vibration unit 20 and the main body 13 to limit the vibration range by the bending moment and the rotation moment of the vibration unit by vibration and work force to prevent breakage of the dustproof unit 40 ( 50). In addition, the vibration unit 20 may be provided with a ripper blade 100 extending downward to crush or scratch the arm.
Referring to the vibration ripper unit 10 according to the present invention configured as described above in more detail for each component as follows.
The fixing bracket 12 formed on the upper portion of the main body 13 of the vibration ripper 10 is for fixing to a boom or an arm of heavy equipment, and a plurality of coupling holes 12b for coupling the pin 12a with the boom are provided. Is formed. In addition, the main body 12 includes a vibration space part 11, and includes first and second support parts 14 and 15 on which dustproof means are installed to support the vibration unit 20. And the lower side of the main body 13 is opened so that the refurbished blade 100 can be drawn out downward. The main body is not limited to the above-described embodiment and may be any structure as long as the vibration unit 20 provided with the ripper blade 100 can vibrate smoothly.
The dustproof unit 40 suspends the vibration unit 20 in the vibration space portion 11 of the body 13 so that the vibration unit 20 can be smoothly supported, and the first support portion 14 of the body and Anti-vibration members 41 and 42 are supported between one side of the corresponding housing 21 and between the second support 15 and the other side of the housing 21. The vibration damping members 41 and 42 may be provided with support plates for fixing to the side surfaces of the housing 21 or the first and second support parts 14 and 15, respectively, at both ends thereof. Here, the dustproof members 41 and 42 may be made of a rubber material, but are not limited thereto and may be any structure that can support the vibration unit elastically. For example, it may be made of a coil spring, a link, and the like, in the case of the link, a cushioning member may be installed at a portion to which the hinge is coupled to absorb a distance difference between the main body and the housing according to the rotation of the link.
On the other hand, the dustproof unit 40 is not shown in the drawing, but the support plate is installed, it may be configured to the dustproof portion is installed between the dustproof rubber and the support plate between the support plate.
The vibration unit 20 is suspended in the main body 13 by the dustproof unit 40 and vibrated to be installed in the housing 21 and the vibrator 30 installed in the housing 21 to the lower side of the vibration space portion. It has a ripper blade 100 protruding.
The vibrator 30 may be a known vibrator (published in Patent No. 0755017, filed and registered by the inventor). The vibrator includes a pair of rotation shafts installed in the housing, drive gears installed on the respective rotation shafts and engaged with each other, an eccentric weight member respectively installed on the rotation shafts, and installed on the housing to drive one rotation shaft. It is provided with a hydraulic motor.
The vibrator is not limited to the above-described embodiment and may be any structure as long as it can vibrate the ripper blade of the vibration unit in the vertical direction. For example, as shown in Figs. 5 and 6, the rotating shaft 28 to which the eccentric weight member is attached is installed in a state perpendicular to the main body 13, and a hydraulic motor 29 for driving them is provided with one of the rotating shafts. In this case, each rotary shaft 28 has a separate power transmission means such as a gear chain so that it can be driven by the hydraulic motor (29). At least three rotation shafts may be installed.
The vibration limiting support unit 50 is vibrated by the vibrator 30, and to prevent the dustproof unit 40 supporting the vibration unit with respect to the main body by the operating force transmitted from the ripper blade 100, the housing, A first connecting link 51 connecting the upper portion of the body 21 and the upper side of the main body 13 is provided. As shown in FIGS. 1 and 5, the first connection link 51 may be formed by coupling two first and second link members 51a and 51b to each other.
The first connection link 51 will be described in more detail. The first connection link 51 includes a first support bracket 53 installed on an upper surface of the housing 21 and a first support part of the main body 13. It is connected to the second support bracket 54 installed to correspond to the first support bracket 52 by the hinge shafts (14). The first connection link 51 allows the vibration to be smoothly made in the vertical direction when the housing 21 is raised and lowered, and the first and second support brackets so that the housing is not rotated in the front-rear direction or the rotation direction with respect to the main body. Two first and second link members 51a and 51b may be connected inline to a hinge shaft supported by the 53 and 54.
The first connection link is not limited to the above-described embodiment, and two or more split links may be hinged in consideration of the vibration trajectory in the vertical direction of the housing 21.
As shown in FIG. 3, the second connection link 55 is installed on at least one side of the front side and the rear side of the lower side of the housing 21, and the first hinge shaft 56 penetrates through the housing 21. Both ends are rotatably installed on the second hinge shaft 57 which is installed in parallel with the first hinge shaft 56 on the second support portion 15. And it is preferable to install two so that the second connection link 55 is located on the front side and the rear side of the housing, respectively.
On the other hand, the ripper blade 100 installed on the lower surface of the housing 21 is coupled to the end by the jaw 105 for excavation by the key unit 110. A jaw coupling portion 101 is formed at the lower end of the refurbishment blade 100, and a jaw coupling portion 106 to which the jaw coupling portion 101 is coupled is formed in the jaw 105. The key unit 110 is slidably supported by the fixing members 111 supported on both sides of the jaw 105 and the jaw coupling portion 101 of the ripper blade 100, and the fixing members 111 and Carrying the guide rod 112 to be coupled is provided with a key member 113, and a coupling member 114 for supporting the ripper blade 100 coupled to the guide rod 112, of the coupling member 112 A plurality of washers 113 are formed therebetween.
Referring to the operation of the mobile ripper according to the present invention configured as described above are as follows.
The vibration ripper according to the present invention minimizes the noise during the work by performing the crushing and excavation work of concrete, asphalt, soft rock, and wind rock having higher strength than general soil in civil engineering, building construction site, and demolition site, and vibration is boom or It can be prevented from being delivered to the arm.
That is, when the hydraulic motor of the vibrator 30 is driven in a state in which the vibration ripper 10 according to the present invention is mounted to the boom of the excavator, the eccentric weight installed in the vibrator rotates, thereby generating vibration. Therefore, the main vibration direction of the vibration unit, that is, the housing 21 and the ripper blade 100 connected thereto is made up and down.
In this process, the housing 21 of the vibration unit 20 is suspended by the dustproof members 41 and 42 of the dustproof means 40, that is, the dustproof members 41 and 42 made of a rubber material having elastic force. It will not be interfered with by vibration in the direction. In particular, the vibration ripper 10 according to the present invention is connected to the housing 21 and the main body 13 by the first connection link 51 to limit the range of vibration. That is, since the length of the first connection link 51 is limited, the range of rotation is limited, thereby limiting the width of vibration. Since the first connection link has two first and second link members 51a and 51b connected in-line, vibration freedom in the vertical direction and vibration freedom in the left and right directions are secured. This degree of freedom can reduce amplification of vibrations by connecting links.
In addition, since the lower side of the housing 21 and the main body 13 have a structure connected by the second connection link 55, as described above, the first link link and the second link link is controlled to restrain the action of the blade ripper. The anti-vibration member 41 prevents the reaction force from being caught on the dustproof member, and the work force is transmitted from the ripper blade 100 to the housing 21 side during the operation by the ripper blade 100 to support the housing 21. Damage to (42) can be prevented. That is, the dustproof member made of a plate made of rubber material can be prevented from being torn or deteriorated in durability.
And the jaw (110) installed at the end of the ripper blade in the process of working is supported by the key unit 110 to remove the noise during direct shock or vibration transfer and to facilitate the replacement of the jaw, a consumable part .
As described above, in the present invention, the vibration ripper can restrain the action reaction generated during the operation by the first and second connection links which are the vibration limiting units, so that the dustproof means are damaged by the work force during the excavation or the rock crushing operation. Can be prevented.
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 appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

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The vibration ripper of the present invention provides vibration amplitude to the dustproof unit during excavation or shredding operation by a ripper blade, so that durability can be improved and can be widely used in various heavy equipment for civil engineering and construction.

Claims (6)

A main body having a vibration space portion and a coupling portion for coupling with a fixed bracket of a boom or heavy equipment on an upper side thereof;
A vibration unit located in the vibration space of the main body and having a vibrator installed therein, a plurality of vibration proof units supported on both sides of the vibration unit and a corresponding body to support the vibration unit vibrating with respect to the main body;
A ripper blade installed on the vibration unit and extending downward;
It is provided with a vibration limiting support portion connecting the upper surface side of the vibration unit and the main body,
The vibration limiting support part includes a first connection link connecting the upper surface side of the vibration unit and the main body, wherein the first connection link corresponds to a first support bracket installed on the upper surface of the housing and the first support bracket on the main body. Vibration ripper characterized in that it comprises two first and second link members connected to the installed second support bracket by hinge shafts. delete delete The method of claim 1,
The ripper blade is made by combining a jaw for digging at the end by a key unit,
The key unit includes a guide key member having a fixed member supported on both sides of the jaw, a guide rod slidably supported on the jaw engaging portion of the ripper blade and coupled to the fixed member, and a ripper blade coupled to the guide rod. Vibration ripper comprising a coupling member for supporting. delete The method of claim 1,
The vibration limiting support unit further comprises a second connecting link connecting the front and rear surfaces of the lower side of the housing and one side of the main body.

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