KR20100024110A - Crusher for excavator - Google Patents

Abstract

PURPOSE: A crusher for excavator is provided to prevent abrasion of a roll bearing and the noise between a driving body and the roll bearing. CONSTITUTION: A crusher for excavator comprises a body(100), a fastening plate(110), and a cam housing(120), a drive unit, a driving body(170), a crushing unit(180), a vibration absorption unit and a drive guide unit. The fastening plate connects the body to an arm of the excavator. The cam housing vibrates inside the body according to the drive of the drive unit. The drive unit makes the cam housing vibrate. The driving body is integrally fixed to the cam housing. The crushing unit is fixed to the end part of the drive unit. The vibration absorption unit is mounted inside the body and prevents the vibration from being delivered to the body from the cam housing. The drive guide unit drives the driving body up and down.

Description

Crusher for excavator

The present invention is for an excavator which is mainly connected to the end of the arm of the excavator, which is a construction equipment used in construction or civil engineering site, the drilling and crushing of the ground, compaction of the ground, inserting and dismantling the H beam It relates to a vibration crusher.

In general, an excavator, which is a construction equipment used for construction or civil engineering, is equipped with an operating device as shown in FIG. It consists of an arm (3) coupled to each other.

In addition, the end of the arm (3) is equipped with a vibration crusher or bucket according to the purpose of work to perform a predetermined operation, these vibration crusher 10 or bucket (not shown) is at the end of the arm Mounted to allow disassembly and coupling.

Figure 2 is a cross-sectional view showing an example of a conventional vibration crusher that has been used in the excavator as described above.

The vibration crusher as shown in FIG. 2 is largely divided into a body part 10 in which a driving mechanism is stored, a fastening plate 11 for connecting and mounting the body part to an arm of an excavator, and installed in the body part of the driving mechanism. The cam housing 12 which vibrates according to the driving, the driving body 17 fixed to the cam housing and vibrating together, and the crushing part 18 fixed to the end of the driving body to hit the workpiece. .

The hydraulic motor 13 is fixed to one side wall of the cam housing 12 so that the rotating shaft 14 is located inside the cam housing 12, and the rotating shaft 14 has an eccentric cam capable of increasing or decreasing power. 15) is fixed and a cover 16 is provided on the top of the cam housing 12.

Accordingly, when the motor 13 is driven, the rotation shaft 14 rotates, and when the rotation shaft 14 rotates, the eccentric cam 15 rotates together. When the eccentric cam 15 rotates, the eccentric amount of the eccentric cam 15 is rotated. As a result, the rotary shaft 14, the hydraulic motor 13, and the cam housing 12 vibrate together integrally.

When the cam housing 12 vibrates, the driving body 17 fixed to the cam housing 12 vibrates like the cam housing 12, and the crushing part fixed to the end of the driving body 17 18 also vibrates together so that the workpiece can be perforated or crushed by the vibrating crushing unit 18.

On the other hand, in the body portion 10 of the vibration crusher that the vibration of the cam housing 12 as described above is transmitted to the cab 1 through the body portion 10, the fastening plate 11 and the arm 3 of the excavator. Vibration absorbing mechanism is installed to minimize, conventionally fixed to the support (19) on both side walls of the cam housing 12 and the buffer between the upper and lower plates of the body portion 10 and the support 19 is usually made of rubber material Each of the members 20 is installed so that the vibration of the cam housing 12 is absorbed by the buffer member so that the vibration of the body portion 10 is suppressed.

In addition, when the cam housing 12 and the driving body 17 vibrate in accordance with the rotation of the eccentric cam 15, the vibration direction is made in all directions, such as up and down, front and rear, left and right, the driving body 17 And when the crushing unit 18 connected thereto vibrates in all directions, it is not possible to puncture or crush the workpiece, and the vibration crusher includes a driving guide mechanism for driving the driving body 17 only in one direction (up and down directions). Is installed.

3 shows a driving guide mechanism of such a driving body 17. In the related art, a bearing housing 21 having a shape surrounding a part of the driving body 17 is fixed to a lower portion of the body 10, and the bearing is fixed. As the plurality of roll bearings 22 are installed in the housing 21 and the roll bearings 22 are connected to the driving bodies 17 when the driving bodies 17 vibrate, the driving bodies 17 may vibrate in the horizontal direction. It was made to vibrate only in the vertical direction while being suppressed.

Accordingly, when the hydraulic motor 13 is driven, the cam housing 12, the driving body 17, and the crushing unit 18 may vibrate in the up and down direction, so that the work object may be drilled or crushed.

The conventional vibration crusher as described above is to secure the support to the side wall of the cam housing to suppress the vibration of the cam housing transmitted to the cab of the excavator through the body portion and install a cushioning member made of rubber material between the support and the body portion However, as the vibration of the cam housing moving at a high speed is transmitted to the shock absorbing member, the shock absorbing member generates heat to deform and deteriorate the elastic force.

In addition, when the shock absorbing member is deformed and the elastic force is reduced as described above, the shock absorbing vibration transmitted to the body is not properly absorbed, and the vibration is transmitted to the excavator cab as it is. There is a problem that must be exchanged frequently.

In addition, a roll bearing (roller) is installed on the outer side of the driving body to suppress vibration in the left and right directions of the driving body, but severe noise occurs as the roll bearing is repeatedly connected to the driving body having a relatively rough surface. Another drawback is that roll bearings wear easily.

An object of the present invention is to provide a vibration crusher that can effectively prevent the vibration of the cam housing is transmitted to the body portion when driving the vibration crusher, and also prevent the noise generated between the drive body and the roll bearing and the wear of the roll bearing. It is for.

Vibration crusher of the present invention for achieving the above object is a cam housing that is accommodated in the drive mechanism and the vibration absorbing mechanism, and installed in the body portion vibrating in accordance with the drive of the drive mechanism, and fixed to the cam housing And a drive unit interlocked with the cam housing, a crush unit fixed to the drive unit to puncture or crush the work object, and a support fixed to the cam housing and an upper plate and a lower plate of the body to vibrate the cam housing. A wire rope spring that acts as a buffer so as not to be transmitted to the body part, a plurality of rollers installed in the housing fixed to the body part to guide the driving body to move up and down, and fixed to the side of the driving body to be connected to the roller It is characterized by consisting of a plurality of metal pads.

The wire rope spring is installed between the upper plate of the cam housing and the fixed bar installed on the support, and is also installed between the fixed bar installed on the support and the fixed bar positioned away from the cam housing lower plate, the wire rope being a hole of each fixed bar. Penetrates into.

In addition, the roller has a flow path connected to each other while penetrating the roller through the axial direction and the radial direction to supply lubricant to the surface of the metal pad through the flow path, and integrally formed with a collar part to restrict the flow of the driving body to the roller. do.

Vibration crusher according to the present invention is configured to absorb the vibration of the cam housing by installing a wire rope spring between the cam housing and the body portion vibrating in accordance with the drive mechanism of the rubber material between the cam housing and the body portion Compared with the provision of the member, vibration of the cam housing can be more effectively absorbed.

In addition, the conventional rubber cushion member is deformed or deteriorated due to continuous vibration, causing a lot of noise, as well as frequent replacement of the buffer member, wire rope springs applied to the present invention is an extreme temperature, various chemicals It is not affected by various environmental factors such as oil, ozone and sand abrasive, and there is no fear of deformation or damage even during long-term use and noise can be reduced to the maximum.

The rollers are provided on both sides of the driving body to suppress the flow of the driving body, and the lubricant is supplied to the surface of the driving body through the rollers to smoothly drive the driving body and reduce the noise caused by the contact of the driving body and the rollers. It becomes possible.

4 to 8 is a view showing an embodiment of the present invention, the vibration breaker of the present invention is divided into a fastening plate for mounting the body portion 100 and the body portion 100, the excavator 100 by connecting to the arm of the excavator 110, the cam housing 120 is installed in the body portion 100 and vibrates according to the drive of the drive mechanism, the drive mechanism for vibrating the cam housing, and is fixed integrally to the cam housing 120 Drive body 170 that interlocks with the cam housing 120, the crushing unit 180 is fixed to the end of the drive body 170, the body portion 100 is installed in the vibration of the cam housing 120 Vibration absorbing mechanism for suppressing the transmission to the body portion 100 and a drive guide mechanism for driving the drive body 170 in the vertical direction only.

The cam housing 12 is supported in a state capable of moving by a predetermined range within the body portion 100, and the cam housing 120 is covered with a cover 160.

As shown in FIG. 4, the driving mechanism of the cam housing 120 includes a hydraulic motor (not shown) fixed to one side wall of the cam housing 120, a rotating shaft 140 that rotates according to the driving of the hydraulic motor, and It is composed of an eccentric shaft 150 fixed to the rotating shaft 140 and positioned inside the cam housing 120.

Accordingly, when the hydraulic motor is driven, the rotating shaft 140 rotates, and when the rotating shaft 140 rotates, the eccentric cam 150 rotates together. When the eccentric cam 150 rotates, the eccentric cam 150 rotates. The rotating shaft 144 and the motor and the cam housing 120 are vibrated together integrally.

When the cam housing 120 vibrates, the driving body 170 fixed to the cam housing 120 vibrates together with the cam housing 120, and a crushing part fixed to the end of the driving body 170. 180 is also vibrated together, so that the object to be drilled or crushed by the vibrating crushing unit 180, as well as the insertion or dismantling of the H beam.

Supports 190 are installed on both side walls of the cam housing 120, and a cam housing is provided between the support 190 and the upper plate of the body portion 100 and between the support 190 and the lower plate of the body portion 100. Vibration absorbing mechanism for absorbing the vibration of the 120 to prevent the transfer to the body portion 100 is installed.

Vibration absorbing mechanism for preventing the vibration of the cam housing 120 is transmitted to the body portion 100 is fixed bar 200 disposed to face each other between the upper plate and the support 190 of the body portion (100) ( 201) and fixing bars 202 and 203 disposed to face each other between the lower plate and the support 190 of the body part 100 and wire rope springs 204 connected through the fixing bars facing each other.

The wire rope spring 204 is made by twisting a plurality of strands of stainless steel in a rope-like form, and has good elasticity, and has good durability, so that almost no shape change occurs even when used for a long time.

On the other hand, the fixing bar 200 located in the upper portion of the fixing bar disposed between the upper plate and the support 190 of the body portion 100 is fixed to the upper plate of the body portion 100 and positioned in the lower portion 201 ) Is fixed to the upper surface of the support 190 by a suitable fixing means.

In addition, the fixing rod 202 located on the upper side of the fixing bar disposed between the support 190 and the lower plate of the body portion 100 is fixed to the bottom of the support 190, the fixing rod 203 located below the body It is not fixed to the lower plate of the part 100 and is located in a state spaced apart from the lower plate by a predetermined interval.

Accordingly, when the cam housing 120 and the support 190 vibrate, the fixing rods 201 and 202 fixed to the support 19 vibrate together, and the fixing rod 201 fixed to the upper surface of the support 190. Since the wire rope spring 204 is connected between the fixing rod 200 fixed to the upper plate of the body portion 100 through the wire rope spring 204, the vibration of the support 190 is caused by the wire rope spring 204. Since the vibration of the cam housing 120 is hardly transmitted to the body portion 100, the vibration of the cam housing 120 can be prevented from being transmitted to the cab of the excavator through the body portion 100.

In addition, the wire rope spring 204 serves to prevent the vibration of the cam housing 120 is not transmitted to the body portion 100, as well as acting on the cam housing 120 by the reaction force caused by the vibration absorption cam housing 120 It also plays a role in facilitating vibration.

On the other hand, the fixing rod 203 located in the lower part of the fixing rods 202 and 203 installed between the support 190 and the lower plate of the body portion 100 is separated from the lower portion of the body portion 100 by a predetermined interval. When the crushing unit 180 collides with a hard rock during operation or an unexpected excessive vibration occurs in the cam housing 120 due to external factors, the lower fixing rod 203 moves and the wire rope spring 204 does not absorb. It is to be able to absorb the excessive vibration that can not be.

The driving guide mechanism for driving the driving body 170 in the vertical direction during the vibration of the cam housing 120 is a body portion in the form of wrapping a portion of the driving body 170 as shown in Figs. A housing (210) fixed to the lower end of the (100), a plurality of rollers (220) rotatably supported by the housing (210) to restrict the flow in the front, rear, left and right directions of the driving body (170), and the driving It is composed of a plurality of metal pads 230 fixed to both sides of the sieve 170 and connected to the roller 220.

The roller 220 is disposed on the left and right sides of the drive body 170 so as to limit the left and right flow of the drive body 170 in the drawing, as shown in Figure 4, respectively installed on the upper and lower portions of the housing 210 Make two pairs.

 In addition, the rollers 220 are rotatably supported by a bearing 240, and each roller 220 has a flow path 221 communicating with each other while penetrating the rollers 220 in an axial direction and a radial direction. The injection port 223 for injecting lubricant is installed at one side of the flow path 221 to supply lubricant such as grease through the flow path 221.

In addition, a pair of collars 222 are formed on the roller 220 to restrict the forward and backward flow of the driving body 170, and the driving body 170 is positioned between the collars 222. .

The metal pads 230 are fixed to both sides of the driving body 170 as shown in FIGS. 4, 7, and 8, and are disposed at positions connecting to the rollers 220. ) Is inserted into the pad groove formed in the driving body 170 so that the driving body 170 and the metal pad 230 form the same surface without a step.

In addition, the metal pad 230 has a size that the metal pad 230 can be connected to the roller 220 at the maximum and the lowest position of the driving body 170 in consideration of the vertical driving distance of the driving body 170. It is made of heat-treated metal having excellent durability, smooth surface and strong hardness.

Therefore, when the driving body 170 vibrates due to the vibration of the cam housing 120, the surface of the roller 220 is connected to the surface of the metal pad 230 made of a smooth material. Since the occurrence is minimized, friction between the metal pad 230 and the roller 220 is reduced by the lubrication of the lubricant supplied to the surface of the metal pad 230 through the flow path 221 formed in the roller 220. Noise generated when the sieve 170 is driven is further reduced.

In addition, the driving body 170 is located between the collar portions 222 formed on both sides of the roller 220, and the collar portion 222 restricts the flow of the driving body 170 in the front-rear direction in the drawing and thus Accordingly, the noise due to the front-back direction vibration of the driving body 170 is also suppressed, thereby enabling a quieter operation.

1 is an exemplary view of a state in which a vibration crusher is used mounted on the excavator

Figure 2 is a perspective view showing a portion of the conventional vibration crusher cut

3 is a cross-sectional view of a conventional vibration crusher

4 is a cross-sectional view of a vibration crusher according to the present invention

5 is a perspective view of a fixing rod and a wire rope applied in the present invention

Figure 6 is a perspective view of a roller and a metal pad applied to the present invention

Figure 7 is a cross-sectional view showing a connection state of the roller and the metal pad

Figure 8 is a side view showing the connection state of the roller and the metal pad

<Description of the symbols for the main parts of the drawings>

  100: body 120: cam housing

  170: driving body 190: support

  200,201,202,203: fixing rod 204: rope wire spring

  210: housing 220: roller

  221: Euro 222: Calabu

  230: Metal Pad

Claims (5)

A body part for storing the driving mechanism and the vibration absorbing mechanism; Cam housing is installed in the body portion and vibrates in accordance with the drive of the drive mechanism, A drive body fixed to the cam housing and interlocked with the cam housing; A crushing part fixed to the driving body to punch or crush the work object; A wire rope spring installed between a support fixed to the cam housing and an upper plate and a lower plate of the body part to act as a buffer so that vibration of the cam housing is not transmitted to the body part; A plurality of rollers installed in the housing fixed to the body to guide the driving body to move in the vertical direction; And a plurality of metal pads fixed to the side surfaces of the driving body and connected to the rollers. The excavator according to claim 1, wherein the wire rope spring is installed between the upper plate of the cam housing and the fixed bar installed on the support, and between the fixed bar installed on the support and the fixed bar positioned away from the cam housing lower plate. Vibration crusher for The vibration crusher for an excavator according to claim 2, wherein the wire rope spring is penetrated through the hole of the fixing rod. The vibration crusher for an excavator according to claim 1, wherein a flow path connected to each other while penetrating through the axial direction and the radial direction is formed in the roller to supply lubricant to the surface of the metal pad through the flow path. The vibration crusher for an excavator according to claim 1, wherein a collar portion for restricting the flow of the driving body is integrally formed on the roller.

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